Anatomical arrangement of hypercapnia-activated cells in the superficial ventral medulla of rats

doi:10.1152/japplphysiol.00620.2000

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Anatomical arrangement of hypercapnia-activated cells in the superficial ventral medulla of rats

Yasumasa Okada¹^,², Zibin Chen², Wuhan Jiang³, Shun-Ichi Kuwana⁴, and Frederic L. Eldridge²

¹ Department of Medicine, Keio University, Tsukigase Rehabilitation Center, Shizuoka-ken 410-3293; ⁴ Department of Physiology, School of Medicine, Teikyo University, Tokyo 173-8605, Japan; ² Department of Cell and Molecular Physiology, and ³ Lineberger Cancer Center, University of North Carolina, Chapel Hill, North Carolina 27599

The anatomical structure of central respiratory chemoreceptors in the superficial ventral medulla of rats was studied by usinghypercapnia-induced c-fos labeling to identify cells directlystimulated by extracellular pH or PCO₂. The distribution of c-fos-positivecells was found to be predominantly perivascular to surface vessels.In the superficial ventral medullary midline, parapyramidal, andventrolateral regions where c-fos-positive cells were concentrated,we found a common, characteristic, anatomical architecture. Themedullary surface showed an indentation covered by a surface vessel,and the marginal glial layer was thickened. We classified c-fos-positivecells into two types. One (type I cell) was small, was locatedinside the marginal glial layer and close to the medullary surface,and surrounded fine vessels. The other (type II cell) was largeand located dorsal to the marginal glial layer. c-fos Expressionunder synaptic blockade suggested that type I cells are intrinsicallychemosensitive. The chemosensitivity of surface cells (possibletype I cells) surrounding vessels was confirmed electrophysiologicallyin slice preparations. We suggest that this characteristic anatomicalstructure may be the centralchemoreceptor.

respiratory control; chemoreceptor; central chemosensitivity; carbon dioxide; synaptic blocker; c-fos

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