Two classes of cortical GABA neurons defined by differential calcium binding protein immunoreactivities
- 1 July 1989
- journal article
- research article
- Published by Springer Science and Business Media LLC in Experimental Brain Research
- Vol. 76 (2), 467-472
- https://doi.org/10.1007/bf00247904
Abstract
Calcium ions play a key role in many aspects of neuronal behavior and certain calcium binding proteins that may influence this behavior are differentially distributed in the central nervous system. In this study it is shown that immunoreactivity for calbindin-28 and for parvalbumin is localized in separate populations of inhibitory GABA interneurons in all areas of the neocortex of Old World monkeys. Virtually all GABA neurosn show immunoreactivity for one or other calcium binding protein but, except for a few cells in layer IV, GABA cells do not show immunoreactivity for both proteins. Among the two cell populations, parvalbumin immunoreactivity characterizes basket neurons while calbindin immunoreactivity characterizes double bouquet neurons. These findings suggest that the two GABA cell types differ in their regulation of calcium homeostasis and may yield clues to their different roles in intracortical circuitry.This publication has 34 references indexed in Scilit:
- Visualization of chandelier cell axons by parvalbumin immunoreactivity in monkey cerebral cortex.Proceedings of the National Academy of Sciences of the United States of America, 1989
- Postnatal development of parvalbumin-, calbindin- and adult GABA-immunoreactivity in two visual nuclei of zebra finchesBrain Research, 1988
- Calbindin immunoreactivity alternates with cytochrome c-oxidase-rich zones in some layers of the primate visual cortexNature, 1986
- Monoclonal antibodies demonstrating GABA-like immunoreactivityHistochemistry and Cell Biology, 1986
- Comparative electrophysiology of pyramidal and sparsely spiny stellate neurons of the neocortexJournal of Neurophysiology, 1985
- Anatomy and physiology of a color system in the primate visual cortexJournal of Neuroscience, 1984
- Physiological implications of the presence, distribution, and regulation of calmodulin in eukaryotic cells.Physiological Reviews, 1982
- Immunohistochemical mapping of vitamin D-dependent calcium-binding protein in brainNature, 1981
- Evolutionary diversification of structure and function in the family of intracellular calcium-binding proteinsJournal of Molecular Evolution, 1979
- Varieties and distribution of non‐pyramidal cells in the somatic sensory cortex of the squirrel monkeyJournal of Comparative Neurology, 1975