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Brain Structure and Function
Published in: Brain Structure and Function 4/2020

Open Access 01-05-2020 | Review

Neuroanatomical tract-tracing techniques that did go viral

Authors: Jose L. Lanciego, Floris G. Wouterlood

Published in: Brain Structure and Function | Issue 4/2020

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Abstract

Neuroanatomical tracing methods remain fundamental for elucidating the complexity of brain circuits. During the past decades, the technical arsenal at our disposal has been greatly enriched, with a steady supply of fresh arrivals. This paper provides a landscape view of classical and modern tools for tract-tracing purposes. Focus is placed on methods that have gone viral, i.e., became most widespread used and fully reliable. To keep an historical perspective, we start by reviewing one-dimensional, standalone transport-tracing tools; these including today’s two most favorite anterograde neuroanatomical tracers such as Phaseolus vulgaris-leucoagglutinin and biotinylated dextran amine. Next, emphasis is placed on several classical tools widely used for retrograde neuroanatomical tracing purposes, where Fluoro-Gold in our opinion represents the best example. Furthermore, it is worth noting that multi-dimensional paradigms can be designed by combining different tracers or by applying a given tracer together with detecting one or more neurochemical substances, as illustrated here with several examples. Finally, it is without any doubt that we are currently witnessing the unstoppable and spectacular rise of modern molecular-genetic techniques based on the use of modified viruses as delivery vehicles for genetic material, therefore, pushing the tract-tracing field forward into a new era. In summary, here, we aim to provide neuroscientists with the advice and background required when facing a choice on which neuroanatomical tracer—or combination thereof—might be best suited for addressing a given experimental design.
Literature
Aarnisalo AA, Panula P (1995) Neuropeptide FF-containing efferent projections from the medial hypothalamus of rat: a Phaseolus vulgaris leucoagglutinin study. Neuroscience 65:175–192PubMed
Abdel-Majid RM, Archibald ML, Tremblay F, Baldridge WH (2005) Tracer coupling of neurons in the rat retina inner nuclear layer labeled by Fluorogold. Brain Res 1063:114–120PubMed
Afarinesh MR, Behzadi G (2017) The pattern of thalamocortical and brain stem projections to the vibrissae-related sensory and motor cortices in de-whiskered congenital hypothyroid rats. Metab Brain Dis 32:1223–1235PubMed
Ahn J, Saltos TM, Tom VJ, Hou S (2018) Transsynaptic tracing to dissect supraspinal serotonergic input regulating the bladder reflex in rats. Neurourol Urodyn 37:2487–2494PubMedPubMedCentral
Akintunde A, Buxton DF (1992) Origins and collateralization of corticospinal, corticopontine, corticorubral and corticostriatal tracts: a multiple retrograde fluorescent tracing study. Brain Res 586:208–218PubMed
Albisetti GW, Ghanem A, Foster E, Conzelmann KK, Zeilhofer HU, Wildner H (2017) Identification of two classes of somatosensory neurons that display resistance to retrograde infection by rabies virus. J Neurosci 37:10358–10371PubMedPubMedCentral
Amaral DG, Kondo H, Lavenex P (2014) An analysis of entorhinal cortex projections to the dentate gyrus, hippocampus, and subiculum of the neonatal macaque monkey. J Comp Neurol. 522:1485–1505PubMedPubMedCentral
Amey-Özel M, von der Emde G, Engelmann J, Grant K (2015) More a finger than a nose: the trigeminal motor and sensory innervation of the Schnauzenorgan in the elephant-nose fish Gnathonemus petersii. J Comp Neurol 523:769–789PubMed
Antal M, Freund TF, Somogyi P, McIlhinney RA (1990) Simultaneous anterograde labelling of two afferent pathways to the same target area with Phaseolus vulgaris leucoagglutinin and Phaseolus vulgaris leucoagglutinin conjugated to biotin or dinitrophenol. J Chem Neuroanat 3:1–9PubMed
Appeltants D, Absil P, Balthazart J, Ball GF (2000) Identification of the origin of catecholaminergic inputs to HVc in canaries by retrograde tract tracing combined with tyrosine hydroxylase immunocytochemistry. J Chem Neuroanat 18:117–133PubMed
Arima Y, Yokota S, Fujitani M (2019) Lateral parabrachial neurons innervate orexin neurons projecting to brainstem arousal areas in the rat. Sci Rep 26:2830
Aston-Jones G, Card JP (2000) Use of pseudorabies virus to delineate multisynaptic circuits in brain: opportunities and limitations. J Neurosci Meth 103:51–61
Atasoy D, Aponte Y, Su HH, Sternson SM (2008) A FLEX switch targets Channelrhodopsin-2 to multiple cell types for imaging and long-range circuit mapping. J Neurosci 28:7025–7030PubMedPubMedCentral
Atoji Y, Wild JM (2004) Fiber connections of the hippocampal formation and septum and subdivisions of the hippocampal formation in the pigeon as revealed by tract tracing and kainic acid lesions. J Comp Neurol 475:426–461PubMed
Atoji Y, Sarkar S, Wild JM (2018) Differential projections of the densocellular and intermediate parts of the hyperpallium in the pigeon (Columba livia). J Comp Neurol 526:146–165PubMed
Bäckman CM, Malik N, Zhang YJ, Shan L, Grinberg A, Hoffer BJ, Westphal H, Tomac AC (2006) Characterization of a mouse strain expressing Cre recombinase from the 3′ untranslated region of the dopamine transporter locus. Genesis 44:383–390PubMed
Bácskai T, Veress G, Halasi G, Matesz C (2010) Crossing dendrites of the hypoglossal motoneurons: possible morphological substrate of coordinated and synchronized tongue movements of the frog, Rana esculenta. Brain Res 1313:89–96PubMed
Bak IJ, Markham CH, Cook ML, Stevens JG (1977) Intraaxonal transport of Herpes simplex virus in the rat central nervous system. Brain Res 136:415–429PubMed
Barbier M, Fellmann D, Risold PY (2018) Morphofunctional organization of the connections from the medial and intermediate parts of the central nucleus of the amygdala Into distinct divisions of the lateral hypothalamic area in the rat. Front Neurol 9:00688
Basbaum AI, Menetrey D (1987) Wheat germ agglutinin–apoHRP gold: a new retrograde tracer for light- and electron-microscopic single and double-label studies. J Comp Neurol 261:306–318PubMed
Beier KT (2019) Hitchhiking on the neuronal highway: mechanisms of transsynaptic specificity. J Chem Neuroanat 99:9–17PubMedPubMedCentral
Beier KT, Mundell NA, Pan YA, Cepko C (2017) Anterograde or retrograde transsynaptic circuit tracing in vertebrates with vesicular stomatitis virus vectors. Curr Protoc Neurosci 74:1.26.1–1.26.27
Bentivoglio M, Kuypers HG, Catsman-Berrevoets CE, Dann O (1979) Fluorescent retrograde neuronal labeling in rat by means of substances binding specifically to adenine-thymine rich DNA. Neurosci Lett 12:235–240PubMed
Bentivoglio M, Kuypers HG, Castman-Berrevoets CE, Loewe H, Dann O (1980) Two new fluorescent retrograde neuronal tracers which are transported over long distances. Neurosci Lett 18:25–30PubMed
