S Kim scite author profile

To investigate the role of angiotensin II (Ang II) in hypertension-induced tissue injury, we gave TCV-116 (1 mg/kg per day PO), a nonpeptide Ang II type I receptor antagonist, or enalapril (10 mg/kg per day PO) to deoxycorticosterone acetate (DOCA)-salt hypertensive rats for 3 weeks and examined the effects on tissue mRNA levels for transforming growth factor-01 (TGF-/31) and extracellular matrix components. Tissue mRNA levels were measured by Northern blot analysis. Renal mRNA levels for TGF-/31; types I, III, and IV collagen; and fibronectin in DOCA-salt hypertensive rats were increased by severalfold (P<.01) compared with sham-operated rats. In the aorta of DOCAsalt hypertensive rats, TGF-01 and fibronectin mRNA levels were increased, but types I, III, and IV collagen mRNAs did not increase. In the heart, increased mRNA was found only for fibronectin. Thus, these gene expressions are regulated in T he mechanism of development of hypertensionmediated renal injury remains to be determined, although hypertensive nephrosclerosis is one of the most important causes of end-stage renal failure. 13 Investigations on the effect of angiotensinconverting enzyme (ACE) inhibitors 48 or angiotensin II (Ang II) receptor antagonists 811 on various renal diseases in humans and animals indicate that the reninangiotensin system (RAS) participates in progressive renal injury as well as hypertension. Hemodynamic effects, such as the reduction of intraglomerular pressure by inhibition of the RAS, have been shown to contribute to a renal protective effect. 4 -5 ' 10 However, recent studies have shown that the mechanism of renal protection by ACE inhibitors can also be partly attributed to unknown mechanisms other than the hemodynamic effect. 12 -13 Furthermore, accumulating evidence shows that a local RAS exists in the kidney and supports the notion that an intrarenal RAS, independent of the

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Dominant-negative mutant of c-Jun gene transfer: a novel therapeutic strategy for colorectal cancer

Suto

Tominaga

Mizuguchi

et al. 2004

Gene Ther

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Dominant negative c-Jun gene transfer inhibits vascular smooth muscle cell proliferation and neointimal hyperplasia in rats

et al. 2001

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Pituitary‐dependent expression of the testicular angiotensin II receptor and its subtypes in rats

et al. 1998

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Angiotensin II (AT2) has been implicated in the growth and/or differentiation of its target tissues. In the present study, testicular AT2 receptor and its subtypes in hypophysectomized rats were examined using quantitative in vitro autoradiography and Northern blot analysis in an attempt to determine possible involvement of pituitary hormones in their expression. Prepubescent (3 weeks of age) male Sprague-Dawley rats underwent hypophysectomy or sham operation. From 10 days thereafter, they were treated with vehicle, growth hormone, human chorionic gonadotrophin or human menopausal gonadotrophin for 10 days. Testicular AT2 receptors were labelled with 125I-[Sar1,Ile8] AT2 and differentiated into its subtypes (AT1 and FAT2) according to their susceptibility to AT1 (losartan, 5 microM) and AT2 (CGP42112B, 1 microM) antagonists. Hypophysectomy led to a marked increase in AT2 receptor concentration (sham-operated rats: 0.7 +/- 0.2 fmol/mg protein, hypophysectomized rats: 2.5 +/- 0.6 fmol/mg protein, mean +/- SEM, n = 11-12, p < 0.01) with predominant occurrence of AT1 receptors. Both human chorionic gonadotrophin and human menopausal gonadotrophin decreased testicular AT2 receptor concentration, whereas growth hormone did not affect AT2 receptor expression. Northern blot analysis revealed both testicular AT1 and AT2 receptor mRNA expression to be significantly increased after hypophysectomy and reduced by gonadotrophin treatment. These results suggest that the expression of testicular AT2 receptors is regulated by pituitary gonadotrophins and that AT2 may play a role in testicular growth and/or differentiation.

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Similarity between physicochemical properties of recombinant rat prorenin and native inactive renin

Hosoi

Kim

Yamauchi

et al. 1991

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Rat prorenin was synthesized by Chinese-hamster ovary cells transfected with an expression vector containing rat preprorenin cDNA sequences, then purified by concanavalin A-Sepharose chromatography and h.p.l.c. on G3000SW. The molecular mass of purified prorenin was 46,000 Da, as determined by h.p.l.c. on G3000SW. Immunoblot analysis indicated that recombinant prorenin cross-reacted with anti-(mature renin) antibody and two kinds of antibodies recognizing the N-terminus and C-terminus of the prosegment of rat prorenin. Recombinant prorenin was bound to a Cibacron Blue-Sepharose column and eluted with 1.4 M-NaCl, but was not retained by an octapeptide renin inhibitor (H-77)-Sepharose column. Trypsin activation of prorenin increased the renin activity 110-fold, caused binding to an H-77-Sepharose column and nullified the reactivity to the above two kinds of anti-prosegment antibodies, findings indicating that the activation of prorenin with trypsin is due to the cleavage of the prosegment. Rat plasma inactive renin, partially purified by h.p.l.c. on G3000SW, had much the same physicochemical characteristics as the recombinant prorenin. These results provide evidence that rat plasma inactive renin is prorenin. Recombinant prorenin is a useful material for examining the physiological role of circulating prorenin.

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S Kim

Role of angiotensin II in renal injury of deoxycorticosterone acetate-salt hypertensive rats.

Dominant-negative mutant of c-Jun gene transfer: a novel therapeutic strategy for colorectal cancer

Dominant negative c-Jun gene transfer inhibits vascular smooth muscle cell proliferation and neointimal hyperplasia in rats

Pituitary‐dependent expression of the testicular angiotensin II receptor and its subtypes in rats

Similarity between physicochemical properties of recombinant rat prorenin and native inactive renin

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