Dc. Marcus et al., PROTEIN-KINASE-C MEDIATES P-2U PURINERGIC RECEPTOR INHIBITION OF K+ CHANNEL IN APICAL MEMBRANE OF STRIAL MARGINAL CELLS, Hearing research, 115(1-2), 1998, pp. 82-92
Strial marginal cells (SMC) electrogemically secrete K+ via slowly act
ivating K+ (I-sK) channels, consisting of I-sK regulatory and KvLQT1 c
hannel subunits, and the associated short circuit current (I-sc) is in
hibited by agonists of the apical P-2U receptor [Liu et al., Audit. Ne
urosci. 2 (1995) 331-340]. Measurements of relative K+ flux (J(K)) wit
h a self-referencing K+-selective probe demonstrated a decrease in J(K
) after apical perfusion of 100 mu M ATP. On-cell macro patch recordin
gs from the apical membrane of gerbil SMC showed a decrease of the I-s
K channel current (I-IsK) by 88 +/- 8% during pipette perfusion of 100
mu M ATP. The magnitude of the decrease of I-sc by ATP was diminished
in the presence of inhibitors of phospholipase C (PLC) and protein ki
nase C (PKC), U-73122 and GF109203X. Activation of PKC by phorbol 12-m
yristate 13-acetate (20 nM) decreased I-IsK (grebil: by 62 +/- 10%; ra
t: by 72 +/- 6%) in perforated-patch whole-cell recordings while the i
nactive analog, 4 alpha PMA, had no effect. By contrast, elevation of
cytosolic [Ca2+] by A23187 increased the whole-cell I-IsK. The express
ion of the isk gene transcript was confirmed and the serine responsibl
e for the species-specific response to PKC was found to be present in
the gerbil I-sK; sequence. These data provide evidence consistent with
a direct effect of the PKC branch of the PLC pathway on the I-sk chan
nel of SMC in response to activation of the apical P-2U receptor and p
redict that the secretion of endolymph in the human cochlea may be con
trolled by PKC in the same way as in our animal model. (C) 1998 Elsevi
er Science B.V.