アンジオテンシン I 変換酵素遺伝子挿入/欠失多型と身体能力

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Published in	体力科学 Vol. 57; no. 5; pp. 527 - 532
Main Authors	飛奈, 卓郎, 西田, 裕一郎, 田中, 宏暁, 清永, 明
Format	Journal Article
Language	Japanese
Published	一般社団法人日本体力医学会 2008
Online Access	Get full text
ISSN	0039-906X 1881-4751
DOI	10.7600/jspfsm.57.527

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Author	飛奈, 卓郎西田, 裕一郎清永, 明田中, 宏暁
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References	22) Collins, M., Xenophontos, S., Cariolou, M. A., Mokone, G. G., Hudson, D. E., Anastasiades, L., Noakes, T. D. The ACE gene and endurance performance during the South African ironman triathlons. Med. Sci. Sports. Exerc., (2004), 36, 1314-1320. 3) Rigat, B., Hubert, C., Alhenc-Gelas, F., Cambien, F., Corvol, P., Soubrier, F. An insertion/deletion polymorphism in the angiotensin I-converting enzyme gene accounting for half the variance of serum enzyme levels. J. Clin. Invest., (1990), 86, 1343-1346. 15) Folli, F., Kahn, C. R., Hansen, H., Bouchie, J. L., Feener, E. R. Angiotensin II inhibits insulin signaling in aortic smooth muscle cells at multiple levels. J. Clin. Invest., (1997), 100, 2158-2169. 4) Danser, A. H., Schalekamp, M. A., Bax, W. A., Van, den., Brink, A. M., Saxena, P. R., Riegger, G. A., Schunkert, H. Angiotensin-converting enzyme in the human heart. Effect of the deletion/insertion polymorphism. Circulation, (1995), 92, 1387-1388. 25) Zhang, B., Tanaka, H., Shono, N., Miura, S., Kiyonaga, A., Shindo, M., Saku, K. The I allele of the angiotensin-converting enzyme gene is associated with an increased percentage of slow-twitch type I fibers in human skeletal muscle. Clin. Genet., (2003), 63, 139-144. 12) Cohn, R. D., Erp, C. V., Habashi, J. P., Soleimani, A. A., Klein, E. C., Lisi, M. T., Garmadt, M., Rhys, C. M., Holm, T. M., Bert, L. L., Ramirez, F., Judge, D. P., Ward, C. W., Dietz, H. C. Angiotensin II type 1 receptor blockade attenuates TGF-beta-induced failure of muscle regeneration in multiple myopathic states. Nat. Med., (2007), 13, 204-210. 17) Ken, C., McCarthy, J. E. The insertion allele at the angiotensin I-converting enzyme gene locus is associated with insulin resistance. Metabolism, (1997), 46, 395-399. 33) Montgomery, H. E., Clarkson, P., Dollery, C. M., Prasad, K., Losi, M. A., Hemingway, H., Statters, D., Jubb, M., Girvain, M., Varnava, A., World, M., Deanfield, J., Talmud, P., McEwan, J. R., McKenna, W. J., Humphries, S. Association of angiotensin-converting enzyme gene I/D polymorphism with change in left ventricular mass in response to physical training. Circulation, (1997), 96, 741-747. 5) Higashimori, K., Zhao, Y., Higaki, J., Kamitani, A., Katsuya, T., Nakura, J., Miki, T., Mikami, H., Ogihara, T. Association analysis of a polymorphism of the angiotensin converting enzyme gene with essential hypertension in the Japanese population. Biochem. Biophys. Res. Commun., (1993), 191, 399-404. 16) Panahloo, A., Andres, C., Mohamed-Ali, V., Gould, M. M., Talmud, P., Humphries, S. E., Yudkin, J. S. The insertion allele of the ACE gene I/D polymorphism. A candidate gene for insulin resistance? Circulation, (1995), 92, 3390-3393. 27) Tobina, T., Michishita, R., Imai, K., Segawa, N., Yamasawa, F., Tanaka, H., Shindo, M., Saku, K., Kiyonaga, A. Association between angiotensin I-converting enzyme (ACE) gene I/D polymorphism and athletic performance in Japanese athletes. Med. Sci. Sport. Exerc., (2001), 33, S323. 