Abstract
Misfolded α-synuclein accumulates in histological inclusions constituting “Lewy pathology” found in idiopathic Parkinson disease, Parkinson disease dementia and dementia with Lewy body. The mechanism inducing α-synuclein misfolding is still unknown. The misfolded molecules form oligomers that organize into fibrils. α-Synuclein fibrils, in vitro, are capable of initiating an auto-replicating process, transforming normal molecules into misfolded molecules that aggregate. Fibrils can cross the neuronal membrane and recruit α-synuclein molecules in connected neurons. Such properties of seeding and propagation, shared with prion proteins, belong to “tissular propagons”. Lewy bodies isolate harmful species from the cytoplasm and have been thought to be protective. In PRKN gene mutations, however, the absence of Lewy bodies is not associated with a more aggressive course. In idiopathic Parkinson disease, the proportion of neurons with Lewy bodies in the substantia nigra remains stable despite the progression of neuronal loss. This stable proportion suggests that Lewy bodies are eliminated at the rate at which neurons are lost because Lewy bodies cause, or invariably accompany, neuronal loss. Experimentally, cellular death selectively occurs in inclusion-bearing neurons. This set of data indicates that α-synuclein misfolding is the essential mechanism causing the lesions of Parkinson disease and dementia with Lewy body. Lewy pathology is a direct and visible evidence of α-synuclein misfolding and, as such, is an accurate marker for assessing the presence of α-synuclein misfolding even if the inclusions themselves may not be as directly causative as the molecules they accumulate.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abounit S, Bousset L, Loria F, Zhu S, de Chaumont F, Pieri L, Olivo-Marin JC, Melki R, Zurzolo C (2016) Tunneling nanotubes spread fibrillar alpha-synuclein by intercellular trafficking of lysosomes. EMBO J 35:2120–2138. https://doi.org/10.15252/embj.201593411
Adamowicz DH, Roy S, Salmon DP, Galasko DR, Hansen LA, Masliah E, Gage FH (2017) Hippocampal α-synuclein in dementia with Lewy bodies contributes to memory impairment and is consistent with spread of pathology. J Neurosci 37:1675–1684. https://doi.org/10.1523/JNEUROSCI.3047-16.2016
Alafuzoff I, Ince PG, Arzberger T, Al-Sarraj S, Bell J, Bodi I, Bogdanovic N, Bugiani O, Ferrer I, Gelpi E, Gentleman S, Giaccone G, Ironside JW, Kavantzas N, King A, Korkolopoulou P, Kovacs GG, Meyronet D, Monoranu C, Parchi P, Parkkinen L, Patsouris E, Roggendorf W, Rozemuller A, Stadelmann-Nessler C, Streichenberger N, Thal DR, Kretzschmar H (2009) Staging/typing of Lewy body related alpha-synuclein pathology: a study of the BrainNet Europe Consortium. Acta Neuropathol 117:635–652
Anglade P, Vyas S, Hirsch EC, Agid Y (1997) Apoptosis in dopaminergic neurons of the human substantia nigra during normal aging. Histol Histopathol 12:603–610
Bengoa-Vergniory N, Roberts RF, Wade-Martins R, Alegre-Abarrategui J (2017) Alpha-synuclein oligomers: a new hope. Acta Neuropathol 134:819–838. https://doi.org/10.1007/s00401-017-1755-1
