Your search keyword '"Akiyoshi, Junko"' showing total 2 results

1. Mechanism of Rho-kinase-mediated Ca2+-independent contraction in aganglionic smooth muscle in a rat model of Hirschsprung's disease.

Author

Akiyoshi J, Ieiri S, Nakatsuji T, and Taguchi T

Subjects

Animals, Colon, Disease Models, Animal, In Vitro Techniques, Rats, Calcium physiology, Hirschsprung Disease physiopathology, Muscle Contraction physiology, Muscle, Smooth physiopathology, rho-Associated Kinases physiology

Abstract

Purpose: Lack of ganglion cells is the main cause of bowel movement disorder in Hirschsprung's disease. Because smooth muscle is the primary organ, the properties of intestinal smooth muscle need to be investigated. We therefore investigated the reactivity of the contractile system and the mechanism of contraction in aganglionic intestinal smooth muscle., Methods: Colonic smooth muscle strips from endothelin-B receptor gene-deficient [EDNRB(-/-)] rats were loaded with the Ca(2+) indicator dye fura-PE3/AM and changes in fluorescence intensity were monitored. The intracellular calcium concentration ([Ca(2+)]i) and force development in the strips were measured simultaneously., Results: The force induced by 10 microM substance P (SP) was higher than that induced by 60 mM K(+) depolarization (control), whereas [Ca(2+)]i elevation induced by 10 microM SP was less than that induced by 60 mM K(+) in all segments. Pretreatment with the Rho-kinase inhibitor Y-27632 inhibited force development more strongly in EDNRB(-/-) aganglionic segments than in EDNRB(+/+) ganglionic segments. However, [Ca(2+)]i was higher in EDNRB(-/-) aganglionic segments than in EDNRB(+/+) ganglionic segments., Conclusions: The Ca(2+)-independent pathway involving Rho-kinase was hyperactivated in EDNRB(-/-) aganglionic segments. This phenomenon is assumed to compensate for Ca(2+) channel downregulation and Ca(2+)-dependent contraction. From a clinical point of view, the motility of aganglionic intestine would be controllable with the control of Ca(2+)-independent contraction before definitive operations in Hirschsprung's disease.

Published

2009

2. Intracellular calcium mobilization of the aganglionic intestine in the endothelin B receptor gene –deficient rat.

Author

Nakatsuji, Takanori, Ieiri, Satoshi, Masumoto, Kouji, Akiyoshi, Junko, Taguchi, Tomoaki, and Suita, Sachiyo

Subjects

LABORATORY rats, HIRSCHSPRUNG'S disease, ENDOTHELINS, POLYMERASE chain reaction

Abstract

Abstract: Background and Aim: Up to now, numerous reports have analyzed the pathogenesis of Hirschsprung''s disease (HD) by means of physiologic, pathologic, or molecular biologic methods. However, very little is still known about the smooth muscle cell itself. The endothelin B receptor gene–deficient (EDNRB(−/−)) rat, which is suitable for research of HD, has an aganglionic segment of the total colon. Our purpose is to investigate the myogenic mechanisms using simultaneous measurements of the intracellular Ca2+ concentration ([Ca2+]i) and tension and reverse transcriptase polymerase chain reaction for L-type Ca2+ channel (L-VOC) expression. Methods: The muscle strips of the rat distal colon were loaded with a Ca2+ indicator dye, fura-PE3/AM, for 3 to 4 hours. The changes in the fluorescence intensity of Ca2+-fura-PE3 complex of the strips were monitored with a front surface fluorometer (CAM-230). The fluorescence intensities at 340- and 380-nm excitation and their ratio (F340/F380) were recorded as the level of [Ca2+]i. The comparison of L-VOC α1c subunit messenger RNA (mRNA) expression in both wild and homozygous rat was performed by reverse transcriptase polymerase chain reaction. Results: The peak levels of force development induced by carbachol were 139.1% ± 5.0% in EDNRB(−/−) rat, whereas the peak levels were 242.1% ± 27.7% in EDNRB(+/+) rat. The changes in the [Ca2+]i elevation induced by carbachol were 101.7% ± 12.2% in the homozygous rat, whereas these were 143.8% ± 8.9% in the wild-type rat. Both results in the homozygous rat significantly decreased in comparison with those of the wild rat (P < .05). The expression of the L-VOC channel mRNA also decreased in the homozygous rat. Conclusions: This is the first report to show the [Ca2+]i mobilization in the smooth muscles of the rat model of HD. The decrease in both [Ca2+]i and force development was thus considered to be due to the decrease in the Ca2+ channel expression. [Copyright &y& Elsevier]

Published

2007