29) Scott, R. A., Moran, C., Wilson, R. H., Onywera, V., Boit, M. K., Goodwin, W. H., Gohlke, P., Payne, J., Montgomery, H. E., Pitsiladis, Y. No association between angiotensin converting enzyme (ACE) gene vatiation and endurance athlete status in Kenyans. Comp. Biochem. Physiol. A Mol. Integr. Physiol., (2005), 141, 169-175. 10) Schaufelberger, M., Andersson, G., Eriksson, B. O., Grimby, G., Held, P., Swedberg, K. Skeletal muscle changes in patients with chronic heart failure before and after treatment with enalapril. Eur. Heart. J., (1999), 17, 1678-1685. 13) Kishi, L., Muramoto, N., Nakaya, Y., Miyata, I., Hagi, A., Hayashi, H., Edina, Y. Bradykinin directly triggers GLUT4 translocation via an insulin-independent pathway. Diabetes, (1998), 47, 550-558. 24) Woods, D., Hickman, M., Jamshidi, Y., Brull, D., Vassiliou, V., Jones, A., Humphries, S., Montgomery, H. E. Elite swimmers and the D allele of the ACE I/D polymorphism. Hum. Genet., (2001), 108, 230-232. 31) Folland, J., Leach, B., Hawker, K., Myerson, S., Montgomery, H. E., Jones, D. Angiotensin-converting enzyme genotype affect the response of human skeletal muscle to functional overload. Exp. Physiol., (2000), 85, 575-579. 28) Rankinen, T., Perusse, L., Gagnon, J., Chagnon, Y. C., Leon, A. S., Skinner, J. S., Wilmore, J. H., Rao, D. C., Bouchard, C. Angiotensin-converting enzyme ID polymorphism and fitness phenotype in the HERITAGE family study. J. Appl. Physiol., (2000), 88, 1029-1035. 19) Myserson, S., Hemingway, H., Budget, R., Martin, J., Humphries, S., Montgomery, H. E. Human angiotensin I-converting enzyme gene and endurance performance. J. Appl. Physiol., (1999), 87, 1313-1316. 20) Alvarez, R., Terrados, N., Ortolano, R., Iglesias, C. G., Reguero, J. R., Batalla, A., Cortina, A., Fernandez-Garcia, B., Rodriguez, C., Braga, S., Alvarez, V., Coto, E. Genetic variation in the rennin-angiotensin system and athletic performance. Eur. J. Appl. Physiol., (2000), 82, 117-120. 23) Nazarov, I. B., Woods, D. R., Montgomery, H. E., Shneider, O. V., Kazakov, V. I., Tomilin, N. Y., Rogozkin, V. A. The angiotensin converting enzyme I/D polymorphism in Russian athletes. Eur. J. Hum. Genet., (2001), 9, 797-801. 1) Rankinen, T., Bray, M. S., Hagberg, J. M., Perusse, L., Roth, S. M., Wolfarth, B., Bouchard, C. The human gene map for performance and health-related fitness phenotypes : The 2005 update. Med. Sci. Sport. Exerc., (2006), 38, 1863-1888. 8) Tobina, T., Kiyonaga, A., Akagi, Y., Mori, Y., Ishii, K., Chiba, H., Shindo, M., Tanaka, H. Angiotensin I converting enzyme gene polymorphism and exercise trainability in elderly women : An electrocardiological approach. J. Sport. Sci. Med., (2007), 6, 220-226. 7) Yoshihara, A., Tobina, T., Yamaga, T., Ayabe, M., Yoshitake, Y., Kimura, Y., Hanada, N., Tanaka, H., Kiyonaga, A., Miyazaki, H. Physical fitness and angiotensin converting enzyme gene I/D polymorphism in elderly Japanese. Gerontology, In press 2) Montgomery, H. E., Marshall, R., Hemingway, H., Myerson, S., Clarkson, P., Dollery, C., Hayward, M., Holliman, D. E., Jubb, M., World, M., Thomas, E. L., Brynes, A. E., Saeed, N., Barnard, M., Bell, J. D., Prasad, K., Rayson, M., Talmud, P. J., Humphries, S. E. Human gene for physical performance. Nature, (1998), 393, 221-222. 6) Tobina, T., Ayabe, M., Yoshitake, Y., Kimura, Y., Miyazaki, H., Ishii, K., Zhang, B., Saku, K., Shindo, M., Kiyonaga, A., Tanaka, H. Relationship between angiotensin converting enzyme gene I/D polymorphism and muscle strength in elderly. Int. J. Sport. Health. Sci., (2006), 4, 460-464. 26) Taylor, R. R., Mamotte, C. D., Fallon, K., van Bockxmeer, F. M. Elite athletes and the gene for angiotensin-converting enzyme. J. Appl. Physiol., (1999), 87, 1035-1037. 