Benskey MJ, Perez RG, Manfredsson FP (2016) The contribution of alpha synuclein to neuronal survival and function—implications for Parkinson’s disease. J Neurochem 137:331–359
Bentea E, Verbruggen L, Massie A (2017) The proteasome inhibition model of Parkinson’s disease. J Parkinsons Dis 7:31–63. https://doi.org/10.3233/JPD-160921
Bousset L, Pieri L, Ruiz-Arlandis G, Gath J, Jensen PH, Habenstein B, Madiona K, Olieric V, Böckmann A, Meier BH, Melki R (2013) Structural and functional characterization of two alpha-synuclein strains. Nat Commun 4:2575. https://doi.org/10.1038/ncomms3575
Braak E, Braak H (1999) Silver staining method for demonstrating Lewy bodies in Parkinson’s disease and argyrophilic oligodendrocytes in multiple system atrophy. J Neurosci Methods 87:111–115
Braak H, Del Tredici K (2017) Neuropathological staging of brain pathology in sporadic Parkinson’s disease: separating the wheat from the chaff. J Parkinsons Dis 7(s1):S73–S87. https://doi.org/10.3233/JPD-179001
Braak H, Sandmann-Keil D, Gai W, Braak E (1999) Extensive axonal Lewy neurites in Parkinson’s disease: a novel pathological feature revealed by alpha-synuclein immunocytochemistry. Neurosci Lett 265:67–69
Braak H, Del Tredici K, Rüb U, de Vos RA, Jansen Steur EN, Braak E (2003) Staging of brain pathology related to sporadic Parkinson’s disease. Neurobiol Aging 24:197–211
Breydo L, Wu JW, Uversky VN (2012) Αlpha-synuclein misfolding and Parkinson’s disease. Biochim Biophys Acta 1822:261–285
Burré J (2015) The synaptic function of α-synuclein. J Parkinsons Dis 5:699–713. https://doi.org/10.3233/JPD-150642
Calne D, Mizuno Y (2004) The neuromythology of Parkinson’s disease. Parkinsonism Relat Disord 10:319–322
Colom-Cadena M, Pegueroles J, Herrmann AG, Henstridge CM, Muñoz L, Querol-Vilaseca M, San Martín-Paniello C, Luque-Cabecerans J, Clarimon J, Belbin O, Nùňez-Llaves R, Blesa R, Smith C, McKenzie CA, Frosch MP, Roe A, Fortea J, Andilla J, Loza-Alvarez P, Gelpi E, Hyman BT, Spires-Jones TL, Lleo A (2017) Synaptic phosphorylated α-synuclein in dementia with Lewy bodies. Brain 140:3204–3214. https://doi.org/10.1093/brain/awx275
Dehay B, Martinez-Vicente M, Caldwell GA, Caldwell KA, Cookson MR, Klein C, Vila M, Bezard E (2013) Lysosomal impairment in Parkinson’s disease. Mov Disord 28:725–732
Del Tredici K, Braak H (2012) Lewy pathology and neurodegeneration in premotor Parkinson’s disease. Mov Disord 27:597–607
Del Tredici K, Braak H (2013) Dysfunction of the locus coeruleus-norepinephrine system and related circuitry in Parkinson’s disease-related dementia. J Neurol Neurosurg Psychiatry 84:774–783. https://doi.org/10.1136/jnnp-2011-301817
Desplats P, Lee HJ, Bae EJ, Patrick C, Rockenstein E, Crews L, Spencer B, Masliah E, Lee SJ (2009) Inclusion formation and neuronal cell death through neuron-to-neuron transmission of a-synuclein. Proc Natl Acad Sci U S A 106:13010–13015
Dickson DW, Ruan D, Crystal H, Mark MH, Davies P, Kress Y, Yen SH (1991) Hippocampal degeneration differentiates diffuse Lewy body disease (DLBD) from Alzheimer’s disease: light and electron microscopic immunocytochemistry of CA2-3 neurites specific to DLBD. Neurology 41:1402–1409