Berendse HW, Galis-de Graaf Y, Groenewegen HJ (1992a) Topographical organization and relationship with ventral striatal compartments of prefrontal corticostriatal projections in the rat. J Comp Neurol 316:314–347PubMed
Berendse HW, Groenewegen HJ, Lohman AH (1992b) Compartmental distribution of ventral striatal neurons projecting to the mesencephalon in the rat. J Neurosci 12:2079–2103PubMedPubMedCentral
Bharali DJ, Klejbor I, Stachowiak EK, Dutta P, Roy I, Kaur N, Bergey EJ, Prasad PN, Stachowiak MK (2005) Organically modified silica nanoparticles: a nonviral vector for in vivo gene delivery and expression in the brain. PNAS 102:11539–11544PubMedPubMedCentral
Bloem B, Schoppink L, Rotaru DC, Faiz A, Hendriks P, Mansvelder HD, van de Berg WD, Wouterlood FG (2014) Topographic mapping between basal forebrain cholinergic neurons and the medial prefrontal cortex in mice. J Neurosci 34:16234–16246PubMedPubMedCentral
Boeckers TM, Kreutz MR, Winter C, Zuschratter W, Smalla KH, Sanmarti-Vila L, Wex H, Langnaese K, Bockmann J, Garner CC, Gundelfinger ED (1999) Proline-rich synapse-associated protein-1/cortactin binding protein 1 (ProSAP1/CortBP1) is a PDZ-domain protein highly enriched in the postsynaptic density. J Neurosci 19:6506–6518PubMedPubMedCentral
Bolam JP (ed) (1992) Experimental neuroanatomy. A practical approach. Oxford University Press, Oxford (ISBN 0-19-963326-8)
Bolam JP, Ingham CA (1990) Combined morphological and histochemicalk techniques for the study of neuronal microcircuits. In: Wouterlood FG, Van den Pol AN (eds) Analysis of neuronal microcircuits and synaptic interactions. Handbook of Chemical Neuroanatomy (Björklund A, Hökfelt T (Eds)), vol 8. Elsevier Biomedical Press, Amsterdam, pp 125–198
Boldogköi Z, Reichart A, Tóth IE, Sik A, Erdélyi F, Medveczky I, Llorens-Cortes C, Palkovits M, Lenkei Z (2002) Construction of recombinant pseudorabies viruses optimized for labeling and neurochemical characterization of neural circuitry. Brain Res Mol Brain Res 109:105–118PubMed
Boulland J-L, Jenstad M, Boekel A, Wouterlood FG, Edwards RH, Storm-Mathisen J, Chaudhry FA (2009) Vesicular glutamate and GABA transporters sort to distinct sets of vesicles at a symmetric synapse. Cereb Cortex 19:241–248PubMed
Bowyer JF, Schmued LC (2006) Fluoro-Ruby labeling prior to an amphetamine neurotoxic insult shows a definitive massive loss of dopaminergic terminals and axons in the caudate-putamen. Brain Res 1075:236–239PubMed
Brandt HM, Apkarian AV (1992) Biotin-dextran: a sensitive anterograde tracer for neuroanatomic studies in rat and monkey. J Neurosci Meth 45:87–98
Broms J, Grahm M, Haugegaard L, Blom T, Meletis K, Tingström A (2017) Monosynaptic retrograde tracing of neurons expressing the G-protein coupled receptor Gpr151 in the mouse brain. J Comp Neurol 525:3227–3250PubMedPubMedCentral
Buhl EH, Lübke J (1989) Intracellular lucifer yellow injection in fixed brain slices combined with retrograde tracing, light and electron microscopy. Neuroscience 28:3–16PubMed
Callahan CA, Yoshikawa S, Thomas JB (1998) Tracing axons. Curr Opin Neurobiol 8:582–586PubMed
Callaway EM (2008) Transneuronal circuit tracing with neurotropic viruses. Curr Opin Neurobiol 18:617–623PubMed
Callaway EM, Luo L (2015) Monosynaptic circuit tracing with glycoprotein-deleted rabies viruses. J Neurosci 35:8979–8985PubMedPubMedCentral
Castle M, Aymerich MS, Sánchez-Escobar C, Gonzalo N, Obeso JA, Lanciego JL (2005) Thalamic innervation of the direct and indirect basal ganglia pathways in the rat: ipsi- and contralateral projections. J Comp Neurol 483:143–153PubMed
Catalano SM, Robertson RT, Killackey HP (1996) Individual axon morphology and thalamocortical topography in developing rat somatosensory cortex. J Comp Neurol 367:36–53PubMed
Chamberlin NL, Du B, de Lacalle S, Saper CB (1998) Recombinant adeno-associated virus vector: use for transgene expression and anterograde tract tracing in the CNS. Brain Res 793:169–175PubMedPubMedCentral
Chang HT, Kuo H, Whittaker JA, Cooper NG (1990) Light and electron microscopic analysis of projection neurons retrogradely labeled with Fluoro-Gold: notes on the application of antibodies to Fluoro-Gold. J Neurosci Meth 35:31–37
Chatterjee S, Sullivan HA, MacLennan BJ, Xu R, Hou YY, Lavin TK, Lea NE, Michalski JE, Babcock KR, Dietrich S, Matthews GA, Beyeler A, Calhoon GG, Glober G, Whitesell JD, Yao S, Cetin A, Harris JA, Zeng H, Tye KM, Reid RC, Wickersham IR (2018) Nontoxic, double-deletion-mutant rabies viral vectors for retrograde targeting of projection neurons. Nat Neurosci 21:638–646PubMedPubMedCentral
Chen S, Aston-Jones G (1998) Axonal collateral-collateral transport of tract tracers in brain neurons: false anterograde labelling and useful tool. Neuroscience 82:1151–1163PubMed
Chen Y-C, Sheng J, Trang P, Liu F (2018) Potential application of the CRISPR/Cas9 system against Herpesvirus Infections. Viruses 10:291PubMedCentral
Cipolloni PB, Hersch SM, White EL (1985) The use of lectin transport in the mouse central nervous system as an anterograde axonal marker for electron microscopy. Neurosci Lett 58:43–47PubMed
Coen L, Osta R, Maury M, Brûlet P (1997) Construction of hybrid proteins that migrate retrogradely and transsynaptically into the central nervous system. Proc Natl Acad Sci USA 94:9400–9405PubMedPubMedCentral
Conte WL, Kamishina H, Reep RL (2009a) The efficacy of the fluorescent conjugates of cholera toxin subunit B for multiple retrograde tracing in the central nervous system. Brain Struct Funct 213:3667–3673
Conte WL, Kamishina H, Reep RL (2009b) Multiple neuroanatomical tract-tracing using fluorescent Alexa Fluor conjugates of cholera toxin subunit B in rats. Nature Prot 4:1158–1166
Cowan WM, Cuénod M (eds) (1975) The use of axonal transport for studies in neuronal connectivity. Amsterdam, Elsevier, p 382
Cowan WM, Gottlieb DI, Hendrickson AE, Price JL, Woolsey TA (1972) The autoradiographic demonstration of axonal connections in the central nervous system. Brain Res 37:21–51PubMed
Dai J, Swaab DF, Buijs RM (1998a) Recovery of axonal transport in “dead neurons”. Lancet 351:499–500PubMed
Dai J, Van Der Vliet J, Swaab DF, Buijs RM (1998b) Postmortem anterograde tracing of intrahypothalamic projections of the human dorsomedial nucleus of the hypothalamus. J Comp Neurol 401:16–33PubMed
D’aniello B, Luongo L, Rastogi RK, Di Meglio M, Pinelli C (2015) Tract-tracing study of the extrabulbar olfactory projections in the brain of some teleosts. Microsc Res Techn 78:268–276
Deller T, Naumann T, Frotscher M (2000) Retrograde and anterograde tracing combined with transmitter identification and electron microscopy. J Neurosci Meth 103:117–126
Deng Y, Lanciego JL, Kerkerian-Le Goff L, Coulon P, Salin P, Lei W, DelMar N, Reiner A (2015) Differential organization of cortical inputs to striatal projection neurons of the matrix compartment in rats. Front Syst Neurosci 9:51PubMedPubMedCentral
