Skip to main content
Top
Published in:

Open Access 16-05-2024 | Original Article

A strong direct link from the layer 3/4 border to layer 6 of cat primary visual cortex

Authors: Kevan A. C. Martin, Franziska D. Sägesser

Published in: Brain Structure and Function | Issue 6/2024

Login to get access

Abstract

The cat primary visual cortex (V1) is a cortical area for which we have one of the most detailed estimates of the connection ‘weights’ (expressed as number of synapses) between different neural populations in different layers (Binzegger et al in J Neurosci 24:8441–8453, 2004). Nevertheless, the majority of excitatory input sources to layer 6, the deepest layer in a local translaminar excitatory feedforward loop, was not accounted for by the known neuron types used to generate the quantitative Binzegger diagram. We aimed to fill this gap by using a retrograde tracer that would label neural cell bodies in and outside V1 that directly connect to layer 6 of V1. We found that more than 80% of labeled neurons projecting to layer 6 were within V1 itself. Our data indicate that a substantial fraction of the missing input is provided by a previously unidentified population of layer 3/4 border neurons, laterally distributed and connecting more strongly to layer 6 than the typical superficial layer pyramidal neurons considered by Binzegger et al. (Binzegger et al in J Neurosci 24:8441–8453, 2004). This layer 3/4 to layer 6 connection may be a parallel route to the layer 3 – layer 5 – layer 6 feedforward pathway, be associated with the fast-conducting, movement-related Y pathway and provide convergent input from distant (5–10 degrees) regions of the visual field.
Appendix
Available only for authorised users
Literature
go back to reference Anderson JC, Martin KAC (2016) Chap. 6 - interareal connections of the Macaque cortex: how Neocortex talks to itself. In: Rockland KS (ed) Axons and Brain Architecture. Academic, San Diego, pp 117–134CrossRef Anderson JC, Martin KAC (2016) Chap. 6 - interareal connections of the Macaque cortex: how Neocortex talks to itself. In: Rockland KS (ed) Axons and Brain Architecture. Academic, San Diego, pp 117–134CrossRef
go back to reference Braitenberg V, Schüz A (1998) Peters’ rule and White’s exceptions. In: Braitenberg V, Schüz A (eds) Cortex: statistics and geometry of neuronal connectivity. Springer Berlin Heidelberg, Berlin, Heidelberg, pp 99–101CrossRef Braitenberg V, Schüz A (1998) Peters’ rule and White’s exceptions. In: Braitenberg V, Schüz A (eds) Cortex: statistics and geometry of neuronal connectivity. Springer Berlin Heidelberg, Berlin, Heidelberg, pp 99–101CrossRef
go back to reference Brodmann K (1905) Beitraege zur histologischen Lokalisation der Grosshirnrinde. III. Mitteilung: die Rindenfelder der niederen Affen (40 Textabbildungen und 7 Tafeln Mit 31 Figuren). J Psychol Neurol 177–226 Brodmann K (1905) Beitraege zur histologischen Lokalisation der Grosshirnrinde. III. Mitteilung: die Rindenfelder der niederen Affen (40 Textabbildungen und 7 Tafeln Mit 31 Figuren). J Psychol Neurol 177–226
go back to reference Callaway EM, Katz LC (1993) Photostimulation using caged glutamate reveals functional circuitry in living brain slices. Proc Natl Acad Sci U S A 90:7661–7665CrossRefPubMedPubMedCentral Callaway EM, Katz LC (1993) Photostimulation using caged glutamate reveals functional circuitry in living brain slices. Proc Natl Acad Sci U S A 90:7661–7665CrossRefPubMedPubMedCentral
go back to reference Gilbert CD, Wiesel TN (1983b) Functional Organization of the visual cortex. In: Changeux J-P, Glowinski J, Imbert M, Bloom FE (eds) Progress in Brain Research. Elsevier, pp 209–218 Gilbert CD, Wiesel TN (1983b) Functional Organization of the visual cortex. In: Changeux J-P, Glowinski J, Imbert M, Bloom FE (eds) Progress in Brain Research. Elsevier, pp 209–218
go back to reference Hassler R (1966) Comparative anatomy of the Central Visual Systems in Day- and night-active Primates. In: Hassler R, Stephan H (eds) Evolution of the Forebrain: Phylogenesis and Ontogenesis of the Forebrain. Springer US, Boston, MA, pp 419–434CrossRef Hassler R (1966) Comparative anatomy of the Central Visual Systems in Day- and night-active Primates. In: Hassler R, Stephan H (eds) Evolution of the Forebrain: Phylogenesis and Ontogenesis of the Forebrain. Springer US, Boston, MA, pp 419–434CrossRef
go back to reference Squatrito S, Galletti C, Battaglini PP, Sanseverino ER (1981) Bilateral cortical projections from cat visual areas 17 and 18. An autoradiographic study. Arch Ital Biol 119:1–20PubMed Squatrito S, Galletti C, Battaglini PP, Sanseverino ER (1981) Bilateral cortical projections from cat visual areas 17 and 18. An autoradiographic study. Arch Ital Biol 119:1–20PubMed
go back to reference Whitteridge D (1973) Projection of Optic pathways to the visual cortex. In: Jung R (ed) Visual Centers in the brain. Springer, Berlin Heidelberg, pp 247–268CrossRef Whitteridge D (1973) Projection of Optic pathways to the visual cortex. In: Jung R (ed) Visual Centers in the brain. Springer, Berlin Heidelberg, pp 247–268CrossRef
go back to reference Wilson ME (1968) Cortico-cortical connexions of the cat visual areas. J Anat 102:375–386 Wilson ME (1968) Cortico-cortical connexions of the cat visual areas. J Anat 102:375–386
Metadata
Title
A strong direct link from the layer 3/4 border to layer 6 of cat primary visual cortex
Authors
Kevan A. C. Martin
Franziska D. Sägesser
Publication date
16-05-2024
Publisher
Springer Berlin Heidelberg
Published in
Brain Structure and Function / Issue 6/2024
Print ISSN: 1863-2653
Electronic ISSN: 1863-2661
DOI
https://doi.org/10.1007/s00429-024-02806-3

Other articles of this Issue 6/2024

Brain Structure and Function 6/2024 Go to the issue

Advances in Alzheimer's

Alzheimer's Disease Independent Medical Education

Alzheimer's research and care is changing rapidly. Keep up with the latest developments from key international conferences, together with expert insights on how to integrate these advances into practice.

This content is intended for healthcare professionals outside of the UK.

Supported by:
  • Lilly
Developed by: Springer Healthcare IME
Learn more