Dickson DW, Fujishiro H, DelleDonne A, Menke J, Ahmed Z, Klos KJ, Josephs KA, Frigerio R, Burnett M, Parisi JE, Ahlskog JE (2008) Evidence that incidental Lewy body disease is pre-symptomatic Parkinson’s disease. Acta Neuropathol 115:437–444
Doherty K, Silveira-Moriyama L, Parkkinen L, Healy DG, Farrell M, Mencacci NE, Ahmed Z, Brett FM, Hardy J, Quinn N, Counihan TJ, Lynch T, Fox ZV, Revesz T, Lees AJ, Holton JL (2013) Parkin disease: a clinicopathologic entity? JAMA Neurol 70:571–579
Eisele YS, Duyckaerts C (2016) Propagation of Aβ pathology: hypotheses, discoveries, and yet unresolved questions from experimental and human brain studies. Acta Neuropathol 131:5–25
Fares MB, Maco B, Oueslati A, Rockenstein E, Ninkina N, Buchman VL, Masliah E, Lashuel HA (2016) Induction of de novo α-synuclein fibrillization in a neuronal model for Parkinson’s disease. Proc Natl Acad Sci U S A 113:E912–E921
Fearnley JM, Lees AJ (1991) Ageing and Parkinson’s disease: substantia nigra regional selectivity. Brain 114:2283–2301
Flavin WP, Bousset L, Green ZC, Chu Y, Skarpathiotis S, Chaney MJ, Kordower JH, Melki R, Campbell EM (2017) Endocytic vesicle rupture is a conserved mechanism of cellular invasion by amyloid proteins. Acta Neuropathol 134:629–653. https://doi.org/10.1007/s00401-017-1722-x
Freundt EC, Maynard N, Clancy EK, Roy S, Bousset L, Sourigues Y, Covert M, Melki R, Kirkegaard K, Brahic M (2012) Neuron-to-neuron transmission of α-synuclein fibrils through axonal transport. Ann Neurol 72:517–524. https://doi.org/10.1002/ana.23747
Frigerio R, Fujishiro H, Ahn TB, Josephs KA, Maraganore DM, DelleDonne A, Parisi JE, Klos KJ, Boeve BF, Dickson DW, Ahlskog JE (2011) Incidental Lewy body disease: do some case represent a preclinical stage of dementia with Lewy bodies? Neurobiol Aging 32:857–863
Fujiwara H, Hasegawa M, Dohmae N, Kawashima A, Masliah E, Goldberg MS, Shen J, Takio K, Iwatsubo T (2002) alpha-Synuclein is phosphorylated in synucleinopathy lesions. Nat Cell Biol 4:160–164
Gai WP, Blumbergs PC, Geffen LB, Blessing WW (1992) Age-related loss of dorsal vagal neurons in Parkinson’s disease. Neurology 42:2106–2111
Goker-Alpan O, Schiffmann R, LaMarca ME, Nussbaum RL, McInerney-Leo A, Sidransky E (2004) Parkinsonism among Gaucher disease carriers. J Med Genet 41:937–940
Greffard S, Verny M, Bonnet AM, Beinis JY, Gallinari C, Meaume S, Piette F, Hauw JJ, Duyckaerts C (2006) Motor score of the unified Parkinson disease rating scale as a good predictor of Lewy body-associated neuronal loss in the substantia nigra. Arch Neurol 63:584–588
Greffard S, Verny M, Bonnet AM, Seilhean D, Hauw JJ, Duyckaerts C (2008) A stable proportion of Lewy body bearing neurons in the substantia nigra suggests a model in which the Lewy body causes neuronal death. Neurobiol Aging 31:99–103
Gόmez-Tortosa E, Irizarry MC, Gόmez-Isla T, Hyman BT (2000) Clinical and neuropathological correlates of dementia with Lewy bodies. Ann N Y Acad Sci 920:9–15
Halliday GM, Holton JL, Revesz T, Dickson D (2011) Neuropathology underlying clinical variability in patients with synucleinopathies. Acta Neuropathol 122:187–204. https://doi.org/10.1007/s00401-011-0852-9
