Pharmacological vascular reactivity in isolated diabetic rabbit ciliary artery

Impairment of the ocular circulation induced by diabetes mellitus has not been fully defined, but is thought to be related to hemodynamic changes in the ocular circulation. The purpose of the present study is to investigate the functional and morphological changes occurring in the ciliary artery wal...

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Published in:Experimental eye research 2006-12, Vol.83 (6), p.1317-1324
Main Authors: Goseki, Toshiaki, Ishikawa, Hitoshi, Nishimoto, Hisaharu, Mashimo, Kimiyo, Uga, Shigekazu, Yoshitomi, Takeshi, Shimizu, Kimiya
Format: Article
Language:English
Subjects:
alloxan
Animals
Carbachol - pharmacology
Ciliary Arteries - drug effects
Ciliary Arteries - physiopathology
Ciliary Arteries - ultrastructure
ciliary artery
diabetes mellitus
Diabetes Mellitus, Experimental - pathology
Diabetes Mellitus, Experimental - physiopathology
Diabetic Angiopathies - pathology
Diabetic Angiopathies - physiopathology
Dose-Response Relationship, Drug
Isotonic Solutions - pharmacology
Microscopy, Electron
ocular circulation
Phenylephrine - pharmacology
Potassium - pharmacology
rabbit
Rabbits
vasoconstriction
Vasoconstriction - drug effects
Vasoconstrictor Agents - pharmacology
vasodilatation
Vasodilation - drug effects
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container_issue 6
container_start_page 1317
container_title Experimental eye research
container_volume 83
creator Goseki, Toshiaki
Ishikawa, Hitoshi
Nishimoto, Hisaharu
Mashimo, Kimiyo
Uga, Shigekazu
Yoshitomi, Takeshi
Shimizu, Kimiya
description Impairment of the ocular circulation induced by diabetes mellitus has not been fully defined, but is thought to be related to hemodynamic changes in the ocular circulation. The purpose of the present study is to investigate the functional and morphological changes occurring in the ciliary artery wall of rabbits with alloxan-induced diabetes mellitus. A single intravenous bolus injection of alloxan (100 mg/kg) was given to each of 26 10-week-old rabbits and 16 sham-injected control rabbits. Twenty weeks later, control rabbits and diabetic rabbits were sacrificed, and their ciliary arteries were mounted in a myograph system. The responses of these arteries to high K + solution (K-Krebs solution), phenylephrine and carbachol were investigated using isometric tension recording. L-NAME ( NG-nitro- l-arginine methyl ester; 100 μM) and indomethacin (1 μM) were also used to test the mechanism causing the carbachol induced relaxation. The arteries were also examined morphologically. The maximum tensions induced by K-Krebs solution in this tissue were not significantly different: 17.2 ± 0.8 mN ( n = 16) in the control rabbits and 17.6 ± 0.8 mN ( n = 23) in the diabetic rabbits ( P = 0.36). Phenylephrine caused dose-dependent contraction with EC 50 values of 1.3 ± 0.4 μM ( n = 6) in the control and 5.1 ± 2.3 μM ( n = 6) in the diabetic rabbits, but there was no significant difference between the two ( P = 0.36). Carbachol induced dose-dependent relaxations in segments precontracted with K-Krebs solution. These relaxations were significantly reduced in the diabetic rabbits. The maximum relaxation induced by carbachol was 77.0 ± 2.4% (10 μM) and 66.4 ± 2.5% (100 μM) in the control and diabetic rabbits, respectively. These values were significantly different ( P = 0.0076). The IC 50 value for carbachol was 396.3 ± 58.4 nM ( n = 16) in the control, and 443.6 ± 141.1 nM ( n = 23) in the diabetic rabbit ( P = 0.87). Application of a 100 μM nitric oxide synthase inhibitor, L-NAME, significantly inhibited the amplitude of relaxations evoked by carbachol ( P = 0.0066). However, these relaxations were not inhibited by pretreatment with 1 μM indomethacin ( P = 0.60). Histologically, the frequency of invaginations was less in the diabetic arterioles with a flattening of the lamina in the diabetic rabbits than in the controls. The cytoplasm of endothelial cells contained large vacuoles, indicating weak adhesion to the lamina. Some endothelial cells even showed vacuolar degenerati
