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51.
Seok Choi Jeong June Choi Jae Yeoul Jun Jae Woong Koh Sang Hun Kim Dong Hee Kim Myoung-Yun Pyo Sangzin Choi Jin Pub Son Inki Lee Miwon Son Mirim Jin 《Molecules and cells》2009,27(3):307-312
The interstitial cells of Cajal (ICC) are pacemaking cells required for gastrointestinal motility. The possibility of whether
DA-9701, a novel prokinetic agent formulated with Pharbitis Semen and Corydalis Tuber, modulates pacemaker activities in the
ICC was tested using the whole cell patch clamp technique. DA-9701 produced membrane depolarization and increased tonic inward
pacemaker currents in the voltage-clamp mode. The application of flufenamic acid, a non-selective cation channel blocker,
but not niflumic acid, abolished the generation of pacemaker currents induced by DA-9701. Pretreatment with a Ca2+-free solution and thapsigargin, a Ca2+-ATPase inhibitor in the endoplasmic reticulum, abolished the generation of pacemaker currents. In addition, the tonic inward
currents were inhibited by U-73122, an active phospholipase C inhibitor, but not by GDP-β-S, which permanently binds G-binding
proteins. Furthermore, the protein kinase C inhibitors, chelerythrine and calphostin C, did not block the DA-9701-induced
pacemaker currents. These results suggest that DA-9701 might affect gastrointestinal motility by the modulation of pacemaker
activity in the ICC, and the activation is associated with the non-selective cationic channels via external Ca2+ influx, phospholipase C activation, and Ca2+ release from internal storage in a G protein-independent and protein kinase C-independent manner. 相似文献
52.
Jay Conhaim Emily R. Cedarbaum Mitra Barahimi Jennifer G. Moore Matthew I. Becker Helge Gleiss Christine Kohl William J. Moody 《Developmental neurobiology》2010,70(10):679-692
Spontaneous waves of activity that propagate across large structures during specific developmental stages play central roles in CNS development. To understand the genesis and functions of these waves, it is critical to understand the spatial and temporal patterns of their propagation. We recently reported that spontaneous waves in the neonatal cerebral cortex originate from a ventrolateral pacemaker region. We have now analyzed a large number of spontaneous waves using calcium imaging over the entire area of coronal slices from E18‐P1 mouse brains. In all waves, the first cortical region active is this ventrolateral pacemaker. In half of the waves, however, the cortical pacemaker activity is itself triggered by preceding activity in the septal nuclei. Most waves are restricted to the septum and/or ventral cortex, with only some invading the dorsal cortex or the contralateral hemisphere. Waves fail to propagate at very stereotyped locations at the boundary between ventral and dorsal cortex and at the dorsal midline. Waves that cross these boundaries pause at these same locations. Waves at these stages are blocked by both picrotoxin and CNQX, indicating that both GABAA and AMPA receptors are involved in spontaneous activity. © 2010 Wiley Periodicals, Inc. Develop Neurobiol 70: 679–692, 2010 相似文献
53.
Interstitial cells of Cajal in the urethra 总被引:7,自引:0,他引:7
Sergeant GP Thornbury KD McHale NG Hollywood MA 《Journal of cellular and molecular medicine》2006,10(2):280-291
The smooth muscle layer of the urethra generates spontaneous myogenic tone that is thought to make a major contribution to urinary continence. The mechanisms underlying generation of tone remain unclear, however recent studies from our laboratory highlighted a role for a specialised population of pacemaker cells which we originally referred to as interstitial cells (IC) and now term ICC. Urethra ICC possess an electrical pacemaker mechanism characterised by rhythmic activation of Ca(2+)-activated Cl(-) channels leading to spontaneous transient inward currents (STICs) under voltage clamp and spontaneous transient depolarisations (STDs) under current clamp conditions. Both STICS and STDs are now known to be associated with spontaneous Ca(2+) oscillations that result from a complex interplay between release of Ca(2+) from intracellular stores and Ca(2+) influx across the plasma membrane. In this review we will consider some of the precise mechanisms involved in the generation of pacemaker activity and discuss how these are modulated by excitatory and inhibitory neurotransmitters. 相似文献
54.
出生后心率变慢的窦房结调控机制 总被引:4,自引:0,他引:4
用离体兔心灌流、窦房结细胞动作电位记录、膜片钳实验和放射免疫分析细胞内cAMP含量等方法,研究不同周龄组兔心自律性变慢的心脏内源性因素。实验结果提示,离体心脏和窦房结标本在没有神经体液因素影响的情况下也有随周龄增长而自律性变慢的现象。进一步的实验提示,这可能是由于窦房结细胞内cAMP含量下降,使起搏离子流If的阈电位向负方向移位,造成窦房结细胞4期自动除极速率降低,最后导致心率变慢。上述结果表明,成长过程中的心率变慢,除有神经体液因素影响外,窦房结细胞本身自律性的改变也起了一定作用。 相似文献
55.
