Electrical basis of peristalsis in the mammalian upper urinary tract

被引:56
作者
Lang, RJ [1 ]
Exintaris, B [1 ]
Teele, ME [1 ]
Harvey, J [1 ]
Klemm, MF [1 ]
机构
[1] Monash Univ, Dept Physiol, Clayton, Vic 3168, Australia
关键词
action potentials; Ca2+ channels; electron microscopy; electrophysiology; K+ channels; pacemakers; patch clamp; smooth muscle; upper urinary tract; ureteric peristalsis;
D O I
10.1111/j.1440-1681.1998.tb02357.x
中图分类号
R9 [药学];
学科分类号
1007 ;
摘要
1. Peristalsis in the mammalian upper urinary tract (UUT) is mostly myogenic in origin, originating predominately in the proximal pelvicalyceal regions of the renal pelvis, an area that is enriched with specialized smooth muscle cells termed 'atypical' smooth muscle cells. Propagating peristaltic contractions are little affected by blockers of either autonomic nerve function or nerve impulse propagation; however, blockers of sensory nerve function or prostaglandin synthesis reduce both the frequency and the strength of the spontaneous contractions underlying peristalsis, 2. The electrical drive for these peristaltic contractions has long been considered to involve mechanisms analogous to the heart, such that 'atypical' smooth muscle cells generate spontaneous 'pacemaker' action potentials. These pacemaker potentials trigger the firing of action potentials and contraction in the muscular regions of the renal pelvis, which propagate distally to the ureter, propelling urine towards the bladder. 3. Recent intracellular microelectrode and single cell/channel patch-clamp studies have revealed that the ionic conductances underlying the action potentials recorded in the UUT are likely to involve the opening and slow closure of voltage-activated 'L-type' Ca2+ channels, offset by the time-dependent opening and closure of both voltage-and Ca2+-activated K+ channels. 4. In the present review we summarize the current knowledge of the ionic mechanisms underlying action potential discharge in the UUT, as well as present our view on how this electrical activity supports the initiation and conduction of UUT peristalsis.
引用
收藏
页码:310 / 321
页数:12
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