9) Vescova, G., Dalla Libera, L., Serafini, F., Leprotti, C., Facchin, L., Volterrani, M., Ceconi, C., Ambrosio, G. B. Improved exercise tolerance after losartan and enalapril in heart failure: correlation with changes in skeletal muscle myosin heavy chain composition. Circulation, (1998), 98, 1742-1749. 21) Scanavini, D., Bernardi, F., Castoldi, E., Conconi, F., Mazzoni, G. Increased frequency of the homozygous II ACE genotype in Italian Olympic endurance athletes. Eur. J. Hum. Genet., (2002), 10, 576-577. 11) Onder, G., Penninx, B. W., Balkrishnan, R., Fried, L. P., Chaves, P. H., Williamson, J., Carter, C., Di Bari, M., Guralnik, J. M., Pahor, M. Relation between use of angiotensin-converting enzyme inhibitors and muscle strength and physical function in older women : an observational study. Lancet, (2002), 359, 926-930. 30) Cam, S., Colakoglu, M., Colakoglu, S., Sekuri, C., Berdeli, A. ACE I/D gene polymorphism and aerobic endurance development in response to training in a non-elite female cohort. J. Sports. Med. Phys. Fitness., (2007), 47, 234-238. 14) Dzau, V. J. Tissue rennin-angiotensin system : physiologic and pharmacologic implications. Introduction. Circulation, (1988), 77, I1-3. 32) Nagashima, J., Musha, H., Takada, H., Awaya, T., Oba, H., Mori, N., Ohmiya, K., Nobuoka, S., Murayama, M. Influence of angiotensin-converting enzyme gene polymorphism on development of athlete’s heart. Clin. Cardiol., (2000), 23, 621-624. 18) Gayagay, G., Yu, B., Hambly, B., Boston, T., Hahn, A., Celermajer, D. S., Trent, R. J. Elite endurance athletes and the ACE I allele-the role of genes in athletic performance. Hum. Genet., (1998), 103, 48-50.
References_xml	– reference: 25) Zhang, B., Tanaka, H., Shono, N., Miura, S., Kiyonaga, A., Shindo, M., Saku, K. The I allele of the angiotensin-converting enzyme gene is associated with an increased percentage of slow-twitch type I fibers in human skeletal muscle. Clin. Genet., (2003), 63, 139-144. – reference: 12) Cohn, R. D., Erp, C. V., Habashi, J. P., Soleimani, A. A., Klein, E. C., Lisi, M. T., Garmadt, M., Rhys, C. M., Holm, T. M., Bert, L. L., Ramirez, F., Judge, D. P., Ward, C. W., Dietz, H. C. Angiotensin II type 1 receptor blockade attenuates TGF-beta-induced failure of muscle regeneration in multiple myopathic states. Nat. Med., (2007), 13, 204-210. – reference: 15) Folli, F., Kahn, C. R., Hansen, H., Bouchie, J. L., Feener, E. R. Angiotensin II inhibits insulin signaling in aortic smooth muscle cells at multiple levels. J. Clin. Invest., (1997), 100, 2158-2169. – reference: 16) Panahloo, A., Andres, C., Mohamed-Ali, V., Gould, M. M., Talmud, P., Humphries, S. E., Yudkin, J. S. The insertion allele of the ACE gene I/D polymorphism. A candidate gene for insulin resistance? Circulation, (1995), 92, 3390-3393. – reference: 27) Tobina, T., Michishita, R., Imai, K., Segawa, N., Yamasawa, F., Tanaka, H., Shindo, M., Saku, K., Kiyonaga, A. Association between angiotensin I-converting enzyme (ACE) gene I/D polymorphism and athletic performance in Japanese athletes. Med. Sci. Sport. Exerc., (2001), 33, S323. – reference: 33) Montgomery, H. E., Clarkson, P., Dollery, C. M., Prasad, K., Losi, M. A., Hemingway, H., Statters, D., Jubb, M., Girvain, M., Varnava, A., World, M., Deanfield, J., Talmud, P., McEwan, J. R., McKenna, W. J., Humphries, S. Association of angiotensin-converting enzyme gene I/D polymorphism with change in left ventricular mass in response to physical training. Circulation, (1997), 96, 