Carotid body (CB) glomus cells depolarize in response to hypoxia, causing a [Ca 2+ ] i increase, at least in part, through activation of voltage-dependent channels. Recently, Turner et al. (2013) showed that mouse glomus cells with knockout of TASK1/3 -/- channels have near-normal [Ca 2+ ] i response to hypoxia. Thus, we postulated that TRP channels may provide an alternate calcium influx pathway which may be blocked by the TRP channel antagonist, 2-APB (2-aminoethoxydiphenylborane). We confirmed that 2-APB inhibited the afferent nerve response to hypoxia, as previously reported (Lahiri S, Patel G, Baby S, Roy A (2009) 2-APB mediated effects on hypoxic calcium influx in rat carotid body glomus cells. FASEB 2009, Abstract, LB157; Kumar P, Pearson S, Gu Y (2006) A role for TRP channels in carotid body chemotransduction? FASEB J 20:A12–29). To examine the mechanism for this inhibition, we examined dissociated rat CB glomus cells for [Ca 2+ ] i responses to hypoxia, anoxia (with sodium dithionite), 20 mM K +, NaSH, NaCN, and FCCP in absence/presence of 2-APB (100 μM). Also the effect of 2-APB on hypoxia and/or anoxia were investigated on NADH and mitochondria (MT) membrane potential. Our findings are as follows: (1) 2-APB significantly blocked the [Ca 2+ ] i increase in response to hypoxia and anoxia, but not the responses to 20 mM K +. (2) The [Ca 2+ ] i responses NaSH, NaCN, and FCCP were significantly blocked by 2-APB. (3) Hypoxia-induced increases in NADH/NAD + and MT membrane depolarization were not effected by 2-APB. Thus TRP channels may provide an important pathway for calcium influx in glomus cells in response to hypoxia.
CITATION STYLE
Kim, I., Fite, L., Donnelly, D. F., Kim, J. H., & Carroll, J. L. (2015). Possible role of TRP channels in rat glomus cells. Advances in Experimental Medicine and Biology, 860, 227–232. https://doi.org/10.1007/978-3-319-18440-1_25
Mendeley helps you to discover research relevant for your work.