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The purpose of the present study is to investigate the functional and morphological changes occurring in the ciliary artery wall of rabbits with alloxan-induced diabetes mellitus. A single intravenous bolus injection of alloxan (100 mg/kg) was given to each of 26 10-week-old rabbits and 16 sham-injected control rabbits. Twenty weeks later, control rabbits and diabetic rabbits were sacrificed, and their ciliary arteries were mounted in a myograph system. The responses of these arteries to high K + solution (K-Krebs solution), phenylephrine and carbachol were investigated using isometric tension recording. L-NAME ( NG-nitro- l-arginine methyl ester; 100 μM) and indomethacin (1 μM) were also used to test the mechanism causing the carbachol induced relaxation. The arteries were also examined morphologically. The maximum tensions induced by K-Krebs solution in this tissue were not significantly different: 17.2 ± 0.8 mN ( n = 16) in the control rabbits and 17.6 ± 0.8 mN ( n = 23) in the diabetic rabbits ( P = 0.36). Phenylephrine caused dose-dependent contraction with EC 50 values of 1.3 ± 0.4 μM ( n = 6) in the control and 5.1 ± 2.3 μM ( n = 6) in the diabetic rabbits, but there was no significant difference between the two ( P = 0.36). Carbachol induced dose-dependent relaxations in segments precontracted with K-Krebs solution. These relaxations were significantly reduced in the diabetic rabbits. The maximum relaxation induced by carbachol was 77.0 ± 2.4% (10 μM) and 66.4 ± 2.5% (100 μM) in the control and diabetic rabbits, respectively. These values were significantly different ( P = 0.0076). The IC 50 value for carbachol was 396.3 ± 58.4 nM ( n = 16) in the control, and 443.6 ± 141.1 nM ( n = 23) in the diabetic rabbit ( P = 0.87). Application of a 100 μM nitric oxide synthase inhibitor, L-NAME, significantly inhibited the amplitude of relaxations evoked by carbachol ( P = 0.0066). However, these relaxations were not inhibited by pretreatment with 1 μM indomethacin ( P = 0.60). Histologically, the frequency of invaginations was less in the diabetic arterioles with a flattening of the lamina in the diabetic rabbits than in the controls. The cytoplasm of endothelial cells contained large vacuoles, indicating weak adhesion to the lamina. Some endothelial cells even showed vacuolar degeneration due to breakdown of the cell membranes. However, the smooth muscle cells were well preserved in the diabetic rabbit. These results suggest that the mechanism of impairment of ocular circulation induced by diabetes mellitus is mainly the reduction of NO synthase due to endothelial cell dysfunction. 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The purpose of the present study is to investigate the functional and morphological changes occurring in the ciliary artery wall of rabbits with alloxan-induced diabetes mellitus. A single intravenous bolus injection of alloxan (100 mg/kg) was given to each of 26 10-week-old rabbits and 16 sham-injected control rabbits. Twenty weeks later, control rabbits and diabetic rabbits were sacrificed, and their ciliary arteries were mounted in a myograph system. The responses of these arteries to high K + solution (K-Krebs solution), phenylephrine and carbachol were investigated using isometric tension recording. L-NAME ( NG-nitro- l-arginine methyl ester; 100 μM) and indomethacin (1 μM) were also used to test the mechanism causing the carbachol induced relaxation. The arteries were also examined morphologically. 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Application of a 100 μM nitric oxide synthase inhibitor, L-NAME, significantly inhibited the amplitude of relaxations evoked by carbachol ( P = 0.0066). However, these relaxations were not inhibited by pretreatment with 1 μM indomethacin ( P = 0.60). Histologically, the frequency of invaginations was less in the diabetic arterioles with a flattening of the lamina in the diabetic rabbits than in the controls. The cytoplasm of endothelial cells contained large vacuoles, indicating weak adhesion to the lamina. Some endothelial cells even showed vacuolar degeneration due to breakdown of the cell membranes. However, the smooth muscle cells were well preserved in the diabetic rabbit. These results suggest that the mechanism of impairment of ocular circulation induced by diabetes mellitus is mainly the reduction of NO synthase due to endothelial cell dysfunction. 