Harding AJ, Stimson E, Henderson JM, Halliday GM (2002) Clinical correlates of selective pathology in the amygdala of patients with Parkinson’s disease. Brain 125:2431–2445
Huang C, Cheng H, Hao S, Zhou H, Zhang X, Gao J, Sun QH, Hu H, Wang CC (2006) Heat shock protein 70 inhibits alpha-synuclein fibril formation via interactions with diverse intermediates. J Mol Biol 364:323–336
Hurtig HI, Trojanowski JQ, Galvin J, Ewbank D, Schmidt ML, Lee VM, Clark CM, Glosser G, Stern MB, Gollomp SM, Arnold SE (2000) Alpha-synuclein cortical Lewy bodies correlate with dementia in Parkinson’s disease. Neurology 54:1916–1921
Iacono D, Geraci-Erck M, Rabin ML, Adler CH, Serrano G, Beach TG, Kurlan R (2015) Parkinson disease and incidental Lewy body disease: just a question of time? Neurology 85:1670–1679
Irizarry MC, Growdon W, Gόmez-Isla T, Newell K, George JM, Clayton DF, Hyman BT (1998) Nigral and cortical Lewy bodies and dystrophic nigral neurites in Parkinson's disease and cortical Lewy body disease contain alpha-synuclein immunoreactivity. J Neuropathol Exp Neurol 57:334–337
Irwin DJ, White MT, Toledo JB, Xie SX, Robinson JL, Van Deerlin V, Lee VM, Leverenz JB, Montine TJ, Duda JE, Hurtig HI, Trojanowski JQ (2012) Neuropathologic substrates of Parkinson’s disease dementia. Ann Neurol 72:587–598
Irwin DJ, Grossman M, Weintraub D, Hurtig HI, Duda JE, Xie SX, Lee EB, Van Deerlin VM, Lopez OL, Kofler JK, Nelson PT, Jicha GA, Woltjer R, Quinn JF, Kaye J, Leverenz JB, Tsuang D, Longfellow K, Yearout D, Kukull W, Keene CD, Montine TJ, Zabetian CP, Trojanowski JQ (2017) Neuropathological and genetic correlates of survival and dementia onset in synucleinopathies: a retrospective analysis. Lancet Neurol 16:55–65. https://doi.org/10.1016/S1474-4422(16)30291-5
Jellinger KA (2015) Neuropathobiology of non-motor symptoms in Parkinson disease. J Neural Transm 122:1429–1440. https://doi.org/10.1007/s00702-015-1405-5
Johnston JA, Ward CL, Kopito RR (1998) Aggresomes: a cellular response to misfolded proteins. J Cell Sci 143:1883–1898
Kaganovich D, Kopito R, Frydman J (2008) Misfolded proteins partition between two distinct quality control departments. Nature 454:1088–1095
Kanazawa T, Uchihara T, Takahashi A, Nakamura A, Orimo S, Mizusawa H (2008) Three-layered structure shared between Lewy bodies and Lewy neurites-three dimensional reconstruction of triple-labeled sections. Brain Pathol 18:415–422
Kanazawa T, Adachi E, Orimo S, Nakamura A, Mizusawa H, Uchihara T (2012) Pale neurites, premature α-synuclein aggregates with centripetal extension from axon collaterals. Brain Pathol 22:67–78
Klucken J, Poehler AM, Ebrahimi-Fakhari D, Schneider J, Nuber S, Rockenstein E, Schlötzer-Schrehardt U, Hyman BT, McLean PJ, Masliah E, Winkler J (2012) Alpha-synuclein aggregation involves a bafilomycin A 1-sensitive autophagy pathway. Autophagy 8:754–766
Kosaka K (1978) Lewy bodies in cerebral cortex, report of three cases. Acta Neuropathol 42:127–134
Kuusisto E, Salminen A, Alafuzoff I (2001) Ubiquitin-binding protein p62 is present in neuronal and glial inclusions in human tauopathies and synucleinopathies. Neuroreport 12:2085–2090
