HYPOXIA AND N(6),O(2')-DIBUTYRYLADENOSINE 3',5'-CYCLIC-MONOPHOSPHATE, BUT NOT NERVE GROWTH-FACTOR, INDUCE NA+ CHANNELS AND HYPERTROPHY IN CHROMAFFIN-LIKE ARTERIAL CHEMORECEPTORS

被引：59

作者：

STEA, A ^{[1
]}

JACKSON, A ^{[1
]}

NURSE, CA ^{[1
]}

机构：

[1] MCMASTER UNIV,DEPT BIOL,1280 MAIN ST W,HAMILTON L8S 4K1,ONTARIO,CANADA

来源：

PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA | 1992年 / 89卷 / 20期

关键词：

GLOMUS CELLS; CAROTID BODY; O2; SENSORS;

D O I：

10.1073/pnas.89.20.9469

中图分类号：

O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];

学科分类号：

07 ; 0710 ; 09 ;

摘要：

Chronic hypoxia sensitizes the ventilatory reflex in mammals and causes enlargement of the carotid body a peripheral arterial chemosensory organ. To investigate possible underlying mechanisms, in the absence of circulatory changes, we exposed cultures of dissociated rat carotid body containing the oxygen sensors (i.e., chromaffin-like glomus cells) to chronic hypoxia (6% O2) over a period of 2 weeks. After a delay of a few days, the Na+ current density in hypoxia-treated glomus cells increased significantly, reaching values up to 6 times that seen in normoxic (20% O2) controls. In addition the whole-cell capacitance, an indicator of cell size, was also significantly larger (3-4 times control) in glomus cells exposed to chronic hypoxia. Both effects were mimicked qualitatively by chronic treatment of normoxic cultures with N6,O2'-dibutyryladenosine 3',5'-cyclic monophosphate, but not nerve growth factor, which is known to induce similar changes in the chromaffin cell line PC12. Thus, the physiological and morphological effects of chronic hypoxia on the carotid body in vivo may be due in part to a cAMP-mediated stimulation of Na+ channel expression and hypertrophy in the chemosensory glomus cells.

引用

页码：9469 / 9473

页数：5

共 23 条

[1] MEMBRANE-POTENTIAL OF CULTURED CAROTID-BODY GLOMUS CELLS UNDER NORMOXIA AND HYPOXIA [J].

ACKER, H ;

PIETRUSCHKA, F .

BRAIN RESEARCH, 1984, 311 (01) :148-151

[2]

Aloe L, 1980, Adv Biochem Psychopharmacol, V25, P221

[3] TIME-DEPENDENT EFFECT OF HYPOXIA ON CAROTID-BODY CHEMOSENSORY FUNCTION [J].

BARNARD, P ;

ANDRONIKOU, S ;

POKORSKI, M ;

SMATRESK, N ;

MOKASHI, A ;

LAHIRI, S .

JOURNAL OF APPLIED PHYSIOLOGY, 1987, 63 (02) :685-691

[4] RESPONSES OF TYPE-I CELLS DISSOCIATED FROM THE RABBIT CAROTID-BODY TO HYPOXIA [J].

BISCOE, TJ ;

DUCHEN, MR .

JOURNAL OF PHYSIOLOGY-LONDON, 1990, 428 :39-59

[5] EVIDENCE FOR A PO2-SENSITIVE K+ CHANNEL IN THE TYPE-I CELL OF THE RABBIT CAROTID-BODY [J].

DELPIANO, MA ;

HESCHELER, J .

FEBS LETTERS, 1989, 249 (02) :195-198

[6] HYPOXIA INCREASES THE CYCLIC-AMP CONTENT OF THE CAT CAROTID-BODY INVITRO [J].

DELPIANO, MA ;

ACKER, H .

JOURNAL OF NEUROCHEMISTRY, 1991, 57 (01) :291-297

[7] THE ENLARGED CAROTID-BODY OF THE CHRONICALLY HYPOXIC AND CHRONICALLY HYPOXIC AND HYPERCAPNIC RAT - A MORPHOMETRIC ANALYSIS [J].

DHILLON, DP ;

BARER, GR ;

WALSH, M .

QUARTERLY JOURNAL OF EXPERIMENTAL PHYSIOLOGY AND COGNATE MEDICAL SCIENCES, 1984, 69 (02) :301-317

[8]

DOUPE AJ, 1985, J NEUROSCI, V5, P2119

[9] CAROTID BODY IN ANIMALS AT HIGH ALTITUDE [J].

EDWARDS, C ;

HEATH, D ;

HARRIS, P ;

CASTILLO, Y ;

KRUGER, H ;

ARIASSTE.J .

JOURNAL OF PATHOLOGY, 1971, 104 (04) :231-&

[10] CAROTID BODY IN EMPHYSEMA AND LEFT VENTRICULAR HYPERTROPHY [J].

EDWARDS, C ;

HEATH, D ;

HARRIS, P .

JOURNAL OF PATHOLOGY, 1971, 104 (01) :1-&

← 1 2 3 →