Current-dependent block of rabbit sino-atrial node I(f) channels by ivabradine 总被引:2,自引:0,他引:2
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"Funny" (f-) channels have a key role in generation of spontaneous activity of pacemaker cells and mediate autonomic control of cardiac rate; f-channels and the related neuronal h-channels are composed of hyperpolarization-activated, cyclic nucleotide-gated (HCN) channel subunits. We have investigated the block of f-channels of rabbit cardiac sino-atrial node cells by ivabradine, a novel heart rate-reducing agent. Ivabradine is an open-channel blocker; however, block is exerted preferentially when channels deactivate on depolarization, and is relieved by long hyperpolarizing steps. These features give rise to use-dependent behavior. In this, the action of ivabradine on f-channels is similar to that reported of other rate-reducing agents such as UL-FS49 and ZD7288. However, other features of ivabradine-induced block are peculiar and do not comply with the hypothesis that the voltage-dependence of block is entirely attributable to either the sensitivity of ivabradine-charged molecules to the electrical field in the channel pore, or to differential affinity to different channel states, as has been proposed for UL-FS49 (DiFrancesco, D. 1994. Pflugers Arch. 427:64-70) and ZD7288 (Shin, S.K., B.S. Rotheberg, and G. Yellen. 2001. J. Gen. Physiol. 117:91-101), respectively. Experiments where current flows through channels is modified without changing membrane voltage reveal that the ivabradine block depends on the current driving force, rather than voltage alone, a feature typical of block induced in inwardly rectifying K(+) channels by intracellular cations. Bound drug molecules do not detach from the binding site in the absence of inward current through channels, even if channels are open and the drug is therefore not "trapped" by closed gates. Our data suggest that permeation through f-channel pores occurs according to a multiion, single-file mechanism, and that block/unblock by ivabradine is coupled to ionic flow. The use-dependence resulting from specific features of I(f) block by ivabradine amplifies its rate-reducing ability at high spontaneous rates and may be useful to clinical applications. 相似文献
56.
Abstract A publication by Shanley and Kirkwood (2000) attempts to explain data on caloric restriction (CR) and life extension in the context of the Disposable Soma (DS) theory for the evolution of senescence. As the authors concede, this juxtaposition appears at first to offend intuition: According to the DS theory, senescence is the result of a tight budget for caloric energy, such that repair and maintenance functions are shortchanged; yet, in CR experiments, it is found that longevity decreases smoothly as the total caloric budget is increased. In the Shanley-Kirkwood model, an optimized allocation of resources causes energy to be diverted away from somatic maintenance at a greater rate than caloric intake increases, with the net result that more total energy is associated with less energy available for maintenance. In the present critique, the limitations of this model are detailed and its special assumptions reviewed. While the CR experiments find comparable life extension for males and females, measured relative to nonbreeding controls, the Shanley-Kirkwood model draws its energy budget from data on breeding females. In addition, the success in reproducing the observed relationship between feeding and longevity depends crucially on a mathematical relationship between food availability and the probability of reproductive success which may be difficult to justify. 相似文献
57.
杜友爱 《中国应用生理学杂志》1998,14(2):157-160
采用细胞内微电极和双微电极电压箝制术观察缺血对绵羊心室浦肯野纤维跨膜电位和起搏离子流(If)的影响。结果:模拟缺血液灌流30min,浦肯野纤维最大舒张电位(MDP)、动作电位幅度(APA)明显减少;动作电位时程APD50,APD90明显缩短(n=15P<0.01);起搏离子流(If),幅度降低,激活曲线向超极化方向移位,最大激活时间及半最大激活时间延长(n=13P<0.001)。上述结果表明:心肌缺血时,心室浦肯野细胞跨膜电位及正常起搏活动不是增强,而是减弱。提示缺血性室性心律失常不是由于正常心室自律活动异常增强引起 相似文献
58.
Whole-cell patch recording techniques were used to analyze spontaneous electrical activity in cerebellar Purkinje cells acutely isolated from postnatal rats. Spontaneous activity was present in 65% of the cells examined, and it included simple and complex firing patterns which persisted under conditions that eliminated residual or reformed synaptic contacts. Under voltage clamp, both spontaneous and quiescent cells displayed similar voltage-dependent conductances. Inward current was carried by Na+ through tetrodotoxin (TTX)-sensitive channels and by Ca2+ through P-type and T-type Ca channels. P-type current was present in all cells examined. T-type current was found in <50%, and it did not correlate with spontaneous activity. We found no evidence of a transient (A-type) potassium current or hyperpolarization-activated cationic current in either spontaneous or quiescent cells. Spontaneous activity did correlate with a lower activation threshold of the Na current, resulting in substantial overlap of the activation and inactivation curves. TTX reduced the holding current of spontaneous cells clamped between −50 and −30 mV, consistent with the presence of a Na "window" current. We were unable, however, to measure a persistent component of the Na current using voltage steps, a result which may reflect the complex gating properties of Na channels. An Na window current could provide the driving force underlying spontaneous activity, as well as plateau potentials, in Purkinje cells. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 18–32, 1997 相似文献
59.
60.
Jon Jacklet Steven Barnes Andrew Bulloch Kenneth Lukowiak Naweed Syed 《Developmental neurobiology》1996,31(1):16-28
Each eye of Aplysia contains a circadian clock that produces a robust rhythm of optic nerve impulse activity. To isolate the pacemaker neurons and photoreceptors of the eye and determine their participation in the circadian clock and its generation of rhythmic autoactivity, the retina was dissociated and its cells were placed in primary cell culture. The isolated neurons and photoreceptors survived and vigorously extended neurites tipped with growth cones. Many of the photoreceptors previously described from histological sections of the intact retina were identified in culture, including the large R-type photoreceptor, which gave robust photoresponses, and the smaller tufted, whorled, and flared photoreceptors. The pacemaker neurons responsible for the rhythmic impulse activity generated by the eye were identified by their distinctive monopolar morphology and recordings were made of their activity. Isolated pacemaker neurons produced spontaneous action potentials in darkness, and pacemaker neurons attached to fragments of retina or in an isolated cluster interacted to produce robust spontaneous activity. This study establishes that isolated retinal pacemaker neurons retain their innate autoactivity and ability to produce action potentials in culture and that clusters of coupled pacemaker neurons are capable of generating robust autoactivity comparable to pacemaker neuron rhythmic activity recorded in the intact retina, which was previously shown to correspond to 1:1 with the optic nerve compound action potential activity. © 1996 John Wiley & Sons, Inc. 相似文献