Hierarchical Development of the Primate Visual Cortex, as Revealed by Neurofilament Immunoreactivity: Early Maturation of the Middle Temporal Area (MT)

doi:10.1093/cercor/bhi119

Cerebral Cortex Advance Access originally published online on June 8, 2005
Cerebral Cortex 2006 16(3):405-414; doi:10.1093/cercor/bhi119

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Hierarchical Development of the Primate Visual Cortex, as Revealed by Neurofilament Immunoreactivity: Early Maturation of the Middle Temporal Area (MT)

James A. Bourne and Marcello G.P. Rosa

Department of Physiology and Centre for Brain and Behaviour, Monash University, Melbourne, VIC 3800, Australia

Address correspondence to Dr James A. Bourne, Department of Physiology, Monash University, Melbourne VIC 3800, Australia. Email: james.bourne{at}med.monash.edu.au.

It has been suggested that the development of the cerebral cortexreflects its hierarchical organization, with the primary sensoryareas being the first to reach structural and functional maturity,and higher-order association areas being the last. In the presentstudy, we labelled the cortex of New World marmoset monkeysof late fetal and early postnatal ages with an antibody to non-phosphorylatedneurofilament, a marker of structural maturation of a subsetof pyramidal cells. Supporting the concept of hierarchical maturation,we found that at birth labelled cells were found in the primaryvisual, auditory and somatosensory areas, but not in most othercortical fields. The exception was visual area MT, which revealedan infragranular pattern of labelling comparable to the oneobserved in the primary areas, as well as some supragranularstaining. In MT, an adult-like pattern of labelled cells, includingboth supragranular and infragranular layer neurons, emergedwithin the first postnatal month. In comparison, the developmentof other extrastriate areas was delayed, with the first signsof neurofilament staining not present until the third week.The present results support the concept of MT as another primaryvisual area, an idea previously advanced on the basis of functionaland anatomical evidence.

Key Words: cortical maturation • extrastriate cortex • callithrix • primary sensory field • SMI=32 • V5

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