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Zingiber officinale (ZO) is an important plant with several medicinal, nutritional and ethnomedical values. The blood pressure lowering effect of ZO has been reported in experimental animals and human and some mechanisms have been postulated, includin...
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RISS 인기검색어
Vaso‐relaxant Effect of Zingiber officinale Extract Involves Release of Nitric Oxide from the Endothelium
한글로보기https://www.riss.kr/link?id=O112948797
- 저자
- 발행기관
- 학술지명
- 권호사항
-
발행연도
2020년
-
작성언어
-
-
Print ISSN
0892-6638
-
Online ISSN
1530-6860
-
등재정보
SCI;SCIE;SCOPUS
-
자료형태
학술저널
-
수록면
1-1 [※수록면이 p5 이하이면, Review, Columns, Editor's Note, Abstract 등일 경우가 있습니다.]
-
구독기관
- 전북대학교 중앙도서관
- 성균관대학교 중앙학술정보관
- 부산대학교 중앙도서관
- 전남대학교 중앙도서관
- 제주대학교 중앙도서관
- 중앙대학교 서울캠퍼스 중앙도서관
- 인천대학교 학산도서관
- 숙명여자대학교 중앙도서관
- 서강대학교 로욜라중앙도서관
- 충남대학교 중앙도서관
- 한양대학교 백남학술정보관
- 이화여자대학교 중앙도서관
- 고려대학교 도서관
-
0
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부가정보
다국어 초록 (Multilingual Abstract)
Zingiber officinale (ZO) is an important plant with several medicinal, nutritional and ethnomedical values. The blood pressure lowering effect of ZO has been reported in experimental animals and human and some mechanisms have been postulated, including; blockage of voltage dependent calcium channel, stimulation of muscarinic receptors and serotonergic antagonistic property. The aim of this study is to investigate the vaso‐relaxant effect of the extract of ZO and the mechanism by which it is produced.
Rhizomes of ZO were extracted in 80% methanol. Thoracic aorta isolated from male rabbits were cut into rings of 3–5 mm, mounted in organ baths containing 25 ml Krebs physiological solution maintained at 37 °C and bubbled continuously with a mixture of 95% O2 and 5% CO2. The aortic rings were equilibrated for 30 min at a resting tension of 1 g. Responses were recorded isometrically via a force displacement transducer connected to a recording system. The presence of functional endothelium was checked by the ability of acetylcholine (1μM) to induce relaxation on phenylepherine (PE, 1μM) contracted rings. The relaxant responses to ZO was recorded by adding cumulative concentrations (10, 20, 40, 80, 100, 500, 1000 μg/ml) of ZO. To investigate the involvement of endothelium in the vaso‐relaxant action, endothelium was removed by gently rubbing the luminal surface of the ring with a polyethylene tube. To investigate which endothelium‐derived vasorelaxant factors were involved, the rings were pre‐incubated with Nitro‐L‐arginine methyl ester (L‐NAME, 10 μM) or indomethacin (10 μM) for 30 min before addition of the spasmogen and ZO. Relaxant responses were expressed as percentage relaxation from PE‐precontraction levels. The EC50 (the concentration required to cause half‐maximal relaxation) was calculated from the concentration‐response curve. Results were expressed as means ± s.e.m. Student t‐test was used to assess the significant differences at (p < 0.05)
ZO produced a vaso‐relaxation effect on rings pre‐contracted with PE (1μM) at concentrations of 20–100 μg/ml in endothelium intact rings with an EC50 of 14.8±1.2 μg/ml (Figure
1). This relaxation was not however seen at 500–1000 μg/ml but rather a vaso‐contraction was observed. In endothelium denuded rings, the vaso‐relaxation effect of ZO at 20–100 μg/ml was abolished while vaso‐relaxation was observed with 500–1000 μg/ml, the concentrations that otherwise produced contraction in endothelium intact aortic rings. Pre‐incubation of the tissues with L‐NAME (10μM) abolished the relaxant effect of ZO at 20–100μg/ml but caused relaxation effect with 500–1000 μg/ml similar to that observed with endothelium denuded rings. Pretreatment with indomethacin abolished the relaxant effect of ZO at 20μg/ml but not at 40 μg/ml and above (Figure
2).
