UMLS:C0038454 - FACTA Search

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Intraventricular hemorrhage, or hemorrhage into the germinal matrix tissues of the developing brain, remains a common problem of preterm infants. The "risk period" for this insult is the first 3-4 postnatal days. We hypothesized that this risk period for hemorrhage is related to rapid perinatal maturation of the germinal matrix vasculature and employed the newborn beagle pup model for the study of this maturation. Newborn beagle pups (n = 30) were anesthetized and systemically perfused with buffered formalin; the brains were removed and prepared for immunohistochemical study. Sections stained with Bandeiraea lectin demonstrated that there was no difference in germinal matrix vessel density between postnatal days 1 and 4. Germinal matrix sections were also stained for antibodies to alpha-smooth muscle actin, collagen IV, collagen V, desmin, factor VIII-related antigen, fibronectin, glial fibrillary acidic protein, laminin, transferrin, and vimentin. Vasculature staining by alpha-smooth muscle actin was not noted until postnatal day 10, and differential staining was detected for antibodies to laminin and collagen V. Quantification of staining intensity by confocal microscopy demonstrated a significant increase in both extracellular matrix components at postnatal day 4 compared with day 1 (p less than 0.05 for both). These basement membrane proteins may add sufficient structural integrity to germinal matrix vessels to prevent capillary rupture and thus intraventricular hemorrhage.
Stroke 1991 Mar
PMID:Beagle pup germinal matrix maturation studies. 200 9

We have previously reported that renal mRNA levels for transforming growth factor-beta 1, fibronectin, and collagens were increased in 32-week-old stroke-prone spontaneously hypertensive rats (SHRSP) with severe nephrosclerosis. To elucidate the mechanism of hypertension-induced nephrosclerosis, we examined gene expression and localization of transforming growth factor-beta 1 and cellular phenotype in the kidney of 25-week-old SHRSP with moderate renal damage. Renal mRNA was measured by Northern blot analysis. The localization of transforming growth factor-beta 1 and cellular phenotype was determined by immunohistochemistry. In the kidney of 25-week-old SHRSP, renal transforming growth factor-beta 1 mRNA was elevated compared with Wistar-Kyoto rats (WKY), whereas renal collagen mRNAs of SHRSP were not increased. Immunoreactive transforming growth factor-beta 1 in SHRSP was mainly localized in glomerular cells. Furthermore, alpha-smooth muscle actin and desmin were significantly expressed in SHRSP glomerular cells, in contrast to negligible expression of these proteins in WKY. alpha-Smooth muscle actin staining was also observed in interstitial cells, and vimentin, another phenotypic marker, was expressed in atrophic tubular cells of SHRSP, despite no staining of these proteins in WKY. Furthermore, all these phenotypic changes in SHRSP were associated with increased cell proliferation, as shown by the increased number of proliferating cell nuclear antigen-positive cells. Treatment of SHRSP with cilazapril and nifedipine (from the age of 13 to 25 weeks) prevented the increase in transforming growth factor-beta 1 expression and the cellular phenotypic modulation and was accompanied by a reduction of urinary albumin excretion and inhibition of cell proliferation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Transforming growth factor-beta 1 expression and phenotypic modulation in the kidney of hypertensive rats. 754 81

We examined the effects of TCV-116, a non-peptide selective AT1 receptor antagonist, on cellular phenotype and on the expression of the transforming growth factor-beta 1 (TGF-beta 1) and extracellular matrix genes in the kidneys of stroke-prone spontaneously hypertensive rats (SHRSP). SHRSP were given vehicle or TCV-116 (10 mg/kg/day) by gastric gavage for 10 weeks (from the age of 22 to 32 weeks). Renal mRNA levels were measured by Northern blot analysis. In vehicle-treated 32-week-old SHRSP, urinary albumin excretion per 24 h was about 26-fold greater than that in age-matched Wistar-Kyoto (WKY) rats, and the mRNA levels of renal TGF-beta 1, fibronectin and collagen types I and III in SHRSP were all several-fold higher than those in WKY. Immunohistochemical studies showed the prominent presence of alpha-smooth muscle actin-expressing glomerular cells in SHRSP, in contrast to their absence in WKY. Treatment of SHRSP with TCV-116 decreased urinary albumin excretion and renal mRNA levels for TGF-beta 1 and for the above-mentioned extracellular matrix components. TCV-116 prevented the phenotypic modulation of glomerular cells in SHRSP. These results suggest that AT1 receptor antagonists may have powerful renal protective effects.
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PMID:Renal protective effect of TCV-116 in stroke-prone spontaneously hypertensive rats. 788 1

