Evidence for ape and human specializations in geniculostriate projections from VGLUT2 immunohistochemistry

Bibliographic Collection: 
CARTA-Inspired Publication
Publication Type: Journal Article
Authors: Bryant, K. L.; Suwyn, C.; Reding, K. M.; Smiley, J. F.; Hackett, T. A.; Preuss, T. M.
Year of Publication: 2012
Journal: Brain Behav Evol
Volume: 80
Edition: 2012/08/15
Number: 3
Pagination: 210-21
Publication Language: eng
ISBN Number: 1421-9743 (Electronic)00
Keywords: &, Afferent Pathways/*chemistry/physiology, Aged, Animals, Biological Evolution, Biological Markers, Female, Geniculate Bodies/*anatomy, histology/chemistry, Humans, Immunoenzyme Techniques, Male, Middle Aged, Nerve Tissue Proteins/*analysis, Phylogeny

Vesicular glutamate transporters (VGLUTs) reuptake glutamate into synaptic vesicles at excitatory synapses. VGLUT2 is localized in the cortical terminals of neuronal somas located in the main sensory nuclei of the thalamus. Thus, immunolabeling of cortex with antibodies to VGLUT2 can reveal geniculostriate terminal distributions in species in which connectivity cannot be studied with tract-tracing techniques, permitting broader comparative studies of cortical specializations. Here, we used VGLUT2 immunohistochemistry to compare the organization of geniculostriate afferents in primary visual cortex in hominid primates (humans, chimpanzees, and an orangutan), Old World monkeys (rhesus macaques and vervets), and New World monkeys (squirrel monkeys). The New and Old World monkeys had a broad, dense band of terminal-like labeling in cortical layer 4C, a narrow band of labeling in layer 4A, and additional labeling in layers 2/3 and 6, consistent with results from conventional tract-tracing studies in these species. By contrast, although the hominid primates had a prominent layer 4C band, labeling of layer 4A was sparse or absent. Labeling was also present in layers 2/3 and 6, although labeling of layer 6 was weaker in hominids and possibly more individually variable than in Old and New World monkeys. These findings are consistent with previous observations from cytochrome oxidase histochemistry and a very small number of connectivity studies, suggesting that the projections from the parvocellular layers of the lateral geniculate nucleus to layer 4A were strongly reduced or eliminated in humans and apes following their evolutionary divergence from the other anthropoid primates.


Brain Behav Evol 2012;80:210–221 Doi: 10.1159/000341135 

Custom 2:


Alternate Journal: Brain, behavior and evolution