741-747. – reference: 26) Taylor, R. R., Mamotte, C. D., Fallon, K., van Bockxmeer, F. M. Elite athletes and the gene for angiotensin-converting enzyme. J. Appl. Physiol., (1999), 87, 1035-1037. – reference: 13) Kishi, L., Muramoto, N., Nakaya, Y., Miyata, I., Hagi, A., Hayashi, H., Edina, Y. Bradykinin directly triggers GLUT4 translocation via an insulin-independent pathway. Diabetes, (1998), 47, 550-558. – reference: 21) Scanavini, D., Bernardi, F., Castoldi, E., Conconi, F., Mazzoni, G. Increased frequency of the homozygous II ACE genotype in Italian Olympic endurance athletes. Eur. J. Hum. Genet., (2002), 10, 576-577. – reference: 22) Collins, M., Xenophontos, S., Cariolou, M. A., Mokone, G. G., Hudson, D. E., Anastasiades, L., Noakes, T. D. The ACE gene and endurance performance during the South African ironman triathlons. Med. Sci. Sports. Exerc., (2004), 36, 1314-1320. – reference: 17) Ken, C., McCarthy, J. E. The insertion allele at the angiotensin I-converting enzyme gene locus is associated with insulin resistance. Metabolism, (1997), 46, 395-399. – reference: 20) Alvarez, R., Terrados, N., Ortolano, R., Iglesias, C. G., Reguero, J. R., Batalla, A., Cortina, A., Fernandez-Garcia, B., Rodriguez, C., Braga, S., Alvarez, V., Coto, E. Genetic variation in the rennin-angiotensin system and athletic performance. Eur. J. Appl. Physiol., (2000), 82, 117-120. – reference: 18) Gayagay, G., Yu, B., Hambly, B., Boston, T., Hahn, A., Celermajer, D. S., Trent, R. J. Elite endurance athletes and the ACE I allele-the role of genes in athletic performance. Hum. Genet., (1998), 103, 48-50. – reference: 28) Rankinen, T., Perusse, L., Gagnon, J., Chagnon, Y. C., Leon, A. S., Skinner, J. S., Wilmore, J. H., Rao, D. C., Bouchard, C. Angiotensin-converting enzyme ID polymorphism and fitness phenotype in the HERITAGE family study. J. Appl. Physiol., (2000), 88, 1029-1035. – reference: 23) Nazarov, I. B., Woods, D. R., Montgomery, H. E., Shneider, O. V., Kazakov, V. I., Tomilin, N. Y., Rogozkin, V. A. The angiotensin converting enzyme I/D polymorphism in Russian athletes. Eur. J. Hum. Genet., (2001), 9, 797-801. – reference: 24) Woods, D., Hickman, M., Jamshidi, Y., Brull, D., Vassiliou, V., Jones, A., Humphries, S., Montgomery, H. E. Elite swimmers and the D allele of the ACE I/D polymorphism. Hum. Genet., (2001), 108, 230-232. – reference: 7) Yoshihara, A., Tobina, T., Yamaga, T., Ayabe, M., Yoshitake, Y., Kimura, Y., Hanada, N., Tanaka, H., Kiyonaga, A., Miyazaki, H. Physical fitness and angiotensin converting enzyme gene I/D polymorphism in elderly Japanese. Gerontology, In press – reference: 5) Higashimori, K., Zhao, Y., Higaki, J., Kamitani, A., Katsuya, T., Nakura, J., Miki, T., Mikami, H., Ogihara, T. Association analysis of a polymorphism of the angiotensin converting enzyme gene with essential hypertension in the Japanese population. Biochem. Biophys. Res. Commun., (1993), 191, 399-404. – reference: 4) Danser, A. H., Schalekamp, M. A., Bax, W. A., Van, den., Brink, A. M., Saxena, P. R., Riegger, G. A., Schunkert, H. Angiotensin-converting enzyme in the human heart. Effect of the deletion/insertion polymorphism. Circulation, (1995), 92, 1387-1388. – reference: 32) Nagashima, J., Musha, H., Takada, H., Awaya, T., Oba, H., Mori, N., Ohmiya, K., Nobuoka, S., Murayama, M. Influence of angiotensin-converting enzyme gene polymorphism on development of athlete’s heart. Clin. Cardiol., (2000), 23, 621-624. – reference: 30) Cam, S., Colakoglu, M., Colakoglu, S., Sekuri, C., Berdeli, A. ACE I/D gene polymorphism and aerobic