The aim of this study was to determine the phenotype of smooth muscle cells in the arteries of chronically hypertensive animals and to analyze the effects of treatments known to increase the survival of the animal without a clear effect on its hypertensive state. Stroke-prone spontaneously hypertensive rats (SHRSP) kept on a 1% sodium drinking solution were untreated or treated with one of two diuretics, indapamide (3 mg/kg per day) or hydrochlorothiazide (20 mg/kg per day), from 6 to 13 weeks of age. Phenotype was characterized by the immunolabeling of arteries with antibodies raised against a cellular form (EIIIA) of fibronectin, alpha-smooth muscle actin, and nonmuscle myosin. We demonstrated that phenotypes of smooth muscle cells of the SHRSP differ from those found in Wistar-Kyoto rats. The difference in phenotype is specific for the vessel type: ie, an increased expression of nonmuscle myosin in the aorta and of both EIIIA fibronectin and nonmuscle myosin in the coronary arteries. The two diuretics (1) had no effect on blood pressure, (2) prevented or did not prevent the increase in medial thickness, and (3) prevented changes in both smooth muscle cell phenotype and ischemic tissular lesions. Taken together, the results suggest that in SHRSP the changes in the phenotype of smooth muscle cells and the thickness of arteries are unrelated events. We propose that the maintenance of the contractile phenotype of the arterial smooth muscle cells could be an essential parameter involved in the prevention of the deleterious consequences characteristic of a severe hypertensive state.
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PMID:Arterial smooth muscle cell phenotype in stroke-prone spontaneously hypertensive rats. 822 26

Chronic nitric oxide inhibition exacerbates hypertension and nephrosclerosis in spontaneously hypertensive rats (SHRs). In this study, we determined whether angiotensin-converting enzyme (ACE) inhibition could prevent or reverse the systemic, renal, and glomerular hemodynamic alterations and the pathological changes of nephrosclerosis. Four groups of 20-week-old SHRs were studied: group 1, untreated controls; group 2, treated with N omega-nitro-L-arginine methyl ester (L-NAME, 50 mg/L for 3 weeks); group 3, L-NAME cotreated with quinapril (3 mg.kg-1.d-1 for 3 weeks); and group 4, L-NAME for 3 weeks followed by quinapril for 3 weeks (same doses). The results of this study demonstrated that both cotreatment (group 3) and posttreatment (group 4) with quinapril reduced mean arterial pressure (186 +/- 9 and 192 +/- 9 mm Hg, respectively, compared with group 2 SHRs, 221 +/- 5 mm Hg) and total peripheral resistance index associated with significant reductions in afferent and efferent arteriolar resistances; nephrosclerosis pathological scores; and urinary protein excretion (all at least P < .01). ACE inhibition also significantly increased stroke index, single-nephron glomerular filtration rate, and ultrafiltration coefficient compared with the L-NAME SHRs. Most notable were the findings that cotreatment with quinapril completely prevented the renal glomerular hemodynamic alterations with reduced glomerular capillary hydrostatic pressure and efferent arteriolar resistance compared with both the untreated and the L-NAME-treated SHRs (all at least P < .01). Posttreatment with quinapril also reversed the glomerular injury (subcapsular, -83%; juxtamedullary, -56%) and arteriolar (-87%) injury scores obtained from renal biopsy specimens (P < .005 and P < .0001, respectively). These changes were associated with decreased periarteriolar fibronectin and increased afferent arteriolar alpha-smooth muscle actin deposition (immunohistochemistry). These data, therefore, demonstrate that ACE inhibition not only prevents but also reverses L-NAME-exacerbated severe nephrosclerosis in SHRs, as indicated by improved systemic, renal, and glomerular hemodynamic changes, proteinuria, and histological alterations.
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PMID:ACE inhibition prevents and reverses L-NAME-exacerbated nephrosclerosis in spontaneously hypertensive rats. 856 38