Egensperger R, Holländer H (1988) Electron microscopic visualization of fluorescent microspheres used as a neuronal tracer. J Neurosci Meth 23:181–186
Erro E, Lanciego JL, Giménez-Amaya JM (1999) Relationships between thalamostriatal neurons and pedunculopontine projections to the thalamus: a neuroanatomical tract-tracing study in the rat. Exp Brain Res 127:162–170PubMed
Fallon JH, Seroogy KB (1984) Visual and auditory pathways contain cholecystokinin: evidence from immunofluorescence and retrograde tracing. Neurosci Lett 45:81–87PubMed
Fan RJ, Marin-Burgin A, French KA, Otto Friesen W (2005) A dye mixture (Neurobiotin and Alexa 488) reveals extensive dye-coupling among neurons in leeches; physiology confirms the connections. J Comp Physiol A 191:1157–1171
Feng G, Mellor RH, Bernstein M, Keller-Peck C, Nguyen QT, Wallace M, Nerbonne JM, Lichtman JW, Sanes JR (2000) Imaging neuronal subsets in transgenic mice expressing multiple spectral variants of GFP. Neuron 28:41–51PubMed
Fink RP, Heimer L (1967) Two methods for selective silver impregnation of degenerating axons and their synaptic endings in the central nervous system. Brain Res 4:369–374PubMed
Fremeau RT Jr, Voglmaier S, Seal RP, Edwards RH (2004) VGLUTs define subsets of excitatory neurons and suggest novel roles for glutamate. Trends Neurosci 27:98–103PubMed
Friedrich VL Jr, Mugnaini E (1981) Electron microscopy: preparation of neural tissue for electron microscopy. In: Heimer L, Robards MJ (eds) neuroanatomical tract-tracing methods. Plenum Press, New York, pp 345–376
Fritzsch B, Wilm C (1990) Dextran amines in neuronal tracing. Trends Neurosci 13:14PubMed
Fritzsch B, Muirhead KA, Feng F, Gray BD, Ohlsson-Wilhelm BM (2005) Diffusion and imaging properties of three new lipophilic tracers, NeuroVue Maroon, NeuroVue Red and NeuroVue Green and their use for double and triple labeling of neuronal profile. Brain Res Bull 66:249–258PubMedPubMedCentral
Fuschiotti P, Schoehn G, Fender P, Fabry CM, Hewat EA, Chroboczek J, Ruigrok RW, Conway JF (2006) Structure of the dodecahedral penton particle from human adenovirus type 3. J Mol Biol 356:510–520PubMed
Gabriele ML, Smoot JE, Jiang H, Stein BE, McHaffie (2006) Early establishment of adult-like nigrotectal architecture in the neonatal cat: a double-labeling study using carbocyanine dyes. Neuroscience 137:1309–1319PubMed
Gautier A, Geny D, Bourgoin S, Bernard JF, Hamon M (2017) Differential innervation of superficial versus deep laminae of the dorsal horn by bulbo-spinal serotonergic pathways in the rat. IBRO Rep 2:72–80PubMedPubMedCentral
Géral C, Angelova A, Lesieur S (2013) From molecular to nanotechnology strategies for delivery of neurotrophins: emphasis on brain-derived neurotrophic factor (BDNF). Pharmaceutics 5:127–167PubMedPubMedCentral
Gerfen CR, Sawchenko PE (1984) An anterograde neuroanatomical tracing method that shows the detailed morphology of neurons, their axons and terminals: immunohistochemical localization of an axonally transported plant lectin, Phaseolus vulgaris leucoagglutinin (PHA-L). Brain Res 290:219–238PubMedPubMedCentral
Gerfen CR, Sawchenko PE (1985) A method for anterograde axonal tracing of chemically specified circuits in the central nervous system: combined Phaseolus vulgaris-leucoagglutinin (PHA-L) tract tracing and immunohistochemistry. Brain Res 343:144–150PubMed
Ghanem A, Conzelmann KK (2016) G gene-deficient single-round rabies viruses for neuronal circuit analysis. Virus Res 216:41–54PubMed
Glover JC, Petursdottir G, Jansen JKS (1986) Fluorescent dextran amines used as axonal tracers in the nervous system of chicken embryo. J Neurosci Meth 18:243–254
Godement P, Vanselow J, Thanos S, Bonhoeffer F (1987) A study in developing visual systems with a new method of staining neurones and their processes in fixed tissue. Development 101:697–713PubMed
Gonzalo N, Moreno A, Erdozain MA, García P, Vázquez A, Castle M, Lanciego JL (2001) A sequential protocol combining dual neuroanatomical tract-tracing with the visualization of local circuit neurons within the striatum. J Neurosci Meth 111:59–66
Grafstein B (1967) Transport of protein by goldfish optic nerve fibers. Science 157(3785):196–198PubMed
Graham RC, Karnovsky MJ (1965) The histochemical demonstration of monoamine oxidase activity by coupled peroxidatic oxidation. J Histochem Cytochem 13:604–605PubMed
Groenewegen HJ, Wouterlood FG (1990) Light and electron microscopic tracing of neuronal connections with Phaseolus vulgaris-leucoagglutinin (PHAL), and combinations with other neuroanatomical techniques. In: Wouterlood FG, Van den Pol AN (eds) Analysis of neuronal microcircuits and synaptic interactions. Handbook of chemical neuroanatomy (Björklund A, Hökfelt T Eds), vol 8. Elsevier Biomedical Press, Amsterdam, pp 47–124
Grove EA, Domesick VB, Nauta WHJ (1986) Light microscopic evidence of striatal input to intrapallidal neurons of cholinergic cell group Ch4 in the rat: a study employing the anterograde tracer Phaseolus vulgaris-leucoagglutinin (PHA–L). Brain Res 367:379–384PubMed
Gumbs MCR, Vuuregge AH, Eggels L, Unmehopa UA, Lamuadni K, Mul JD, Fleur LA (2019) Afferent neuropeptide Y projections to the ventral tegmental area in normal-weight male Wistar rats. J Comp Neurol 527:2659–2674PubMedPubMedCentral
Hafner G, Witte M, Guy J, Subhashini N, Fenno LE, Ramakrishnan C, Kim YS, Deisseroth K, Callaway EM, Oberhuber M, Conzelmann KK, Staiger JF (2019) Mapping Brain-wide afferent inputs of parvalbumin-expressing GABAergic neurons in barrel cortex reveals local and long-range circuit motifs. Cell Rep 28:3450–3461PubMedPubMedCentral
Hancock MB (1986) Two-color immunoperoxidase staining: visualization of anatomic relationships between immunoreactive neural elements. Am J Anat 175:343–352PubMed
Harris JA, Oh SW, Zeng H (2012) Adeno-associated viral vectors for anterograde axonal tracing with fluorescent proteins in nontransgenic and Cre driver mice. Curr Protoc Neurosci (Suppl) 59:Unit 1.20
Harrison SC (2010) Looking inside adenovirus. Science 329:1026–1027PubMed
Heilingoetter C, Jensen MB (2016) Histological methods for ex vivo axon tracing: a systematic review. Neurol Res 38:561–569PubMedPubMedCentral
Herrera M, Hurtado-García JF, Collia F, Lanciego J (1994) Projections from the primary auditory cortex onto the dorsal cortex of the inferior colliculus in albino rats. Arch Ital Biol 132:147–164PubMed
Hill TJ, Field HJ, Roome APC (1972) Intra-axonal location of Herpes Simplex virus particles. J Gen Virol 15:253–255
Honig M (1993) DiI labelling. Neurosci Prot 93-050-16-01- 20
Honig MG, Hume RI (1986) Fluorescent carbocyanine dyes allow living neurons of identified origin to be studied in long-term cultures. J Cell Biol 103:171–187PubMed