endurance development in response to training in a non-elite female cohort. J. Sports. Med. Phys. Fitness., (2007), 47, 234-238. – reference: 3) Rigat, B., Hubert, C., Alhenc-Gelas, F., Cambien, F., Corvol, P., Soubrier, F. An insertion/deletion polymorphism in the angiotensin I-converting enzyme gene accounting for half the variance of serum enzyme levels. J. Clin. Invest., (1990), 86, 1343-1346. – reference: 29) Scott, R. A., Moran, C., Wilson, R. H., Onywera, V., Boit, M. K., Goodwin, W. H., Gohlke, P., Payne, J., Montgomery, H. E., Pitsiladis, Y. No association between angiotensin converting enzyme (ACE) gene vatiation and endurance athlete status in Kenyans. Comp. Biochem. Physiol. A Mol. Integr. Physiol., (2005), 141, 169-175. – reference: 31) Folland, J., Leach, B., Hawker, K., Myerson, S., Montgomery, H. E., Jones, D. Angiotensin-converting enzyme genotype affect the response of human skeletal muscle to functional overload. Exp. Physiol., (2000), 85, 575-579. – reference: 14) Dzau, V. J. Tissue rennin-angiotensin system : physiologic and pharmacologic implications. Introduction. Circulation, (1988), 77, I1-3. – reference: 6) Tobina, T., Ayabe, M., Yoshitake, Y., Kimura, Y., Miyazaki, H., Ishii, K., Zhang, B., Saku, K., Shindo, M., Kiyonaga, A., Tanaka, H. Relationship between angiotensin converting enzyme gene I/D polymorphism and muscle strength in elderly. Int. J. Sport. Health. Sci., (2006), 4, 460-464. – reference: 9) Vescova, G., Dalla Libera, L., Serafini, F., Leprotti, C., Facchin, L., Volterrani, M., Ceconi, C., Ambrosio, G. B. Improved exercise tolerance after losartan and enalapril in heart failure: correlation with changes in skeletal muscle myosin heavy chain composition. Circulation, (1998), 98, 1742-1749. – reference: 11) Onder, G., Penninx, B. W., Balkrishnan, R., Fried, L. P., Chaves, P. H., Williamson, J., Carter, C., Di Bari, M., Guralnik, J. M., Pahor, M. Relation between use of angiotensin-converting enzyme inhibitors and muscle strength and physical function in older women : an observational study. Lancet, (2002), 359, 926-930. – reference: 2) Montgomery, H. E., Marshall, R., Hemingway, H., Myerson, S., Clarkson, P., Dollery, C., Hayward, M., Holliman, D. E., Jubb, M., World, M., Thomas, E. L., Brynes, A. E., Saeed, N., Barnard, M., Bell, J. D., Prasad, K., Rayson, M., Talmud, P. J., Humphries, S. E. Human gene for physical performance. Nature, (1998), 393, 221-222. – reference: 19) Myserson, S., Hemingway, H., Budget, R., Martin, J., Humphries, S., Montgomery, H. E. Human angiotensin I-converting enzyme gene and endurance performance. J. Appl. Physiol., (1999), 87, 1313-1316. – reference: 8) Tobina, T., Kiyonaga, A., Akagi, Y., Mori, Y., Ishii, K., Chiba, H., Shindo, M., Tanaka, H. Angiotensin I converting enzyme gene polymorphism and exercise trainability in elderly women : An electrocardiological approach. J. Sport. Sci. Med., (2007), 6, 220-226. – reference: 10) Schaufelberger, M., Andersson, G., Eriksson, B. O., Grimby, G., Held, P., Swedberg, K. Skeletal muscle changes in patients with chronic heart failure before and after treatment with enalapril. Eur. Heart. J., (1999), 17, 1678-1685. – reference: 1) Rankinen, T., Bray, M. S., Hagberg, J. M., Perusse, L., Roth, S. M., Wolfarth, B., Bouchard, C. The human gene map for performance and health-related fitness phenotypes : The 2005 update. Med. Sci. Sport. Exerc., (2006), 38, 1863-1888.
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Title	アンジオテンシン I 変換酵素遺伝子挿入/欠失多型と身体能力
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