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国家自然科学基金(81000411)

作品数:3 被引量:6H指数:2
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18β-glycyrrhetinic Acid inhibits BKCa Channel of Vascular Smooth Muscle Cells of Arterioles
In this study,whole-cell patch clamp recording technique was used to investigate the effect of 10~100μmol/L 18...
MA Ke-tao~(1,2),LI Xi-zhi~1,LI Li~(1,2),ZHANG Zhong-shuang~(1,2), SHI Wen-yan~(1,2),SI Jun-qiang~(1,2*) (1.The Key Laboratory of Xinjiang Endemic and Ethnic Diseases,Shihezi 832002,China
关键词:ARTERIOLE
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2-APB对自发性高血压大鼠脑微动脉平滑肌细胞缝隙连接的影响被引量:2
2014年
为探讨正常血压Wistar大鼠(Wistar rat,WR)和自发性高血压大鼠(Spontaneously Hypertensive rat,SHR)脑微动脉段平滑肌细胞电生理学及偶联力的异同,并观察2-氨基乙基二苯硼酸酯(2-Aminoethoxydiphenyl borate,2-APB)对脑微动脉平滑肌细胞间缝隙连接的影响。应用全细胞膜片钳技术方法,观察2-APB对WR和SHR脑微动脉段上平滑肌细胞膜电容(Cinput)、膜电导(Ginput)和膜电阻(Rinput)的影响。结果显示,(1)SHR收缩压明显高于正常WR,差异有统计学意义(P<0.01)。(2)SHR脑微动脉段上平滑肌细胞的Cinput和Ginput高于WR,差异有统计学意义(P<0.05)。(3)2-APB可以浓度依赖性的降低脑微动脉段上平滑肌细胞的Cinput和Ginput(或者增加Rinput)。(4)2-APB抑制WR和SHR脑微动脉段上平滑肌细胞Ginput的IC50分别为0.21μmol/L和0.83μmol/L,差异有统计学意义(P<0.05)。(5)2-APB浓度≥100μmol/L时,WR和SHR脑微动脉段上平滑肌细胞的Cinput、Ginput或Rinput与单个平滑肌细胞十分接近。由此可知,SHR较WR脑微动脉平滑肌细胞间缝隙连接耦联力增强,2-APB可以浓度依赖地抑制WR和SHR脑微动脉平滑肌细胞间缝隙连接,且对SHR的抑制效力较强。
王洋马克涛张雯李丽赵磊魏丽丽司军强
关键词:自发性高血压大鼠平滑肌细胞
急性缺氧对豚鼠肠系膜动脉平滑肌细胞电生理特性的影响被引量:1
2011年
目的 观察急性缺氧对豚鼠肠系膜动脉平滑肌细胞电生理特性的影响.方法 直径<100 μm的豚鼠肠系膜动脉进一步去除结缔组织后,应用全细胞膜片钳技术观察急性缺氧对微动脉段上平滑肌细胞膜电流、膜电位、膜电容、膜电导或膜电阻的影响.结果当钳制电压为-40 mV时,急性缺氧引起一个反应幅度(76 ±23)pA的外向电流,细胞静息膜电位从(-22.5±1.2)mV超级化到(-42.0 ±2.8)mV(P <0.01).急性缺氧可以电压依赖地增强细胞外向电流,且主要增强0~+40 mV电压区间的电流,激活电流幅度0 mV时从(140±18)pA增加到(660±124)pA(P <0.01),+20 mV时从(282±23)pA增加到(1120±186)pA(P <0.01),+40 mV时从(423±40)pA增加到(1800±275)pA(P <0.01).背景灌流1 mmol/L大电导Ca2+激活K+通道(BKca)阻断剂四乙胺后,这一增强作用显著减弱.急性缺氧使细胞膜电阻从(446 ±55)MΩ增加到(2187±290)MΩ(P<0.01),膜电容从(184.3±75.0)pF减少至(17.6±2.2)pF(P<0.01).联合应用30 μmoL/L缝隙连接阻断剂18β-甘草次酸和10 mmol/L四乙胺后,急性缺氧对细胞膜电流的影响基本消失.结论 急性缺氧通过激活肠系膜动脉平滑肌细胞膜上BKca通道,引起K+外流,细胞超极化,血管舒张,保证肠系膜微循环的血液供应.同时通过抑制细胞间缝隙连接使其产生的伤害信息局限化.
马克涛李丽关兵才李新芝朱贺赵磊司军强
关键词:细胞缺氧肌细胞平滑肌肠系膜动脉电生理学
Differential Effect of Calcium-Activated Potassium and Chloride Channels on Rat Basilar Artery Vasomotion被引量:3
2014年
Spontaneous, rhythmical contractions, or vasomotion, can be recorded from cerebral vessels under both normal physiological and pathophysiological conditions. We investigated the cellular mechanisms underlying vasomotion in the cerebral basilar artery (BA) of Wistar rats. Pressure myograph video microscopy was used to study the changes in cerebral artery vessel diameter. The main results of this study were as follows: (1) The diameters of BA and middle cerebral artery (MCA) were 314.5±15.7 μm (n=15) and 233.3±10.1 μm (n=12) at 10 mmHg working pressure (P〈0.05), respectively. Pressure-induced vasomotion occurred in BA (22/28, 78.6%), but not in MCA (4/31, 12.9%) from 0 to 70 mmHg working pressure. As is typical for vasomotion, the contractile phase of the response was more rapid than the relaxation phase; (2) The frequency of vasomotion response and the diameter were gradually increased in BA from 0 to 70 mmHg working pressure. The amplitude of the rhythmic con- tractions was relatively constant once stable conditions were achieved. The frequency of contractions was variable and the highest value was 16.7±4.7 (n=13) per 10 min at 60 mmHg working pressure; (3) The pressure-induced vasomotion of the isolated BA was attenuated by nifedipine, NFA, 181]-GA, TEA or in Ca2+-free medium. Nifedipine, NFA, 18^-GA or Ca2+-free medium not only dampened vasomotion, but also kept BA in relaxation state. In contrasts, TEA kept BA in contraction state. These results sug- gest that the pressure-induced vasomotion of the isolated BA results from an interaction between Ca2+-activated C1- channels (CaCCs) currents and Kca currents. We hypothesize that vasomotion of BA depends on the depolarizing of the vascular smooth muscle cells (VSMCs) to activate CaCCs. Depolarization in turn activates voltage-dependent Ca2+ channels, synchronizing contractions of adjacent cells through influx of extracellular calcium and the flow of calcium through gap junctions. Subsequent calc
李丽王蕊马克涛李新芝张传林刘卫东赵磊司军强
关键词:VASOMOTION
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