The aim of this study was to determine the phenotypic modulation in mesangial cells of glomeruli damaged by hypertension. Salt-loaded stroke-prone spontaneously hypertensive rats were untreated or treated with a calcium antagonist, manidipine (2 mg/kg/day) for eight weeks. In normotensive Wistar-Kyoto rats, alpha-smooth muscle actin was not expressed in any glomerular cells and a non-muscle myosin heavy chain isoform, SMemb, was slightly expressed in glomerular visceral epithelial cells. In the untreated hypertensive rats, the glomeruli showed sclerosis to various degrees and expressed alpha-smooth muscle actin and SMemb. Normal expression of SMemb in the epithelial cells disappeared. Notably, alpha-smooth muscle actin-positive fibroblast-like cells appeared in the interstitium, especially around the Bowman's capsules. Manidipine ameliorated the glomerulosclerosis and reduced the expression of alpha-smooth muscle actin in mesangial cells. In conclusion, the mesangial cells changed their phenotypes and expressed alpha-smooth muscle actin and SMemb in the glomeruli during the development of hypertensive renal damage. These phenotypically changed mesangial cells are considered to be activated and to produce various kinds of cytokines and extracellular matrix, which leads to glomerulosclerosis. Manidipine attenuated the glomerular damage and the phenotypic changes. The functional relevance of phenotypic changes in these cells should be elucidated in future studies.
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PMID:Hypertensive glomerular damage as revealed by the expression of alpha-smooth muscle actin and non-muscle myosin. 874 46

In hypertensive vascular lesions, various pathologic changes are exhibited. To clarify the mechanisms responsible for this diversity of vascular lesions, we immunohistochemically examined hypertensive vascular lesions in stroke-prone spontaneously hypertensive rats with reference to the distribution of macrophage subsets. The brain, kidney, heart, and aorta were dissected from stroke-prone spontaneously hypertensive rats and Wistar-Kyoto rats at 8, 12, 16, and 20 weeks of age. Immunohistochemistry was performed with antibodies against the macrophage markers ED1, ED2, and OX42, the MHC class II antigen marker OX6, the T-lymphocyte markers CD4, CD5, and CD8, and other markers, such as alpha-smooth muscle actin, proliferating cell nuclear antigen, and von Willebrand factor. Fibrinoid necrosis was dominant in the brain, and fibrocellular proliferative lesions were dominant in the kidney. Immunohistochemically, the decreased intensity of alpha-smooth muscle actin immunostaining preceded the formation of vascular lesions. Although preexisting ED2-positive perivascular resident macrophages completely disappeared in fibrinoid necrosis, MHC class II-negative and ED1-positive macrophages were scattered around the lesion and showed phagocytosis in the brain, which indicates that macrophages in fibrinoid necrosis had extravasated and acted only as scavengers. In the kidney, there was extensive accumulation of MHC class II-positive and ED1-positive macrophages with T lymphocytes along the affected arteries. These inflammatory cells seemed to be supplied through the perivascular interstitial space, not through the endothelium, and the accumulation of these cells preceded the development of fibrocellular proliferative lesions. In the heart and aorta, macrophage accumulation was either absent or slight, and vascular lesions were rarely observed. These findings suggest that heterogeneity in the time course of macrophage infiltration and in the distribution of macrophage subsets among the vascular trees of various organs seems to be correlated with the diversity of hypertensive vascular lesions. Differences in the routes that supply macrophages and their functions may determine the pathologic changes in the vascular lesions.
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PMID:Heterogeneity in the appearance and distribution of macrophage subsets and their possible involvement in hypertensive vascular lesions in rats. 876 13

We investigated expression of the 5'-spliced isoform of smooth muscle myosin heavy chain (SM-MHC-B) in smooth muscle cells of cardiac vessels of the left ventricle of normotensive (Wistar-Kyoto) and spontaneously hypertensive rats of the stroke-prone strain by immunofluorescence microscopy. In parallel, liver and bladder were studied for characterization of the nature of vessels expressing SM-MHC-B and for semiquantitative evaluation of its abundance. Smooth muscle cells were detected by staining with a monoclonal antibody specific for alpha-smooth muscle actin. Abundance of the SM-MHC-B isoform in these cells was evaluated by using an antibody raised against the seven-amino acid insert at the 25K/50K junction of the myosin head (a25K/50K) that specifically recognized SM-MHC-B. In the ventricle, a25K/50K immunoreactivity was observed in smooth muscle cells of precapillary arterioles but not in larger vessels or aorta. The a25K/50K immunoresponse of those vessels with the highest expression level of SM-MHC-B closely resembled the signal observed in the smooth muscle layer of urinary bladder known to preferentially express SM-MHC-B. Interestingly, in left ventricles of stroke-prone spontaneously hypertensive rats, there was a significantly reduced fraction of a25K/50K-positive precapillary arterioles compared with normotensive control rats.
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PMID:Expression of smooth muscle myosin heavy chain B in cardiac vessels of normotensive and hypertensive rats. 968 60

