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¡¶ÐÄÔàÔÓÖ¾¡·[ISSN:1009-7236/CN:61-1268/R]

ÆÚÊý:

2008ÄêµÚ4ÆÚ

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406-409£¬413

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2008-08-20

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Title:

Changes in CaL channel currents of cerebrovascular smooth muscle cells isolated from 2ª²week simulated weightlessness rats

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Author(s):

TANG Hao;  XUE Junª²hui;  BAI Yunª²gang;  XIE Manª²jiang;  BAO Junª²xiang;  MA Jin

Department of Aerospace Physiology, School of Aerospace Medicine, Fourth Military Medical University, Xi¡¯an 710032, Shaanxi, China

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Keywords:

weightlessness simulation;  orthostatic intolerance;  vascular smooth muscle cells;  VSMCs;  calcium channel;  artery

·ÖÀàºÅ:

R852.22

DOI:

-

ÎÄÏ×±êʶÂë:

A

ÕªÒª:

Ä¿µÄ ¹Û²ìÄ£ÄâʧÖØ2Öܺ󣬴óÊóÄÔ¶¯ÂöѪ¹Üƽ»¬¼¡Ï¸°û£¨vascular smooth muscle cells, VSMCs£©LÐ͵çѹÒÀÀµÐÔ¸ÆÀë×ÓͨµÀ£¨Lª²type voltage dependent calcium channel, CaL£©¹¦Äܵĸı䣬ÒÔ¼°¸ÆͨµÀ¼¤¶¯¼ÁBay K 8644¶ÔͨµÀµçÁ÷µÄÓ°Ïì¡£·½·¨ ÒÔβ²¿Ðüµõ´óÊóÄ£ÐÍÄ£ÄâʧÖصÄÓ°Ïì¡£²ÉÓÃȫϸ°ûĤƬǯ¼Ç¼ģʽ£¬ÒÔBa2+×÷ΪÔØÁ÷×Ó£¬¼Ç¼2ÖÜÄ£ÄâʧÖغó´óÊóÄÔ¶¯ÂöVSMCsµÄCaLµçÁ÷¼°¸ÆͨµÀ¼¤¶¯¼ÁBay K 8644¶ÔÆäµÄÓ°Ï죬²¢²â¶¨ÏàÓ¦µÄÎÈ̬¼¤»îÓëʧ»îÇúÏß¼°ÓйزÎÊý¡£½á¹û Óë¶ÔÕÕ×éÏà±È£¬Ä£ÄâʧÖØ2ÖܺóÐüµõ×é´óÊóÒѳöÏÖÁ˵äÐ͵ÄÄ£ÄâʧÖØЧӦ£¬Ðüµõ×é´óÊóÄÔ¶¯ÂöVSMCsµÄCaLµÄµçÁ÷ÃܶÈÏÔÖøÔö¼Ó£¨P<0ª±05£©£¬ÇÒ¶Ô¸ÆͨµÀ¼¤¶¯¼ÁBay K 8644¸üÃô¸Ð£¨P<0ª±05£©¡£´ËÍ⣬Óë¶ÔÕÕ×éÏà±È£¬Ðüµõ×é´óÊóÄÔ¶¯ÂöVSMCsµÄĤµçÈÝÓë½ÓÈëµç×è¡¢CaLÎÈ̬ʧ»îÇúÏߺÍÎÈ̬¼¤»îÇúÏßµÈͨµÀ¶¯Á¦Ñ§ÌØÕ÷ÎÞÏÔÖøÐԸı䡣½áÂÛ Ä£ÄâʧÖØ2ÖÜ¿ÉÒýÆð´óÊóÄÔ¶¯Âöƽ»¬¼¡Ï¸°ûCaLͨµÀ¹¦ÄÜÔöÇ¿£¬Õâ¿ÉÄÜÊÇÄ£ÄâʧÖص¼Ö´óÊóÄÔ¶¯ÂöѪ¹ÜÊÕËõ·´Ó¦ÐÔÔöÇ¿µÄÒòËØÖ®Ò»¡£

Abstract:

AIM To investigate the alterations of CaL in cerebral vascular smooth muscle cells isolated from rats subjected to a twoª²week simulated weightlessness and the influence of Bay K 8644 (an agonist of CaL) to the channel currents. METHODS Tailª²suspended rat model was used to simulate the effects of microgravity. Wholeª²cell patchª²clamp technique was used to record CaL currents before and after Bay K 8644 treatment, with intracellular Ca2+ concentration maintained at physiological level. The corresponding parameters such as steady state activation and inactivation curves were also recorded. RESULTS Wholeª²cell CaL current densities increased obviously and the sensitivity of CaL to Bay K 8644 also increased in cerebral vascular smooth muscle cells from suspension group. But membrane capacitance (Cm), access resistance (Ra) and other parameters of CaL such as steady state activation/inactivation curves, had no significant changes compared with those in control group. CONCLUSION These results suggest that enhanced CaL function of cerebrovascular smooth muscle cells induced by simulated microgravity may be one of the electrophysiological mechanisms that mediate the enhanced vasoreactivity of cerebrovascular smooth muscle cells during adaptation to simulated weightlessness in rats.

²Î¿¼ÎÄÏ×/References

[1] Zhang LF. Vascular adaptation to microgravity: what have we learned?[J]. J Appl Physiol, 2001, 91(6):2415-2430.

[2] Blomqvist GC. Regulation of the systemic circulation at microgravity and during readaptation to 1G[J]. Med Sci Sports Exerc, 1996, 28(10 Suppl):S9-S13.

[3] Buckey JC, Lane LD, Levine BD, et al. Orthostatic intolerance after spaceflight[J]. J Appl Physiol, 1996, 81(1):7-18.

[4] Gazenko OG, Genin AM, Egorov AD. Summary of medical investigations in the U.S.S.R. manned space missions[J]. Acta Astronaut, 1981, 8 (9-10):907-917.

[5] Hargens AR, Watenpaugh DE. Cardiovascular adaptation to spaceflight[J]. Med Sci Sports Exerc, 1996, 28(8):977-982.

[6] Jackson WF. Ion channels and vascular tone[J]. Hypertension, 2000, 35(1 Pt 2):173-178.

[7] Hughes AD. Calcium channels in vascular smooth muscle cells[J]. J Vasc Res, 1995, 32(6):353-370.

[8] Hardingham GE, Chawla S, Johnson CM, et al. Distinct functions of nuclear and cytoplasmic calcium in the control of gene expression[J]. Nature, 1997, 385(6613):260-265.

[9] Platoshyn O, Yu Y, Golovina VA, et al. Chronic hypoxia decreases KV channel expression and function in pulmonary artery myocytes[J]. Am J Physiol Lung Cell Mol Physiol, 2001, 280(4):L801-L812.

[10]Xue JH, Zhang LF, Ma J, et al. Differential regulation of Lª²type Ca2+ channels in cerebral and mesenteric arteries after simulated microgravity in rats and its intervention by standing[J]. Am J Physiol Heart Circ Physiol, 2007, 293(1):H691-H701.

[11]Xie MJ, Zhang LF, Ma J. Functional alterations in cerebrovascular K+ and Ca2+ channels are comparable between simulated microgravity rat and SHR[J]. Am J Physiol Heart Circ Physiol, 2005, 289(3):H1265-H1276.

[12]Moreyª²Holton ER, Globus RK. Hindlimb unloading rodent model: technical aspects[J]. J Appl Physiol, 2002, 92(4):1367-1377.

[13]Cox RH, Rusch NJ. New expression profiles of voltageª²gated ion channels in arteries exposed to high blood pressure[J]. Microcirculation, 2002, 9(4):243-257.

[14]Aaronson PI, Bolton TB, Lang RJ, et al. Calcium currents in single isolated smooth muscle cells from the rabbit ear artery in normalª²calcium and highª²barium solutions[J]. J Physiol, 1988, 405(1):57-75.

[15]лÂú½­,ÕÅÁ¢·ª,Âí½ø,µÈ. Ä£ÄâʧÖØ1ÖÜ´óÊóÄÔ¶¯Âöƽ»¬¼¡Ï¸°ûBKCaÓëKVͨµÀ¹¦Äܵĸıä[J]. Öлªº½¿Õº½ÌìҽѧÔÓÖ¾, 2005, 16(2):125-129.

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