Here we attempted to test a novel hypothesis that hypoxia may induce Ca 2+ release through reactive oxygen species (ROS)-mediated dissociation of FK506-binding protein 12.6 (FKBP12.6) from ryanodine receptors (RyRs) on the sarcoplasmic reticulum (SR) in pulmonary artery smooth muscle cells (PASMCs). The results reveal that hypoxic exposure significantly decreased the amount of FKBP12.6 on the SR of PAs and increased FKBP12.6 in the cytosol. The colocalization of FKBP12.6 with RyRs was decreased in intact PASMCs. Pharmacological and genetic inhibition of intracellular ROS generation prevented hypoxia from decreasing FKBP12.6 on the SR and increasing FKBP12.6 in the cytosol. Exogenous ROS (H 2 O 2 ) reduced FKBP12.6 on the SR and augmented FKBP12.6 in the cytosol. Oxidized FKBP12.6 was absent on the SR from PAs pretreated with and without hypoxia, but it was present with a higher amount in the cytosol from PAs pretreated with than without hypoxia. Hypoxia and H 2 O 2 diminished the association of FKBP12.6 from type 2 RyRs (RyR2). The activity of RyRs was increased in PAs pretreated with hypoxia or H 2 O 2 . FKBP12.6 removal enhanced, whereas RyR2 gene deletion blocked the hypoxic increase in [Ca 2+
Canonical transient receptor potential (TRPC)-encoded nonselective cation channels (NSCCs) are crucial for many cellular responses in a variety of cells; however, their molecular expression and functional roles in airway smooth muscle cells (ASMCs) remain obscure. The objective of this study was to determine whether TRPC1 and TRPC3 molecules could be important molecular constituents of native NSCCs controlling the resting membrane potential (Vm) and [Ca 21 ] i in freshly isolated normal and ovalbumin (OVA)-sensitized/-challenged mouse ASMCs. Western blotting, RT-PCR, single-channel recording, whole-cell current-clamp recording, and a fluorescence imaging system were used to determine TRPC expression, NSCC activity, resting Vm, and resting [Ca 21 ] i . Specific individual TRPC antibodies and siRNAs were applied to test their functional roles. TRPC1 and TRPC3 proteins and mRNAs were expressed in freshly isolated ASM tissues. TRPC3 antibodies blocked the activity of NSCCs and hyperpolarized the resting Vm in ASMCs, whereas TRPC1 antibodies had no effect. TRPC3, but not TRPC1 gene silencing, largely diminished NSCC activity, hyperpolarized the resting Vm, lowered the resting [Ca 21 ] i , and inhibited methacholine-induced increase in [Ca 21 ] i . In OVA-sensitized/-challenged ASMCs, NSCC activity was greatly augmented, resting Vm was depolarized, and TRPC3 protein expression was increased. TRPC1 and TRPC3 antibodies blocked the increased activity of NSCCs and membrane depolarization in OVA-sensitized/-challenged cells. TRPC3 is an important molecular component of native NSCCs contributing to the resting Vm and [Ca 21 ] i in normal ASMCs, as well as membrane depolarization and hyperresponsiveness in OVA-sensitized/ -challenged cells, whereas TRPC1-encoded NSCCs are only activated in OVA-sensitized/-challenged airway myocytes.
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