Kuusisto E, Parkkinen L, Alafuzoff I (2003) Morphogenesis of Lewy bodies: dissimilar incorporation of alpha-synuclein, ubiquitin and p62. J Neuropathol Exp Neurol 62:1241–1253
Lees AJ, Selikhova M, Andrade LA, Duyckaerts C (2008) The black stuff and Konstantin Nikolaevich Tretiakoff. Mov Disord 23:777–783
Lewy FH (1923) Die Lehre vom Tonus und der Bewegung zugleich systematische Untersuchungen zur Klinik, Physiologie, Pathologie und Pathogenese der Paralysis Agitans. Julius Springer, Berlin
Li K, Ito H, Tanaka K, Hirano A (1997) Immunocytochemical co-localization of the proteasome in ubiquitinated structures in neurodegenerative diseases and the elderly. J Neuropathol Exp Neurol 56:125–131
Lowe J, Blanchard A, Morrell K, Lennox G, Reynolds L, Billett M, Landon M, Mayer RJ (1988) Ubiquitin is a common factor in intermediate filament inclusion bodies of diverse type in man, including those of Parkinson’s disease, Pick’s disease, and Alzheimer’s disease, as well as Rosenthal fibres in cerebellar astrocytomas, cytoplasmic bodies in muscle and mallory bodies in alcoholic liver disease. J Pathol 155:9–15
Luk KC, Song C, O’Brien P, Stieber A, Branch JR, Brunden KR, Trojanowski JQ, Lee VM (2009) Exogenous alpha-synuclein fibrils seed the formation of Lewy body-like intracellular inclusions in cultured cells. Proc Natl Acad Sci U S A 106:20051–20056. https://doi.org/10.1073/pnas.0908005106
Luk KC, Kehm V, Carroll J, Zhang B, O'Brien P, Trojanowski JQ, Lee VM (2012) Pathological α-synuclein transmission initiates Parkinson-like neurodegeneration in non-transgenic mice. Science 338:949–953
Markesbery WR, Jicha GA, Liu H, Schmitt FA (2009) Lewy body pathology in normal elderly subjects. J Neuropathol Exp Neurol 68:816–822
Maroteaux L, Campanelli J, Scheller R (1988) Synuclein: a neuron-specific protein localized to the nucleus and presynaptic terminal. J Neurosci 8:2804–2815
Masuda-Suzukake M, Nonaka T, Hosokawa M, Oikawa T, Arai T, Akiyama H, Mann DM, Hasegawa M (2013) Prion-like spreading of pathological alpha-synuclein in brain. Brain 136:1128–1138. https://doi.org/10.1093/brain/awt037
McKeith IG, Boeve BF, Dickson DW, Halliday G, Taylor JP, Weintraub D, Aarsland D, Galvin J, Attems J, Ballard CG, Bayston A, Beach TG, Blanc F, Bohnen N, Bonanni L, Bras J, Brundin P, Burn D, Chen-Plotkin A, Duda JE, El-Agnaf O, Feldman H, Ferman TJ, Ffytche D, Fujishiro H, Galasko D, Goldman JG, Gomperts SN, Graff-Radford NR, Honig LS, Iranzo A, Kantarci K, Kaufer D, Kukull W, Lee VMY, Leverenz JB, Lewis S, Lippa C, Lunde A, Masellis M, Masliah E, McLean P, Mollenhauer B, Montine TJ, Moreno E, Mori E, Murray M, O'Brien JT, Orimo S, Postuma RB, Ramaswamy S, Ross OA, Salmon DP, Singleton A, Taylor A, Thomas A, Tiraboschi P, Toledo JB, Trojanowski JQ, Tsuang D, Walker Z, Yamada M, Kosaka K (2017) Diagnosis and management of dementia with Lewy bodies: fourth consensus report of the DLB consortium. Neurology 89:88–100. https://doi.org/10.1212/WNL.0000000000004058
McNaught KS, Jenner P (2001) Proteasomal function is impaired in substantia nigra in Parkinson’s disease. Neurosci Lett 297:191–194