Hoogland PV, Wouterlood FG, Welker E, Van der Loos H (1991) Ultrastructure of giant and small thalamic terminals of cortical origin: a study of the projections from the barrel cortex in mice using Phaseolus vulgaris leucoagglutinin (PHA-L). Exp Brain Res 87:159–172PubMed
Horikawa K, Armstrong WE (1988) A versatile means of intracellular labeling: injection of biocytin and its detection with avidin conjugates. J Neurosci Meth 25:1–11
Huisman AM, Ververs B, Cavada C, Kuypers HG (1984) Collateralization of brainstem pathways in the spinal ventral horn in rat as demonstrated with the retrograde fluorescent double-labeling technique. Brain Res 300:362–367PubMed
Husband SA, Shimizu T (1999) Efferent projections of the ectostriatum in the pigeon (Columba livia). J Comp Neurol 406:329–345PubMed
Jansen AS, Wessendorf MW, Loewy AD (1995) Transneuronal labeling of CNS neuropeptide and monoamine neurons after pseudorabies virus injections into the stellate ganglion. Brain Res 683:1–24PubMed
Jensen-Smith H, Gray B, Muirhead K, Ohlsson-Wilhelm B, Fritzsch B (2007) Long-distance three-color neuronal tracing in fixed tissue using NeuroView dyes. Immunol Invest 36:763–789PubMedPubMedCentral
Johnson RT (1964) The pathogenesis of herpes virus encephalitis. I. Virus pathways to the nervous system of suckling mice demonstrated by fluorescent antibody. J Exp Med 119:343PubMedPubMedCentral
Jongen-Rêlo AL, Amaral DG (2000) A double labeling technique using WGA-apoHRP-gold as a retrograde tracer and non-isotopic in situ hybridization histochemistry for the detection of mRNA. J Neurosci Meth 101:9–17
Jung SK, Morimoto R, Otsuka M, Omote H (2006) Transmembrane topology of vesicular glutamate transporter 2. Biol Pharm Bull 29:547–549PubMed
Junyent F, Kremer E (2015) CAV-2—why a canine virus is a neurobiologist’s best friend. Curr Opin Pharmacol 24:86–93PubMed
Kajiwara R, Wouterlood FG, Sah A, Boekel AJ, Baks-te Bulte LT, Witter MP (2008) Convergence of entorhinal and CA3 inputs onto pyramidal neurons and interneurons in hippocampal area CA1—an anatomical study in the rat. Hippocampus 18:266–280PubMed
Katz LC (1987) Local circuitry of identified projection neurons in cat visual cortex brain slices. J Neurosci 7:1223–1249PubMedPubMedCentral
Katz LC, Iarovici DM (1990) Green fluorescent latex microspheres: a new retrograde tracer. Neuroscience 34:511–520PubMed
Katz LC, Burkhalter A, Dreyer W (1984) Fluorescent latex microspheres as a retrograde neuronal marker for in vivo and in vitro studies of visual cortex. Nature 310:489–500
Keizer K, Kuypers HG (1989) Distribution of corticospinal neurons with collaterals to the lower brain stem reticular formation in monkey (Macaca fascicularis). Exp Brain Res 74:311–318PubMed
Keizer K, Kuypers HG, Huisman AM, Dann O (1983) Diamidino yellow dihydrochloride (DY 2HCl); a new fluorescent retrograde neuronal tracer, which migrates only very slowly out of the cell. Exp Brain Res 51:179–191PubMed
Kelly RM, Strick PL (2004) Macro-architecture of basal ganglia loops with the cerebral cortex: use of rabies virus to reveal multisynaptic circuits. Progr Brain Res 143:449–459
Kim EJ, Jacobs MW, Ito-Cole T, Callaway EM (2016) Improved monosynaptic neural circuit tracing using engineered rabies virus glycoproteins. Cell Rep 15:692–699PubMedPubMedCentral
King MA, Louis PM, Hunter BE, Walker DW (1989) Biocytin: a versatile anterograde neuroanatomical tract-tracing alternative. Brain Res 497:361–367PubMed
Kita H, Armstrong W (1991) A biotin-containing compound N-(2-aminoethyl)biotinamide for intracellular labeling and neuronal tracing studies: comparison with biocytin. J Neurosci Meth 37:141–150
Klausberger T, Somogyi P (2008) Neuronal diversity and temporal dynamics: the unity of hippocampal circuit operations. Science 321(5885):53–57PubMedPubMedCentral
Köbbert C, Apps R, Bechmann I, Lanciego JL, Mey J, Thanos S (2000) Current concepts in neuroanatomical tracing. Progr Neurobiol 62:327–352
Kononenko NL, Witter MP (2012) Presubiculum layer III conveys retrosplenial input to the medial entorhinal cortex. Hippocampus 22:881–895PubMed
Kristensson K (1970) Transport of fluorescent protein in peripheral nerves. Acta Neuropathol 16:293–300PubMed
Kristensson K, Olsson Y (1971a) Uptake and retrograde transport of peroxidase in hypoglossal neurons. Electron microscopical localization in the neuronal perikaryon. Acta Neuropathol 19:1–9PubMed
Kristensson K, Olsson Y (1971b) Retrograde axonal transport of protein. Brain Res 29:363–365PubMed
Kristensson K, Ghetti B, Wiśniewski HM (1974) Study on the propagation of herpes simplex virus (type 2) into the brain after intraocular injection. Brain Res 69:189–201PubMed
Kristensson K, Nennesmo I, Persson L, Lycke E (1982) Neuron to neuron transmission of Herpes Simplex virus. J Neurol Sci 54:149–156PubMed
Kuhlman SJ, Huang ZJ (2008) High-resolution labeling and functional manipulation of specific neuron types in mouse brain by Cre-activated viral gene expression. PLoS One 3:e2005PubMedPubMedCentral
Kulik A, Matesz K, Székely G (1994) Mesencephalic projections of the cochlear nucleus in the frog, Rana esculenta. Acta Biol Hung 45:323–335PubMed
Kuypers HG, Bentivoglio M, van der Kooy D, Castman-Berrevoets CE (1979) Retrograde transport of bisbenzimide and propidium iodide through axons to their parent cell bodies. Neurosci Lett 12:1–7PubMed
Kuypers HG, Bentivoglio M, Castman-Berreveoets CE, Bharos AT (1980) Double retrograde neuronal labeling through divergent axon collaterals, using two fluorescent tracers with the same excitation wavelength which label different features of the cell. Exp Brain Res 40:383–392PubMed
Lanciego JL, Wouterlood FG (1994) Dual anterograde axonal tracing with Phaseolus vulgaris-leucoagglutinin (PHA-L) and biotinylated dextran amine (BDA). Neurosci Prot 94:6–13
Lanciego JL, Wouterlood FG (2006) Multiple neuroanatomical tract-tracing: approaches for multiple tract tracing. In: Zaborszky L, Wouterlood FG, Lanciego JL (eds) Neuroanatomical tract-tracing 3: molecules, neurons, and systems. Springer, New York, pp 336–365
Lanciego JL, Wouterlood FG (2011) A half century of experimental neuroanatomical tracing. J Chem Neuroanat 42:157–183PubMed
Lanciego JL, Goede PH, Witter MP, Wouterlood FG (1997) Use of peroxidase substrate Vector® VIP for multiple staining in light microscopy. J Neurosci Meth 74:1–7
Lanciego JL, Wouterlood FG, Erro E, Giménez-Amaya JM (1998a) Multiple axonal tracing: simultaneous detection of three tracers in one and the same section. Histochem Cell Biol 110:509–515PubMed
Lanciego JL, Luquin MR, Guillén J, Giménez-Amaya JM (1998b) Multiple neuroanatomical tracing in primates. Brain Res Prot 2:323–332
Lanciego JL, Wouterlood FG, Erro E, Arribas J, Gonzalo N, Urra X, Cervantes S, Giménez-Amaya J (2000) Complex brain circuits studied via simultaneous and permanent detection of three neuroanatomical tracers in the same histological section. J Neurosci Meth 103:127–135
