1. In the accompanying paper (Duchen & Biscoe, 1992) we have described graded changes in autofluorescence derived from mitochondrial NAD(P)H in type I cells of the carotid body in response to changes of PO2 over a physiologically significant range. These observations suggest that mitochondrial function in these cells is unusually sensitive to oxygen and could play a role in oxygen sensing.
View Article and Find Full Text PDF1. In this, and the accompanying paper (Duchen & Biscoe, 1992), we test the hypothesis that the oxygen sensitivity of mitochondrial electron transport forms a basis for transduction in the carotid body, the primary peripheral arterial oxygen sensor. We here describe for isolated type I cells the changes in autofluorescence of mitochondrial NAD(P)H that accompany changes in PO2.
View Article and Find Full Text PDFJ Physiol
September 1990
1. The carotid body chemoreceptors are stimulated in situ by hypoxia. We have studied type I cells freshly dissociated from the carotid body of the rabbit.
View Article and Find Full Text PDFUnderstanding transduction mechanisms is central to much of sensory physiology. The carotid chemoreceptors monitor the PO2 of arterial blood en route to the brain and are powerfully excited when the arterial PO2 falls to less than 60 mmHg. The type I cell is generally believed to be the transducer.
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