Melki R (2017) How the shapes of seeds can influence pathology. Neurobiol Dis 109(Pt B):201–208. https://doi.org/10.1016/j.nbd.2017.03.011
Mori F, Tanji K, Yoshimoto M, Takahashi H, Wakabayashi K (2002) Demonstration of alpha-synuclein immunoreactivity in neuronal and glial cytoplasm in normal human brain tissue using proteinase K and formic acid pretreatment. Exp Neurol 176:98–104
Okazaki H, Lipkin LE, Aronson SM (1961) Diffuse intracytoplasmic ganglionic inclusions (Lewy type) associated with progressive dementia and quadriparesis in flexion. J Neuropathol Exp Neurol 20:237–244
Opazo F, Krenz A, Heermann S, Schulz JB, Falkenburger BH (2008) Accumulation and clearance of alpha-synuclein aggregates demonstrated by time-lapse imaging. J Neurochem 106:529–540
Osterberg VR, Spinelli KJ, Weston LJ, Luk KC, Woltjer RL, Unni VK (2015) Progressive aggregation of alpha-synuclein and selective degeneration of Lewy inclusion-bearing neurons in a mouse model of parkinsonism. Cell Rep 10:1252–1260
Paine SM, Anderson G, Bedford K, Lawler K, Mayer RJ, Lowe J, Bedford L (2013) Pale body-like inclusion formation and neurodegeneration following depletion of 26S proteasomes in mouse brain neurones are independent of α-synuclein. PLoS One 8:e54711. https://doi.org/10.1371/journal.pone.0054711
Parkkinen L, Kauppinen T, Pirttilä T, Autere JM, Alafuzoff I (2005) Alpha-synuclein pathology does not predict extrapyramidal symptoms or dementia. Ann Neurol 57:82–91
Parkkinen L, O'Sullivan SS, Collins C, Petrie A, Holton JL, Revesz T, Lees AJ (2011) Disentangling the relationship between Lewy bodies and nigral neuronal loss in Parkinson’s disease. J Parkinons Dis 1:277–286
Peelaerts W, Bousset L, Van der Perren A, Moskalyuk A, Pulizzi R, Giugliano M, Van den Haute C, Melki R, Baekelandt V (2015) Alpha-synuclein strains cause distinct synucleinopathies after local and systemic administration. Nature 522:340–344
Pieri L, Madiona K, Bousset L, Melki R (2012) Fibrillar alpha-synuclein and huntingtin exon 1 assemblies are toxic to the cells. Biophys J 102:2894–2905
Pieri L, Madiona K, Melki R (2016) Structural and functional properties of prefibrillar alpha-synuclein oligomers. Sci Rep 6:24526. https://doi.org/10.1038/srep24526
Polymeropoulos MH, Lavedan C, Leroy E, Ide SE, Dehejia A, Dutra A, Pike B, Root H, Rubenstein J, Boyer R, Stenroos ES, Chandrasekharappa S, Athanassiadou A, Papapetropoulos T, Johnson WG, Lazzarini AM, Duvoisin RC, Di Iorio G, Golbe LI, Nussbaum RL (1997) Mutation in the alpha-synuclein gene identified in families with Parkinson’s disease. Science 276:2045–2047
Poulopoulos M, Levy O, Alcalay RN (2012) The neuropathology of genetic Parkinson’s disease. Mov Disord 27:831–842
Power JHT, Barnes OL, Chegini F (2017) Lewy bodies and the mechanisms of neuronal cell death in Parkinson’s disease and dementia with Lewy bodies. Brain Pathol 27:3–12
Raiss CC, Braun TS, Konings IBM, Grabmayr H, Hassink GC, Sidhu A, le Feber J, Bausch AR, Jansen C, Subramaniam V, Claessens MM (2016) Functionally different α-synuclein inclusions yield insight into Parkinson’s disease pathology. Sci Rep 6:23116. https://doi.org/10.1038/srep23116