Lanciego JL, Gonzalo N, Castle M, Sánzhez-Escober C, Aymerich MS, Obeso JA (2004) Thalamic innervation of striatal and subthalamic neurons projecting to the rat entopeduncular nucleus. Eur J Neurosci 19:1267–1277PubMed
Lapper SR, Bolam JP (1991) The anterograde and retrograde transport of neurobiotin in the central nervous system of the rat: comparison with biocytin. J Neurosci Meth 39:163–174
LaVail JH, LaVail MM (1972) Retrograde axonal transport in the central nervous system. Science 176:1416–1417PubMed
Li D, Seeley PJ, Bliss TVP, Raisman G (1990) Intracellular injection of biocytin into fixed tissue and its detection with avidin-HRP. Neurosci Lett Suppl 38:581
Li S-J, Vaughan A, Sturgilkl JF, Kepecs A (2018) A viral receptor complementation strategy to overcome CAV-2 tropism for efficient retrograde targeting of neurons. Neuron 98:905–917PubMed
Liang FY, Moret V, Wiesendanger M, Rouiller EM (1991) Corticomotoneuronal connections in the rat: evidence from double-labeling of motoneurons and corticospinal axon arborizations. J Comp Neurol 311:356–366PubMed
Liguz-Lecznar M, Skangiel-Kramska J (2007) Vesicular glutamate transporters (VGLUTs): the three musketeers of glutamatergic system. Acta Neurobiol Exp (Wars) 67:207–218
Lindh B, Aldskogius H, Hökfelt T (1989) Simultaneous immunohistochemical demonstration of intra-axonally transported markers and neuropeptides in the peripheral nervous system of the guinea pig. Histochem 92:367–376
Liu WL, Behbehani MM, Shipley MT (1993) Intracellular filling in fixed brain slices using Miniruby, a fluorescent biocytin compound. Brain Res 608:78–86PubMed
Lo L, Anderson DJ (2011) A cre-dependent, anterograde transsynaptic viral tracer for mapping output pathways of genetically marked neurons. Neuron 72:938–950PubMedPubMedCentral
Loewy AD (1995) Pseudorabies virus: a transneuronal tracer for neuroanatomical studies. In: Keplitt M, Loewy AD (eds) Viral vectors: gene therapy and neuroscience applications. Academic Press, New York, pp 349–366
López IP, Salin P, Kachidian P, Barroso-Chinea P, Rico AJ, Gómez-Bautista V, Conte-Perales L, Coulon P, Kerkerian-Le Goff L, Lanciego JL (2010) The added value of rabies virus as a retrograde tracer when combined with dual anterograde tract-tracing. J Neurosci Meth 194:21–27
Luppi PH, Fort P, Jouvet M (1990) Iontophoretic application of unconjugated choleratoxin B subunit (CTB) combined with immunohistochemistry of neurochemical substances: a method for transmitter identification of retrogradely labeled neurons. Brain Res 534:209–224PubMed
Lyckman AW, Fan G, Rios M, Jaenisch R, Sur M (2005) Normal eye-specific patterning of retinal inputs to murine subcortical visual nuclei in the absence of brain-derived neurotrophic factor. Vis Neurosci 22:27–36PubMed
Ma DL, Qu J, Goh EL, Tang FR (2016) Reorganization of basolateral amygdala-subiculum circuitry in mouse epilepsy model. Front Neuroanat 9:167PubMedPubMedCentral
Madisen L, Zwingman TA, Sunkin SM, Oh SW, Zariwala HA, Gu H, Ng LL, Palmiter RD, Hawrylycz MJ, Jones AR, Lein ES, Zeng H (2010) A robust and high-throughput Cre reporting and characterization system for the whole mouse brain. Nat Neurosci 13:133–140PubMed
Maeda S, Fujihira M, Minato Y, Kuwahara-Otani S, Tanaka K, Hayakawa T, Yagi H (2017) Differential distribution of renal nerves in the sympathetic ganglia of the rat. Anat Rec (Hoboken) 300:2263–2272
Makarenko IG (2007) Prenatal carbocyanine dye tracing of septo-hypothalamic connections. Brain Res 1130:38–47PubMed
Martin X, Dolivo M (1983) Neuronal and transneuronal tracing in the trigeminal system of the rat using the herpes virus suis. Brain Res 273:253–276PubMed
Maskos U, Kissa K, St Cloment C, Brulet P (2002) Retrograde trans-synaptic transfer of green fluorescent protein allows the genetic mapping of neuronal circuits in transgenic mice. Proc Natl Acad Sci USA 99:10120–10125PubMedPubMedCentral
Mazarakis ND, Azzouz M, Rohll JB, Ellard FM, Wilkes FJ, Olsen AL, Carter EE, Barber RD, Baban DF, Kingsman SM, Kingsman AJ, O’Malley K, Mitrophanous KA (2001) Rabies virus glycoprotein pseudotyping of lentiviral vectors enables retrograde axonal transport and access to the nervous system after peripheral delivery. Hum Mol Genet 10:2109–2121PubMed
Mebatsion T, Gonzelmann KK (1996) Specific infection of CD4 + target cells by recombinant rabies virus pseudotypes carrying the HIV-1 envelope spike protein. Proc Natl Acad Sci USA 93:11366–11370PubMedPubMedCentral
Mendoza KC, McLane VD, Kim S, Griffin JD (2010) In vitro application of gold nanoprobes in live neurons for phenotypical classification, connectivity assessment, and electrophysiological recording. Brain Res 1325:19–27PubMed
Mesulam M-M (1982) Tracing neural connections with horseradish peroxidase. Handbook series: methods in the neurosciences. Wiley, Chichester
Mesulam MM, Rosene DL (1979) Sensitivity in HRP neurohistochemistry: a comparative and quantitative study of nine methods. J Histochem Cytochem 27:763–773PubMed
Molnar Z, Blackey D, Bysron I, Carney R (2006) Tract-tracing in developing systems and in postmortem human material using carbocyanine dyes. In: Zaborszky L, Lanciego JL, Wouterlood FG (eds) Neuroanatomical tract-tracing methods: molecules, neurons, and systems, 3rd edn. Springer, Berlin, pp 366–393
Morecraft RJ, Ugolini G, Lanciego JL, Wouterlood FG, Pandya DN (2009) Classic and contemporary neural tract tracing techniques. In: Johansen-Berg H, Behrens T (eds) Diffusion MRI: from quantitative measurement to in vivo neuroanatomy. Oxford University Press, Oxford, pp 273–308
Morecraft RJ, Binneboese A, Stilwell-Morecraft KS, Ge J (2017) Localization of orofacial representation in the corona radiata, internal capsule and cerebral peduncle in Macaca mulatta. J Comp Neurol 525:3429–3457PubMedPubMedCentral
Mufson EJ, Brady DR, Kordower JH (1990) Tracing neuronal connections in postmortem human hippocampal complex with the carbocyanine dye DiI. Neurobiol Aging 11:649–653PubMed
Naidoo J, Stanek LM, Ohno K, Trewman S, Samaranch L, Hadaczek P, O’Riordan C, Sullivan J, San Sebastian W, Bringas JR, Snieckus C, Mahmoodi A, Mahmoodi A, Forsayeth J, Bankiewicz KS, Shihabuddin LS (2018) Extensive transduction and enhanced spread of a modified AAV2 capsid in the non-human primate CNS. Mol Ther 26:2418–2430PubMedPubMedCentral
Nance DM, Burns J (1990) Fluorescent dextrans as sensitive anterograde neuroanatomical tracers: applications and pitfalls. Brain Res Bull 25:139–145PubMed
Nauta WJ, Gygax PA (1951) Silver impregnation of degenerating axon terminals in the central nervous system: (1) Technic. (2) Chemical notes. Stain Technol 26:5–11PubMed
Neely MD, Stanwood GD, Deutch AY (2009) Combination of diOlistic labeling with retrograde tract tracing and immunohistochemistry. J Neurosci Meth 184:332–336
Northcutt RG (2011) Olfactory projections in the white sturgeon, Acipenser transmontanus: an experimental study. J Comp Neurol. 519:1999–2022PubMed