Thy-1 nephritis was induced in stroke-prone spontaneously hypertensive rats (SHR-SP) with unilateral nephrectomy (UNX) and normotensive same genetic strain Wistar-Kyoto (WKY) rats with UNX to evaluate whether the tubulointerstitial injury in Thy-1 nephritis is accelerated by long-term systemic and intraglomerular hypertension. SHR-SP that underwent UNX at twelve weeks of age were randomly assigned to receive monoclonal anti-thy 1.1 antibody (group SP), and normal saline (group SC). Age-matched normotensive WKY rats served as controls and were given the same dose of monoclonal anti-thy 1.1 antibody after UNX (group WK). In all groups, the blood pressure and renal function were assessed, and morphologic changes of tubulointerstitium were examined by using immunohistochemistry and light microscopy twelve weeks after Thy-1 nephritis induction (in groups SP and WK) and UNX alone (in group SC). In all groups, histological findings, the degree of monocyte/macrophage infiltration, interstitial expression of alpha-smooth muscle actin (alpha-SMA), which is a marker for myofibroblasts, and the degree of tubular cell proliferation were examined. In addition, assessments of blood pressure, serum creatinine and BUN levels, and the degree of proteinuria were made. In parallel to glomerular structural damage, interstitial fibrosis with predominant monocyte/macrophage influx, increased interstitial expression of alpha-SMA and tubular cell proliferation were observed in group SP. A significant increase in serum creatinine and proteinuria were also present in this group. In contrast, the changes observed in group SC were not so evident or extensive as in group SP. The level of proteinuria was lower than that in group SP. No evident tubulointerstitial changes were found in group WK. The results showed that tubulointerstitial injury was prominently progressed in the hypertensive model with Thy-1 nephritis. This suggests that sustained systemic and glomerular hypertension is not only ultimately responsible for the progression of immunologically mediated glomerular injury, but is also responsible for subsequent tubulointerstitial changes. Migration and proliferation of myofibroblasts and intense influx of monocytes/macrophages may contribute to the development of tubulointerstitial fibrosis.
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PMID:Tubulointerstitial injury of Thy-1 nephritis in uninephrectomized stroke-prone spontaneously hypertensive rats. 1150 77

One of the major causes of end-stage renal diseases is hypertensive renal disease, in which enhanced renal prostaglandin (PG) E2 production has been shown. PGE2, a major arachidonic acid metabolite produced in the kidney, acts on 4 receptor subtypes, EP1 through EP4, but the pathophysiological importance of the PGE2/EP subtypes in the development of hypertensive renal injury remains to be elucidated. In this study, we investigated whether an orally active EP1-selective antagonist (EP1A) prevents the progression of renal damage in stroke-prone spontaneously hypertensive rats (SHRSP), a model of human malignant hypertension. Ten-week-old SHRSP, with established hypertension but with minimal renal damage, were given EP1A or vehicle for 5 weeks. After the treatment period, vehicle-treated SHRSP showed prominent proliferative lesions in arterioles, characterized by decreased alpha-smooth muscle actin expression in multilayered vascular smooth muscle cells. Upregulation of transforming growth factor-beta expression and tubulointerstitial fibrosis were also observed in vehicle-treated SHRSP. All these changes were dramatically attenuated in EP1A-treated SHRSP. Moreover, EP1A treatment significantly inhibited both increase in urinary protein excretion and decrease in creatinine clearance but had little effect on systemic blood pressure. These findings indicate that the PGE2/EP1 signaling pathway plays a crucial role in the development of renal injury in SHRSP. This study opens a novel therapeutic potential of selective blockade of EP1 for the treatment of hypertensive renal disease.
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PMID:Role of prostaglandin E receptor EP1 subtype in the development of renal injury in genetically hypertensive rats. 1467 Sep 79

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