Keiichi Sugimura

Significant role of the increase in renin-angiotensin system in cardiac hypertrophy and renal glomerular sclerosis in double transgenic tsukuba hypertensive mice carrying both human renin and angiotensinogen genes.

Tsukuba hypertensive mice (THM) are a hypertensive model prepared by mating a transgenic mice with human renin gene and a transgenic mice with human angiotensinogen gene. In the present study, we examined effects of renin-angiotensin system (RAS) on cardiac hypertrophy and renal disorders using Tsukuba hypertensive mice. While THM showed an increase of about 30 mmHg in systolic pressure compared to C57BL/6 mice employed as normal control animals, the increase in blood pressure was not observed in the mice to which either gene was transferred. Urinary volume, water intake volume, urinary albumin excretion, heart to body weight ratio and renal glomerular sclerosis index increased significantly in THM, but none of these parameters showed a significant difference from the C57 mice when they were examined in mice to which either of the genes was transferred. In contrast, when lisinopril was administered to THM, all the parameters decreased significantly without lowering the systolic pressure. From these findings, it was demonstrated that RAS was playing a significant role in cardiac hypertrophy and renal disorders of THM and that lisinopril had inhibitory effects on cardiac hypertrophy and renal glomerular sclerosis by inhibiting RAS.

Tissue-localized angiotensin II enhances cardiac and renal disorders in Tsukuba hypertensive mice.

Objective To evaluate the relation of tissue-localized angiotensin II (Ang II) concentration with cardiac hypertrophy and glomerulosclerosis in Tsukuba hypertensive mice (THM) carrying both human renin and angiotensinogen genes. Design Thirty THM aged 12 weeks were distributed equally to a lisinopril dosage group, a hydralazine dosage group, and an untreated group. Ten age-matched C57BL/6 mice were used as normal controls. Administration was performed for 8 weeks from 12 weeks of age. All mice were euthanized at 20 week of age, and the heart-to-body weight ratio, the renal glomerulosclerosis score, tissue Ang II concentration and tissue catecholamine concentration were measured. Results In the untreated group, a significant increase in every examination item was found as compared with that in C57BL/6 mice. In the lisinopril group, the observed value of every item was significantly lower than that in the untreated group. In the hydralazine group, tissue Ang II and catecholamine concentrations and the heart-to-body weight ratio were not different from those in the untreated group. Although the glomerulosclerosis score in the hydralazine group was significantly less than that in the untreated group, this was significantly higher than that in the lisinopril group. Conclusion Tissue Ang II concentration is more important than hypertension in causing cardiac hypertrophy, and both tissue Ang II level and hypertension are important in causing glomerulosclerosis in THM.

Enhanced angiotensin II stimulates renal disorders in transgenic Tsukuba hypertensive mice.

Tsukuba hypertensive mice (THMs) are transgenic mice carrying human renin-angiotensin system (RAS) genes. The aim of this study is to evaluate whether renal disorders are present in THMs. Twenty-week-old THMs and C57BL/6 mice (C57s) were used for this study. Each group consisted of 8 mice. Systolic blood pressure, urinary volume, water intake and urinary albumin excretion were measured in each mouse. Each mouse was then euthanized, and the renal glomerulosclerosis index and glomerular size were measured. Systolic blood pressure of THMs was about 40 mmHg higher than that of C57s. Urinary volume, water intake and urinary albumin excretion were significantly higher in THMs than in C57s. The renal glomerulosclerosis index and glomerular size were also significantly higher in THMs than in C57s. These results suggested that an enhanced renin-angiotensin system, including its hypertensive effects, stimulates albuminuria, renal glomerulosclerosis and glomerular hypertrophy in THMs.