Vaso‐relaxant effect of ZO is seen at lower concentrations, endothelium dependent and may involve the release of nitric oxide from the endothelium. There may be interplay between contractile and relaxant compounds in crude extract of ZO at concentrations above 500 μg/ml.
The PhD study grant awarded to I.M Adebisi by Usmanu Danfodiyo University, Sokoto, Nigeria is acknowledged
Relaxation effect of methanol extract of Zingiber officinale (ZO) on phenylephrine‐precontracted aortic rings with intact endothelium. Data represent the mean ± s.e.m. of four individual experiments. * is p<0.05
Relaxation effect of methanol extract of Zingiber officinale (ZO) on phenylephrine‐precontracted aortic rings with endothelium, without endothelium and effect of L‐NAME (10 μM), and Indomethacin (10 μM) on ZO induced vasorelaxation on phenylephrine‐precontracted aortic rings with endothelium. Data represent the mean ± s.e.m. of four individual experiments. * is p<0.05
Rhizomes of ZO were extracted in 80% methanol. Thoracic aorta isolated from male rabbits were cut into rings of 3–5 mm, mounted in organ baths containing 25 ml Krebs physiological solution maintained at 37 °C and bubbled continuously with a mixture of 95% O2 and 5% CO2. The aortic rings were equilibrated for 30 min at a resting tension of 1 g. Responses were recorded isometrically via a force displacement transducer connected to a recording system. The presence of functional endothelium was checked by the ability of acetylcholine (1μM) to induce relaxation on phenylepherine (PE, 1μM) contracted rings. The relaxant responses to ZO was recorded by adding cumulative concentrations (10, 20, 40, 80, 100, 500, 1000 μg/ml) of ZO. To investigate the involvement of endothelium in the vaso‐relaxant action, endothelium was removed by gently rubbing the luminal surface of the ring with a polyethylene tube. To investigate which endothelium‐derived vasorelaxant factors were involved, the rings were pre‐incubated with Nitro‐L‐arginine methyl ester (L‐NAME, 10 μM) or indomethacin (10 μM) for 30 min before addition of the spasmogen and ZO. Relaxant responses were expressed as percentage relaxation from PE‐precontraction levels. The EC50 (the concentration required to cause half‐maximal relaxation) was calculated from the concentration‐response curve. Results were expressed as means ± s.e.m. Student t‐test was used to assess the significant differences at (p < 0.05)
ZO produced a vaso‐relaxation effect on rings pre‐contracted with PE (1μM) at concentrations of 20–100 μg/ml in endothelium intact rings with an EC50 of 14.8±1.2 μg/ml (Figure
1). This relaxation was not however seen at 500–1000 μg/ml but rather a vaso‐contraction was observed. In endothelium denuded rings, the vaso‐relaxation effect of ZO at 20–100 μg/ml was abolished while vaso‐relaxation was observed with 500–1000 μg/ml, the concentrations that otherwise produced contraction in endothelium intact aortic rings. Pre‐incubation of the tissues with L‐NAME (10μM) abolished the relaxant effect of ZO at 20–100μg/ml but caused relaxation effect with 500–1000 μg/ml similar to that observed with endothelium denuded rings. Pretreatment with indomethacin abolished the relaxant effect of ZO at 20μg/ml but not at 40 μg/ml and above (Figure
2).
Vaso‐relaxant effect of ZO is seen at lower concentrations, endothelium dependent and may involve the release of nitric oxide from the endothelium. There may be interplay between contractile and relaxant compounds in crude extract of ZO at concentrations above 500 μg/ml.