Northcutt RG, Westhoff G (2011) Connections of the medial telencephalic wall in the spotted African lungfish. Brain Behav Evol Neurol 77:14–32
Osakada F, Mori T, Cetin AH, Mrashel JH, Virgen B, Callaway EM (2011) New rabies virus variants for monitoring and manipulating activity and gene expression in defined neural circuits. Neuron 71:617–631PubMedPubMedCentral
Otake K, Sasaki H, Ezure K, Manabe M (1988) Axonal projections from Bötzinger expiratory neurons to contralateral ventral and dorsal respiratory groups in the cat. Exp Brain Res 72:167–177PubMed
Oyibo HK, Znamenskiy P, Oviedo HV, Enquist LW, Zador AM (2014) Long-term Cre-mediated retrograde tagging of neurons using a novel recombinant pseudorabies virus. Front Neuroanat 8:86PubMedPubMedCentral
Peel AL, Zolotukhin S, Schrimsher GW, Muzyczka N, Reier PJ (1997) Efficient transduction of green fluorescent protein in spinal cord neurons using adeno-associated virus vectors containing cell type-specific promoters. Gene Ther 4:16–24PubMed
Pignataro D, Sucunza D, Rico AJ, Dopeso-Reyes IG, Roda E, Rodríguez-Pérez AI, Labandeira-García JL, Broccoli V, Kato S, Kobayashi K, Lanciego JL (2018) Gene therapy approaches in the non-human primate model of Parkinson’s disease. J Neural Transm 125:575–589PubMed
Pinault D (1996) A novel single-cell staining procedure performed in vivo under electrophysiological control: morpho-functional features of juxtacellularly labeled thalamic cells and other central neurons with biocytin or Neurobiotin. J Neurosci Meth 65:113–136
Pomeranz LE, Reynolds AE, Hengartner CJ (2005) Molecular biology of peudorabies vrus: impact on neurovirology and veterinary medicine. Microbiol Mol Biol Rev 69:462–500PubMedPubMedCentral
Porrero C, Rubio-Garrido P, Avendaño C, Clascá F (2010) Mapping of fluorescent protein-expressing neurons and axon pathways in adult and developing Thy1-eYFP-H transgenic mice. Brain Res 1345:59–72PubMed
Raab M, Boeckers TM, Neuhuber WL (2010) Proline-rich synapse-associated protein-1 and 2 (ProSAP1/Shank2 and ProSAP2/Shank3)-scaffolding proteins are also present in postsynaptic specializations of the peripheral nervous system. Neuroscience 171:421–433PubMed
Raux H, Iseni F, Lafay F, Blondel D (1997) Mapping of monoclonal antibody epitopes of the rabies virus P protein. J Gen Virol 78:119–124PubMed
Reardon TR, Murray AJ, Turi GF, Wirblich C, Croce KR, Schnell MJ, Jessell TM, Losonczy A (2016) Rabies virus CVS-N2c ΔG strain enhances retrograde synaptic transfer and neuronal viability. Neuron 89:711–724PubMedPubMedCentral
Reiner A, Honig MG (2006) Dextran amines: versatile tools for anterograde and retrograde studies of nervous system connectivity. In: Zaborszky L, Wouterlood FG, Lanciego JL (eds) Neuroanatomical tract-tracing 3: molecules, neurons, and systems. Springer, New York, pp 304–335
Reiner A, Veenman CL, Honig MG (1993) Anterograde tracing using biotinylated dextran amine. Neurosci Prot 93(section):050-14
Reiner A, Veenman CL, Medina L, Jiao Y, Del Mar N, Honig MG (2000) Pathway tracing using biotinylated dextran amines. J Neurosci Meth 103:23–37
Rhoades RW, Fish SE, Chiaia NL, Bennett-Clarke C, Mooney RD (1989) Organization of the projections from the trigeminal brainstem complex to the superior colliculus in the rat and hamster: anterograde tracing with Phaseolus vulgaris leucoagglutinin and intra-axonal injection. J Comp Neurol 289:641–656PubMed
Ribeiro EA, Necto AR, Pomeranz LE, Ekstrand MI, Koo JW, Nestker EJ (2019) Viral labeling of neurons synaptically connected to nucleus accumbens somatostatin interneurons. PlosOne 14(3):e0213476
Rice CD, Weber SA, Waggoner AL, Jessell ME, Yates BJ (2010) Mapping of neural pathways that influence diaphragm activity and project to the lumbar spinal cord in cats. Exp Brain Res 203:205–211PubMedPubMedCentral
Richmond FJ, Gladdy R, Creasy JL, Kitamura S, Smits E, Thomson DB (1994) Efficacy of seven retrograde tracers, compared in multiple-labelling studies of feline motoneurones. J Neurosci Meth 53:35–46
Rico AJ, Dopeso-Reyes IG, Martínez-Pinilla E, Sucunza D, Pignataro D, Roda E, Marín-Ramos D, Labandeira-García JL, George SR, Franco R, Lanciego JL (2017) Neurochemical evidence supporting dopamine D1-D2 receptor heteromers in the striatum on the long-tailed macaque: changes following dopaminergic manipulation. Brain Struct Funct 222:1767–1784PubMed
Rockland KS (1995) Morphology of individual axons projecting from area V2 to MT in the macaque. J Comp Neurol 355:15–26PubMed
Rosene DL, Roy NJ, Davis BJ (1986) A cryoprotection method that facilitates cutting frozen sections of whole monkey brains for histological and histochemical processing without freezing artifact. J Histochem Cytochem 34:1301–1315PubMed
Roy I, Ohulchanskyy TY, Pudavar HE, Bergey EJ, Oseroff AR, Morgan J, Dougherty TJ, Prasad PN (2003) Ceramic-based nanoparticles entrapping water-insoluble photosensitizing anticancer drugs: a novel drug-carrier system for photodynamic therapy. J Am Chem Soc 125:7860–7865PubMed
Ruigrok TJ, Apps R (2007) A light microscope-based double retrograde tracer strategy to chart central neuronal connections. Nat Protoc 2:1869–1878PubMed
Ruigrok TJH, Teune TM, van der Burg J, Sabel-Goedknegt H (1995) A retrograde double labeling technique for light microscopy. A combination of axonal transport of cholera toxin B-subunit and a gold-lectin conjugate. J Neurosci Meth 61:127–138
Ruigrok TJ, Hensbroek RA, Simpson JI (2011) Spontaneous activity signatures of morphologically identified interneurons in the vestibulocerebellum. J Neurosci 31:224–712
Russchen FT, Jonker AJ (1988) Efferent connections of the striatum and the nucleus accumbens in the lizard Gekko gecko. J Comp Neurol 276:61–80PubMed
Salin P, Castle M, Kachidian P, Barroso-Chinea P, López IP, Rico AJ, Kerkerian-Le Goff L, Coulon P, Lanciego JL (2008) High-resolution neuroanatomical tract-tracing for the analysis of striatal microcircuits. Brain Res 1221:49–58PubMed
Salin P, López IP, Kachidian P, Barroso-Chinea P, Rico AJ, Gómez-Bautista V, Coulon P, Kerkerian-Le Goff L, Lanciego JL (2009) Changes to interneuron-driven striatal microcircuits in a rat model of Parkinson’s disease. Neurobiol Dis 34:545–552PubMed
Sauer B (1998) Inducible gene targeting in mice using the cre/lox system. Methods 14:381–392PubMed
Schmued LC (2016) Development and application of novel histochemical tracers for localizing brain connectivity and pathology. Brain Res 1645:31–35PubMed
Schmued LC, Fallon JH (1986) Fluoro-Gold: a new fluorescent retrograde axonal tracer with numerous unique properties. Brain Res 377:147–154PubMed
Schmued LC, Heimer L (1990) Iontophoretic injection of fluoro-gold and other fluorescent tracers. J Histochem Cytochem 38:721–723PubMed
Schmued L, Kyriakidis K, Heimer L (1990) In vivo anterograde and retrograde axonal transport of the fluorescent rhodamine dextran-amine, Fluoro-Ruby, within the CNS. Brain Res 526:127–134PubMed
