REGULATION OF RESTING IONIC CONDUCTANCES IN FROG SKELETAL-MUSCLE

被引:5
|
作者
TRICARICO, D
WAGNER, R
BRYANT, SH
CAMERINO, DC
机构
[1] UNIV BARI,FAC FARM,DIPARTIMENTO FARM BIOL,VIA ORABONA 4,I-70125 BARI,ITALY
[2] UNIV CINCINNATI,COLL MED,DEPT PHARMACOL & CELL BIOPHYS,CINCINNATI,OH 45267
来源
PFLUGERS ARCHIV-EUROPEAN JOURNAL OF PHYSIOLOGY | 1993年 / 423卷 / 3-4期
关键词
FROG; SKELETAL MUSCLE; CHLORIDE CONDUCTANCE; POTASSIUM CONDUCTANCE; PROTEIN KINASE-C; PROTEIN KINASE-A;
D O I
10.1007/BF00374393
中图分类号
Q4 [生理学];
学科分类号
071003 ;
摘要
The membrane electrical properties and resting ionic conductances of frog semitendinosus muscle fibres were studied in vitro at 25-degrees-C with the two-microelectrode cable technique, in the presence of an activator or inhibitor of protein kinase C (PKC) or in the presence of an activator of adenylate cyclase. The PKC activator, 4beta-phorbol 12,13-dibutyrate (4beta-PDB), reduced chloride conductance (G(Cl)) at concentrations greater than 1 muM and did not affect potassium conductance (G(K)). At 150 muM, the maximum concentration of 4beta-PDB tested, G(Cl) was reduced by 42%. The ''inactive'' phorbol ester 4alpha-phorbol 12,13-dibutyrate did not affect G(Cl) or G(K). The inhibitory effect of 4beta-PDB on G(Cl) was prevented by pretreatment of the muscle preparation with the PKC inhibitor staurosporine. The adenylate cyclase activator forskolin (1.5-8 muM) significantly increased the G(K) Of the fibres, without affecting G(Cl). Thus, we conclude that frog skeletal muscle G(Cl), unlike rat muscle G(Cl), is relatively insensitive to activators of PKC. Moreover, in frog muscle, protein kinase A is a likely modulator of G(K), but not G(Cl).
引用
收藏
页码:189 / 192
页数:4
相关论文
共 50 条
  • [1] IONIC CONDUCTANCES IN FROG SHORT SKELETAL-MUSCLE FIBERS WITH SLOW DELAYED RECTIFIER CURRENTS
    LYNCH, C
    [J]. JOURNAL OF PHYSIOLOGY-LONDON, 1985, 368 (NOV): : 359 - 378
  • [2] IONIC MOVEMENTS IN DENERVATED FROG SKELETAL-MUSCLE
    VENOSA, RA
    KOTSIAS, BA
    HOROWICZ, P
    [J]. FEDERATION PROCEEDINGS, 1979, 38 (03) : 1443 - 1443
  • [3] ELASTIC AND VISCOUS PROPERTIES OF RESTING FROG SKELETAL-MUSCLE
    MOSS, RL
    HALPERN, W
    [J]. BIOPHYSICAL JOURNAL, 1977, 17 (03) : 213 - 228
  • [4] EFFECT OF PHLORIZIN ON THE ACTION-POTENTIAL AND VOLTAGE-DEPENDENT IONIC CONDUCTANCES IN FROG SKELETAL-MUSCLE
    CSERI, J
    [J]. ACTA PHYSIOLOGICA HUNGARICA, 1984, 64 (02) : 143 - 155
  • [5] ASPECTS OF PHI REGULATION IN FROG SKELETAL-MUSCLE
    PUTNAM, RW
    ROOS, A
    [J]. CURRENT TOPICS IN MEMBRANES AND TRANSPORT, 1986, 26 : 35 - 56
  • [6] IONIC SELECTIVITY OF SODIUM CHANNEL OF FROG SKELETAL-MUSCLE
    CAMPBELL, DT
    [J]. JOURNAL OF GENERAL PHYSIOLOGY, 1976, 67 (03): : 295 - 307
  • [7] IONIC MOVEMENTS MEDIATED BY MONENSIN IN FROG SKELETAL-MUSCLE
    HOYA, A
    VENOSA, RA
    [J]. BIOCHIMICA ET BIOPHYSICA ACTA, 1992, 1104 (01) : 123 - 131
  • [8] CHIRIQUITOXIN AND IONIC CURRENTS IN FROG SKELETAL-MUSCLE FIBERS
    YANG, L
    KAO, CY
    [J]. BIOPHYSICAL JOURNAL, 1990, 57 (02) : A104 - A104
  • [9] DETERMINATION OF IONIC CALCIUM IN FROG SKELETAL-MUSCLE FIBERS
    LOPEZ, JR
    ALAMO, L
    CAPUTO, C
    DIPOLO, R
    VERGARA, J
    [J]. BIOPHYSICAL JOURNAL, 1983, 43 (01) : 1 - 4
  • [10] RESTING TENSION IN FROG SKELETAL-MUSCLE IS BORNE MAINLY BY MYOFIBRILS
    LAW, DJ
    MAGID, A
    [J]. BIOPHYSICAL JOURNAL, 1985, 47 (02) : A126 - A126
12345