The PhD study grant awarded to I.M Adebisi by Usmanu Danfodiyo University, Sokoto, Nigeria is acknowledged
Relaxation effect of methanol extract of Zingiber officinale (ZO) on phenylephrine‐precontracted aortic rings with intact endothelium. Data represent the mean ± s.e.m. of four individual experiments. * is p<0.05
Relaxation effect of methanol extract of Zingiber officinale (ZO) on phenylephrine‐precontracted aortic rings with endothelium, without endothelium and effect of L‐NAME (10 μM), and Indomethacin (10 μM) on ZO induced vasorelaxation on phenylephrine‐precontracted aortic rings with endothelium. Data represent the mean ± s.e.m. of four individual experiments. * is p<0.05
Zingiber officinale (ZO) is an important plant with several medicinal, nutritional and ethnomedical values. The blood pressure lowering effect of ZO has been reported in experimental animals and human and some mechanisms have been postulated, including; blockage of voltage dependent calcium channel, stimulation of muscarinic receptors and serotonergic antagonistic property. The aim of this study is to investigate the vaso‐relaxant effect of the extract of ZO and the mechanism by which it is produced.
Rhizomes of ZO were extracted in 80% methanol. Thoracic aorta isolated from male rabbits were cut into rings of 3–5 mm, mounted in organ baths containing 25 ml Krebs physiological solution maintained at 37 °C and bubbled continuously with a mixture of 95% O2 and 5% CO2. The aortic rings were equilibrated for 30 min at a resting tension of 1 g. Responses were recorded isometrically via a force displacement transducer connected to a recording system. The presence of functional endothelium was checked by the ability of acetylcholine (1μM) to induce relaxation on phenylepherine (PE, 1μM) contracted rings. The relaxant responses to ZO was recorded by adding cumulative concentrations (10, 20, 40, 80, 100, 500, 1000 μg/ml) of ZO. To investigate the involvement of endothelium in the vaso‐relaxant action, endothelium was removed by gently rubbing the luminal surface of the ring with a polyethylene tube. To investigate which endothelium‐derived vasorelaxant factors were involved, the rings were pre‐incubated with Nitro‐L‐arginine methyl ester (L‐NAME, 10 μM) or indomethacin (10 μM) for 30 min before addition of the spasmogen and ZO. Relaxant responses were expressed as percentage relaxation from PE‐precontraction levels. The EC50 (the concentration required to cause half‐maximal relaxation) was calculated from the concentration‐response curve. Results were expressed as means ± s.e.m. Student t‐test was used to assess the significant differences at (p < 0.05)
ZO produced a vaso‐relaxation effect on rings pre‐contracted with PE (1μM) at concentrations of 20–100 μg/ml in endothelium intact rings with an EC50 of 14.8±1.2 μg/ml (Figure
1). This relaxation was not however seen at 500–1000 μg/ml but rather a vaso‐contraction was observed. In endothelium denuded rings, the vaso‐relaxation effect of ZO at 20–100 μg/ml was abolished while vaso‐relaxation was observed with 500–1000 μg/ml, the concentrations that otherwise produced contraction in endothelium intact aortic rings. Pre‐incubation of the tissues with L‐NAME (10μM) abolished the relaxant effect of ZO at 20–100μg/ml but caused relaxation effect with 500–1000 μg/ml similar to that observed with endothelium denuded rings. Pretreatment with indomethacin abolished the relaxant effect of ZO at 20μg/ml but not at 40 μg/ml and above (Figure
2).
Vaso‐relaxant effect of ZO is seen at lower concentrations, endothelium dependent and may involve the release of nitric oxide from the endothelium. There may be interplay between contractile and relaxant compounds in crude extract of ZO at concentrations above 500 μg/ml.
The PhD study grant awarded to I.M Adebisi by Usmanu Danfodiyo University, Sokoto, Nigeria is acknowledged
Relaxation effect of methanol extract of Zingiber officinale (ZO) on phenylephrine‐precontracted aortic rings with intact endothelium. Data represent the mean ± s.e.m. of four individual experiments. * is p<0.05
Relaxation effect of methanol extract of Zingiber officinale (ZO) on phenylephrine‐precontracted aortic rings with endothelium, without endothelium and effect of L‐NAME (10 μM), and Indomethacin (10 μM) on ZO induced vasorelaxation on phenylephrine‐precontracted aortic rings with endothelium. Data represent the mean ± s.e.m. of four individual experiments. * is p<0.05
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