Schofield BR, Schofield RM, Sorensen Motts SD (2007) On the use of retrograde tracers for identification of axon collaterals with multiple fluorescent retrograde tracers. Neuroscience 146:773–783PubMed
Shafton AD, McAllen RM (2013) Location of cat brain stem neurons that drive sweating. Am J Physiol Regul Integr Comp Physiol 304:R804–R809PubMed
Sik, Tamamaki N, Freund TF (1993) Complete axon arborization of a single CA3 pyramidal cell in the rat hippocampus, and its relationship with postsynaptic parvalbumin-containing interneurons. Eur J Neurosci 5:1719–1728PubMed
Smith Y (1992) Anterograde tracing with PHA-L and biocytin at the electron microscopic level. In: Bolam JP (ed) Experimental neuroanatomy, a practical approach. Oxford University Press, Oxford, pp 61–79
Smith Y, Hazrati LN, Parent A (1990) Efferent projections of the subthalamic nucleus in the squirrel monkey as studied by the PHA-L anterograde tracing method. J Comp Neurol 294:306–323PubMed
Sodeik B (2000) Mechanisms of viral transport in the cytoplasm. Trends Microbiol 8:465–472PubMed
Söderberg O, Leuchowius KJ, Gullberg M, Jarvius M, Weibrecht I, Larsson LG, Landegren U (2008) Characterizing proteins and their interaction in cells and tissues using the in situ proximity ligation assay. Methods 45:227–232PubMed
Sohal VS, Zhang F, Yizhar O, Deisseroth K (2009) Parvalbumin neurons and gamma rhythms enhance cortical circuit performance. Nature 459:698–702sPubMedPubMedCentral
Staiger JF, Wouterlood FG (1990) Efferent projections from the lateral septal nucleus to the anterior hypothalamus in the rat: a study combining Phaseolus vulgaris-leucoagglutinin tracing with vasopressin immunocytochemistry. Cell Tiss Res 261:17–23
Strack AM, Loewy AD (1990) Pseudorabies virus: a highly specific transneuronal cell body marker in the sympathetic nervous system. J Neurosci 10:2139–2147PubMedPubMedCentral
Stretton AOW, Kravitz EA (1968) Neuronal geometry: determination with a technique of intracellular dye injection. Science 162:132–134PubMed
Sun S, Schaffer DV (2018) Engineered viral vectors for functional interrogation, deconvolution, and manipulation of neural circuits. Curr Opin Neurobiol 50:163–170PubMedPubMedCentral
Sun Y, Nguyen AQ, Nguyen JP, Le L, Saur D, Choi J, Callaway EM, Xu X (2014) Cell-type-specific circuit connectivity of hippocampal CA1 revealed through Cre-dependent rabies tracing. Cell Rep 7:269–280PubMedPubMedCentral
Swanson LW (1981) Tracing central pathways with the autoradiographic method. J Histochem Cytochem 29:117–124PubMed
Szabó E, Csáki Á, Boldogkői Z, Tóth Z, Köves K (2015) Identification of autonomic neuronal chains innervating gingiva and lip. Auton Neurosci 190:10–19PubMed
Tamamaki N, Yanagawa Y, Tomioka R, Miyazaki J, Obata K, Kaneko T (2003) Green fluorescent protein expression and colocalization with calretinin, parvalbumin, and somatostatin in the GAD67-GFP knock-in mouse. J Comp Neurol 467:60–79PubMed
Tanahira C, Higo S, Watanabe K, Tomioka R, Ebihara S, Kaneko T, Tamamaki N (2009) Parvalbumin neurons in the forebrain as revealed by parvalbumin-Cre transgenic mice. Neurosci Res 63:213–223PubMed
Taniguchi H, He M, Wu P, Kim S, Paik R, Sugino K, Kvitsiani D, Fu Y, Lu J, Lin Y, Miyoshi G, Shima Y, Fishell G, Nelson SB, Huang ZJ (2011) A resource of Cre driver lines for genetic targeting of GABAergic neurons in cerebral cortex. Neuron 71:995–1013PubMedPubMedCentral
Taverna S, van Dongen YC, Groenewegen HJ, Pennartz CM (2004) Direct physiological evidence for synaptic connectivity between medium-sized spiny neurons in rat nucleus accumbens in situ. J Neurophysiol 91:1111–1121PubMed
Teague Goodpasture EW (1923) Transmission of the virus of herpes febrilis along nerves in experimentally infected rabbits. J Med Res 44:39
Tervo DG, Hwang BY, Viswanathan S, Gai T, Lavzin M, Ritola KD, Lindo S, Michael S, Kuleshova E, Ojala D, Huang CC, Gerfen CR, Schiller J, Dudman JT, Hantman AW, Looger LL, Schaffer DV, Karpova AY (2016) A designer AAV variant permits efficient retrograde access to projection neurons. Neuron 92:372–382PubMedPubMedCentral
Thompson AM, Thompson GC (1987) Efferent projections from posteroventral cochlear nucleus to lateral superior olive in guinea pig. Brain Res 421:382–386PubMed
Toney GM, Daws LC (2006) Juxtacellular labeling and chemical phenotyping of extracellularly recorded neurons in vivo. Meth Mol Biol 337:127–137
Tordo J, O’Leary C, Antunes ASLM, Palomar N, Aldrin-Kirk P, Basche M, Bennet A, D’Souza Z, Gleitz H, Godwin A, Holley RJ, Parker H, Liao AY, Rouse P, Saam Youshani A, Dridi L, Martins C, Levade T, Stacey KB, Davis DM, Dyer A, Clément N, Björklund T, Ali RR, Agbandje-McKenna M, Rahim AA, Pshezhetsky A, Waddington SN, Linden RM, Bigger BW, Henckaerts E (2018) A novel adeno-associated virus capsid with enhanced neurotropism corrects a lysosomal transmembrane enzyme deficiency. Brain 141:2014–2031PubMedPubMedCentral
Trojanowski JQ (1983) Native and derivatized lectins for in vivo studies of neuronal connectivity and neuronal cell biology. J Neurosci Meth 9:185–204
Trojanowski JQ, Gonatas JO, Gonatas NK (1981) Conjugates of horseradish peroxidase (HRP) with cholera toxin and wheat germ agglutinin are superior to free HRP as orthogradely transported markers. Brain Res 223:381–385PubMed
Ugolini G (1995) Specificity of rabies virus as a transneuronal tracer of motor networks: transfer from hypoglossal motoneurons to connected second-order and higher order central nervous system cell groups. J Comp Neurol 356:457–480PubMed
Ugolini G (2010) Advances in viral transneuronal tracing. J Neurosci Meth 194:2–20
Ugolini G, Kuypers HG (1986) Collaterals of corticospinal and pyramidal fibers to the pontine gray demonstrated by a new application of the fluorescent fibre labeling technique. Brain Res 365:211–227PubMed
Ugolini G, Kuypers HGJM, Simmons A (1987) Retrograde transneuronal transfer of Herpes simplex virus type 1 (HSV1) from motoneurons. Brain Res 422:242–256PubMed
Ugolini G, Kuypers HG, Strick PL (1989) Transneuronal transfer of herpes virus from peripheral nerves to cortex and brainstem. Science 243(4887):89–91PubMed
Unal G, Paré JF, Smith Y, Paré D (2014) Cortical inputs innervate calbindin-immunoreactive interneurons of the rat basolateral amygdaloid complex. J Comp Neurol 522:1915–1928PubMedPubMedCentral
van den Pol AN, Ghosh PK (1998) Selective neuronal expression of green fluorescent protein with cytomegalovirus promoter reveals entire neuronal arbor in transgenic mice. J Neurosci 18:10640–10651PubMedPubMedCentral
Van der Kooy D, Sawchenko PE (1982) Characterization of serotonergic neurons using concurrent fluorescent retrograde axonal tracing and immunohistochemistry. J Histochem Cytochem 30:794–798PubMed
Van der Kooy D, Steinbusch HWM (1980) Simultaneous fluorescent retrograde axonal tracing and immunofluorescent characterization of neurons. J Neurosci Res 5:479–484PubMed