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The purpose of the present study is to investigate the functional and morphological changes occurring in the ciliary artery wall of rabbits with alloxan-induced diabetes mellitus. A single intravenous bolus injection of alloxan (100 mg/kg) was given to each of 26 10-week-old rabbits and 16 sham-injected control rabbits. Twenty weeks later, control rabbits and diabetic rabbits were sacrificed, and their ciliary arteries were mounted in a myograph system. The responses of these arteries to high K + solution (K-Krebs solution), phenylephrine and carbachol were investigated using isometric tension recording. L-NAME ( NG-nitro- l-arginine methyl ester; 100 μM) and indomethacin (1 μM) were also used to test the mechanism causing the carbachol induced relaxation. The arteries were also examined morphologically. The maximum tensions induced by K-Krebs solution in this tissue were not significantly different: 17.2 ± 0.8 mN ( n = 16) in the control rabbits and 17.6 ± 0.8 mN ( n = 23) in the diabetic rabbits ( P = 0.36). Phenylephrine caused dose-dependent contraction with EC 50 values of 1.3 ± 0.4 μM ( n = 6) in the control and 5.1 ± 2.3 μM ( n = 6) in the diabetic rabbits, but there was no significant difference between the two ( P = 0.36). Carbachol induced dose-dependent relaxations in segments precontracted with K-Krebs solution. These relaxations were significantly reduced in the diabetic rabbits. The maximum relaxation induced by carbachol was 77.0 ± 2.4% (10 μM) and 66.4 ± 2.5% (100 μM) in the control and diabetic rabbits, respectively. These values were significantly different ( P = 0.0076). The IC 50 value for carbachol was 396.3 ± 58.4 nM ( n = 16) in the control, and 443.6 ± 141.1 nM ( n = 23) in the diabetic rabbit ( P = 0.87). Application of a 100 μM nitric oxide synthase inhibitor, L-NAME, significantly inhibited the amplitude of relaxations evoked by carbachol ( P = 0.0066). However, these relaxations were not inhibited by pretreatment with 1 μM indomethacin ( P = 0.60). Histologically, the frequency of invaginations was less in the diabetic arterioles with a flattening of the lamina in the diabetic rabbits than in the controls. The cytoplasm of endothelial cells contained large vacuoles, indicating weak adhesion to the lamina. Some endothelial cells even showed vacuolar degeneration due to breakdown of the cell membranes. However, the smooth muscle cells were well preserved in the diabetic rabbit. These results suggest that the mechanism of impairment of ocular circulation induced by diabetes mellitus is mainly the reduction of NO synthase due to endothelial cell dysfunction. Furthermore, the characteristics of rabbits with alloxan-induced diabetes mellitus probably make them a useful model for investigating ocular complications induced by diabetic mellitus.</abstract><cop>England</cop><pub>Elsevier Ltd</pub><pmid>16979623</pmid><doi>10.1016/j.exer.2006.06.001</doi><tpages>8</tpages></addata></record>
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subjects alloxan
Animals
Carbachol - pharmacology
Ciliary Arteries - drug effects
Ciliary Arteries - physiopathology
Ciliary Arteries - ultrastructure
ciliary artery
diabetes mellitus
Diabetes Mellitus, Experimental - pathology
Diabetes Mellitus, Experimental - physiopathology
Diabetic Angiopathies - pathology
Diabetic Angiopathies - physiopathology
Dose-Response Relationship, Drug
Isotonic Solutions - pharmacology
Microscopy, Electron
ocular circulation
Phenylephrine - pharmacology
Potassium - pharmacology
rabbit
Rabbits
vasoconstriction
Vasoconstriction - drug effects
Vasoconstrictor Agents - pharmacology
vasodilatation
Vasodilation - drug effects
title Pharmacological vascular reactivity in isolated diabetic rabbit ciliary artery
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