Respondek G, Kurz C, Arzberger T, Compta Y, Englund E, Ferguson LW, Gelpi E, Giese A, Irwin DJ, Meissner WG, Nilsson C, Pantelyat A, Rajput A, van Swieten JC, Troakes C, Josephs KA, Lang AE, Mollenhauer B, Müller U, Whitwell JL, Antonini A, Bhatia KP, Bordelon Y, Corvol JC, Colosimo C, Dodel R, Grossman M, Kassubek J, Krismer F, Levin J, Lorenzl S, Morris H, Nestor P, Oertel WH, Rabinovici GD, Rowe JB, van Eimeren T, Wenning GK, Boxer A, Golbe LI, Litvan I, Stamelou M, Höglinger GU, Movement Disorder Society-Endorsed PSP Study Group (2017) Which ante mortem clinical features predict progressive supranuclear palsy pathology? Mov Disord 32:995–1005. https://doi.org/10.1002/mds.27034
Rodriguez JA, Ivanova MI, Sawaya MR, Cascio D, Reyes FE, Shi D, Sangwan S, Guenther EL, Johnson LM, Zhang M, Jiang L, Arbing MA, Nannenga BL, Hattne J, Whitelegge J, Brewster AS, Messerschmidt M, Boutet S, Sauter NK, Gonen T, Eisenberg DS (2015) Structure of the toxic core of α-synuclein from invisible crystals. Nature 525:486–490. https://doi.org/10.1038/nature15368
Ross CA, Poirier MA (2005) Opinion: what is the role of protein aggregation in neurodegeneration? Nat Rev Mol Cell Biol 6:891–898
Roy S, Wolman L (1969) Ultrastructural observations in parkinsonism. J Pathol 99:39–44
Ruffmann C, Calboli FCF, Bravi I, Gveric D, Curry LK, de Smith A, Pavlou S, Buxton JL, Blakemore AI, Takousis P, Molloy S, Piccini P, Dexter DT, Roncaroli F, Gentleman SM, Middleton LT (2016) Cortical Lewy bodies and Aβ burden are associated with prevalence and timing of dementia in Lewy body diseases. Neuropathol Appl Neurobiol 42:436–450
Saito Y, Kawashima A, Ruberu NN, Fujiwara H, Koyama S, Sawabe M, Arai T, Nagura H, Yamanouchi H, Hasegawa M, Iwatsubo T, Murayama S (2003) Accumulation of phosphorylated alpha-synuclein in aging human brain. J Neuropathol Exp Neurol 62:644–654
Sánchez-Guerra M, Cerezal L, Leno C, Díez C, Figols J, Berciano J (2001) Primary brain lymphoma presenting as Parkinson’s disease. Neuroradiology 43:36–40
Sano K, Atarashi R, Satoh K, Ishibashi D, Nakagaki T, Iwasaki Y, Yoshida M, Murayama S, Mishima K, Nishida N (2017) Prion-like seeding of misfolded α-synuclein in the brains of dementia with Lewy body patients in RT-QUIC. Mol Neurobiol 55:3916–3930. https://doi.org/10.1007/s12035-017-0624-1
Shimozawa A, Ono M, Takahara D, Tarutani A, Imura S, Masuda-Suzukake M, Higuchi M, Yanai K, Hisanaga SI, Hasegawa M (2017) Propagation of pathological alpha-synuclein in marmoset brain. Acta Neuropathol Commun 5:12. https://doi.org/10.1186/s40478-017-0413-0
Spillantini MG, Crowther RA, Jakes R, Hasegawa M, Goedert M (1998) alpha-Synuclein in filamentous inclusions of Lewy bodies from Parkinson's disease and dementia with Lewy bodies. Proc Natl Acad Sci U S A 95:6469–6473
Spinelli KJ, Taylor JK, Osterberg VR, Churchill MJ, Pollock E, Moore C, Meshul CK, Unni VK (2014) Presynaptic alpha-synuclein aggregation in a mouse model of Parkinson’s disease. J Neurosci 34:2037–2050. https://doi.org/10.1523/JNEUROSCI.2581-13.2014
Tanaka M, Kim YM, Lee G, Junn E, Iwatsubo T, Mouradian MM (2004) Aggresomes formed by alpha-synuclein and synphilin-1 are cytoprotective. J Biol Chem 279:4625–4631