van der Want JJ, Klooster J, Cardozo BN, de Weerd H, Liem RS (1997) Tract-tracing in the nervous system of vertebrates using horseradish peroxidase and its conjugates: tracers, chromogens and stabilization for light and electron microscopy. Brain Res Brain Res Protoc 1:269–279PubMed
Veenman CL, Reiner A, Honig MG (1992) Biotinylated dextran amine as an anterograde tracer for single- and double-label studies. J Neurosci Methods 41:239–254PubMed
Vercelli A, Repici M, Garbossa D, Grimaldi A (2000) Recent techniques for tracing pathways in the central nervous system of developing and adult mammals. Brain Res Bull 51:11–28PubMed
von Engelhardt J, Eliava M, Meyer AH, Rozov A, Monyer H (2007) Functional characterization of intrinsic cholinergic interneurons in the cortex. J Neurosci 27:5633–5642
Wan XS, Trojanowski JQ, Gonatas JO, Liu CN (1982) Cytoarchitecture of the extranuclear and commissural dendrites of hypoglossal nucleus neurons as revealed by conjugates of horseradish peroxidase with cholera toxin. Exp Neurol 78:167–175PubMed
Wang J, Chi F-L, Xin Y, Regner MF (2013) The distribution of vestibular efferent neurons receiving innervation of secondary vestibular afferent nerves in rats. Laryngoscope 123:1266–1271PubMed
Wang Q, Henry AM, Harris JA, Oh SW, Joines KM, Nyhus J, Hirokawa KE, Dee N, Mortrud M, Parry S, Ouellette B, Caldejon S, Bernard A, Jones AR, Zeng H, Hohmann JG (2014) Systematic comparison of adeno-associated virus and biotinylated dextran amine reveals equivalent sensitivity between tracers and novel projection targets in the mouse brain. J Comp Neurol 522:1989–2012PubMed
Washbourne P, McAllister AK (2002) Techniques for gene transfer into neurons. Curr Opin Neurobiol 12:566–573PubMed
Weissman TA, Sanes JR, Lichtman JW, Livet J (2011) Generating and imaging multicolor brainbow mice. Cold Spring Harb Protoc 7:763–769
Wessendorf MW (1990) Characterization and use of multi-color fluorescence microscopic techniques. In: Björklund A, Hökfelt T, Wouterlood FG, van der Pol AN (eds) Handbook of chemical neuroanatomy, vol 8. Elsevier, Amsterdam, pp 1–45
Wickersham IR, Finke S, Conzelmann K-K, Callaway EM (2007a) Retrograde neuronal tracing with a deletion-mutant rabies virus. Nat Meth 4:47–49
Wickersham IR, Lyon DC, Barnard RJ, Mori T, Finke S, Conzelmann KK, Young JA, Callaway EM (2007b) Monosynaptic restriction of transsynaptic tracing from single, genetically targeted neurons. Neuron 53:639–647PubMedPubMedCentral
Witten IB, Steinberg EE, Lee SY, Davidson TJ, Zalocusky KA, Brodsky M, Yizhar O, Cho SL, Gong S, Ramakrishnan C, Stuber GD, Tye KM, Janak PH, Deisseroth K (2011) Recombinase-driver rat lines: tools, techniques, and optogenetic application to dopamine-mediated reinforcement. Neuron 72:721–733PubMedPubMedCentral
Wouterlood FG, Groenewegen HJ (1985) Neuroanatomical tracing by use of Phaseolus vulgaris-leucoagglutinin (PHA L): electron microscopy of PHA L filled Neuronal Somata, Dendrites, Axons and Axon Terminals. Brain Res 326:188–191PubMed
Wouterlood FG, Jorritsma-Byham B (1993) The anterograde neuroanatomical tracer biotinylated dextran amine: comparison with the tracer PHA-L in preparations for electron microscopy. J Neurosci Meth 48:75–87
Wouterlood FG, Bol JGJM, Steinbusch HWM (1987) Double-label immunocytochemistry: combination of anterograde neuroanatomical tracing with Phaseolus vulgaris-leucoagglutinin and enzyme immunocytochemistry of target neurons. J Histochem Cytochem 35:817–823PubMed
Wouterlood FG, Goede PH, Groenewegen HJ (1990) The in situ detectability of the neuroanatomical tracer Phaseolus vulgaris-leucoagglutinin. J Chem Neuroanat 3:11–18PubMed
Wouterlood FG, Böckers T, Witter MP (2003) Synaptic contacts between identified neurons visualized in the confocal laser scanning microscope. Neuroanatomical tracing combined with immunofluorescence detection of postsynaptic density proteins and target neuron-markers. J Neurosci Meth 128:129–142
Wouterlood FG, van Haeften T, Eijkhoudt M, Baks-te-Bulte L, Goede PH, Witter MP (2004) Input from the presubiculum to dendrites of layer-V neurons of the medial entorhinal cortex of the rat. Brain Res 1013:1–12PubMed
Wouterlood FG, Boekel AJ, Meijer GA, Beliën JAM (2007) Computer assisted estimation in the CNS of 3D multimarker overlap or touch at the level of individual nerve endings. A confocal laser scanning microscope application. J Neurosci Res 85:1215–1228PubMed
Wouterlood FG, van Oort S, Bloemhard L, Flierman NA, Spijkerman J, Wright CI, Beliën JAM, Groenewegen HJ (2018a) Neurochemical fingerprinting of amygdalostriatal and intra-amygdaloid projections: a tracing-immunofluorescence study in the rat. J Chem Neuroanat 94:154–172PubMed
Wouterlood FG, Engel A, Daal M, Houwen G, Meinderts A, Jordà Siquier T, Beliën JAM, van Dongen YC, Scheel-Krüger J, Thierry AM, Groenewegen HJ, Deniau JM (2018b) Mesencephalic dopamine neurons interfacing the shell of nucleus accumbens and the dorsolateral striatum in the rat. J Neurosci Res 96:1518–1542PubMedPubMedCentral
Xue HG, Yamamoto N, Yoshimoto M, Yang CY, Ito H (2001) Fiber connections of the nucleus isthmi in the carp (Cyprinus carpio) and tilapia (Oreochromis niloticus). Brain Behav Evol 58:185–204PubMed
Zaborszky L, Wouterlood FG, Lanciego JL (2006) Neuroanatomical tract-tracing 3: molecules-neurons-systems. Springer, New York
Zhang J, Zhang AJ, Wu SM (2006) Immunocytochemical analysis of GABA-positive and calretinin-positive horizontal cells in the tiger salamander retina. J Comp Neurol 499:432–441PubMed
Zhao S, Maxwell S, Jimenez-Beristain A, Vives J, Kuehner E, Zhao J, O’Brien C, de Felipe C, Semina E, Li M (2004) Generation of embryonic stem cells and transgenic mice expressing green fluorescence protein in midbrain dopaminergic neurons. Eur J Neurosci 19:1133–1140PubMed
Zhou N, Hao Z, Zhao X, Maharjan S, Zhu S, Song Y, Yang B, Lu L (2015) A novel fluorescent retrograde neural tracer: cholera toxin B conjugated carbon dots. Nanoscale 7:1563–1564
Zhuang X, Masson J, Gingrich JA, Rayport S, Hen R (2005) Targeted gene expression in dopamine and serotonin neurons of the mouse brain. J Neurosci Meth 43:27–32
Zingg B, Dong H-W, Tao HW, Zhang LI (2018) Input–output organization of the mouse claustrum. J Comp Neurol 526:2428–2443PubMedPubMedCentral
Metadata
Title
Neuroanatomical tract-tracing techniques that did go viral
Authors
Jose L. Lanciego
Floris G. Wouterlood
Publication date
01-05-2020
Publisher
Springer Berlin Heidelberg
Published in
Brain Structure and Function / Issue 4/2020
Print ISSN: 1863-2653
Electronic ISSN: 1863-2661
DOI
https://doi.org/10.1007/s00429-020-02041-6

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Brain structure and internalizing and externalizing behavior in typically developing children and adolescents

Methods Paper

CBPtools: a Python package for regional connectivity-based parcellation

Original Article

White matter correlates of hemi-face dominance in happy and sad expression