Protein Information

ID 2798
Name SDHD
Synonyms CBT 1; CBT1; CII 4; CII4; CybS; PGL; PGL 1; PGL1…

Compound Information

ID 1341
Name rotenone
CAS

Reference

PubMed Abstract RScore(About this table)
16686429 Lopez-Barneo J, Ortega-Saenz P, Piruat JI, Garcia-Fernandez M: Oxygen-sensing by ion channels and mitochondrial function in carotid body glomus cells. Novartis Found Symp. 2006;272:54-64; discussion 64-72
Carotid body glomus cells release transmitters in response to hypoxia due to the increase of excitability resulting from inhibition of O2-regulated K+ channels. The mechanisms involved in the detection of changes of O2 tension are unknown. Inhibition of the mitochondrial electron transport chain (ETC) at proximal and distal complexes induces external Ca (2+)-dependent catecholamine secretion. At saturating concentration of the ETC inhibitors, the cellular response to hypoxia is maintained. However, rotenone, a complex I blocker, selectively occludes the responsiveness to hypoxia of glomus cells in a dose-dependent manner. The effect of rotenone is not mimicked by complex I inhibitors acting on different sites. We have also generated a knock-out mouse lacking SDHD, the small membrane-anchoring protein of the succinate dehydrogenase (complex II) of the mitochondrial electron transport chain. Homozygous Sdhd (-/-) animals die at early embryonic stages. Heterozygous Sdhd (+/-) mice show a general, non-compensated, deficiency of complex II activity, and abnormal enhancement of resting carotid body secretion rate due to decrease of K+ conductance and persistent Ca2+ influx into glomus cells. However, responsiveness to hypoxia of carotid bodies from Sdhd (+/-) mice remains intact. These data strongly suggest that sensitivity to hypoxia of carotid body glomus cells is not linked in a simple way to mitochondrial electron flow. Nevertheless, it is possible that a rotenone-sensitive molecule critically participates in acute carotid body oxygen sensing.
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