Tyedmers J, Mogk A, Bukau B (2010) Cellular strategies for controlling protein aggregation. Nat Rev Mol Cell Biol 11:777–788
Uchihara T, Giasson (2016) Propagation of alpha-synuclein pathology: hypotheses, discoveries, and yet unresolved questions from experimental and human brain studies. Acta Neuropathol 131:49–73
Uryu K, Richter-Landsberg C, Welch W, Sun E, Goldbaum O, Norris EH, Pham CT, Yazawa I, Hillburger K, Micsenyi M, Giasson BI, Bonini NM, Lee VM, Trojanowski JQ (2006) Convergence of heat shock protein 90 with ubiquitin in filamentous alpha-synuclein inclusions of alpha-synucleinopathies. Am J Pathol 168:947–961
Uversky VN (2017) Looking at the recent advances in understanding α-synuclein and its aggregation through the proteoform prism. F1000Res 6:525. https://doi.org/10.12688/f1000research.10536.1
Villar-Piqué A, Lopes da Fonseca T, Sant'Anna R, Szegö EM, Fonseca-Ornelas L, Pinho R, Carija A, Gerhardt E, Masaracchia C, Abad Gonzalez E, Rossetti G, Carloni P, Fernandez CO, Foguel D, Milosevic I, Zweckstetter M, Ventura S, Outeiro TF (2016) Environmental and genetic factors support the dissociation between α-synuclein aggregation and toxicity. Proc Natl Acad Sci U S A 113:E6506–E6515. https://doi.org/10.1073/pnas.1606791113
Volpicelli-Daley LA, Luk KC, Patel TP, Tanik SA, Riddle DM, Stieber A, Meaney DF, Trojanowki JQ, Lee VM (2011) Exogenous α-synuclein fibrils induce Lewy body pathology leading to synaptic dysfunction and neuron death. Neuron 72:57–71
Volpicelli-Daley LA, Gamble KL, Schultheiss CE, Riddle DM, West AB, Lee VM (2014) Formation of alpha-synuclein Lewy neurite-like aggregates in axons impedes the transport of distinct endosomes. Mol Biol Cell 25:4010–4023
Wakabayashi K, Tanji K, Odagiri S, Miki Y, Mori F, Takahashi H (2013) The Lewy body in Parkinson's disease and related neurodegenerative disorders. Mol Neurobiol 47:495–508
Wang C, Zhao C, Li D, Tian Z, Lai Y, Diao J, Liu C (2016) Versatile structures of α-synuclein. Front Mol Neurosci 9:48. https://doi.org/10.3389/fnmol.2016.00048
Webb JL, Ravikumar B, Atkins J, Skepper JN, Rubinsztein DC (2003) alpha-Synuclein is degraded by both autophagy and the proteasome. J Biol Chem 278:25009–25013
Youle RJ, Narendra DP (2011) Mechanisms of mitophagy. Nat Rev Mol Cell Biol 12:9–14. https://doi.org/10.1038/nrm3028
Zarow C, Lyness SA, Mortimer JA, Chui HC (2003) Neuronal loss is greater in the locus coeruleus than nucleus basalis and substantia nigra in Alzheimer and Parkinson diseases. Arch Neurol 60:337–341
Zweig RM, Jankel WR, Hedreen JC, Mayeux R, Price DL (1989) The pedunculopontine nucleus in Parkinson’s disease. Ann Neurol 26:41–46
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no conflict of interest.
Rights and permissions
About this article
Cite this article
Chartier, S., Duyckaerts, C. Is Lewy pathology in the human nervous system chiefly an indicator of neuronal protection or of toxicity?. Cell Tissue Res 373, 149–160 (2018). https://doi.org/10.1007/s00441-018-2854-6
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s00441-018-2854-6