Tomoko Imaizumi scite author profile

Alpha-smooth muscle actin (alpha-SMA) is the actin isoform that predominates within vascular smooth-muscle cells and plays an important role in fibrogenesis. On the other hand, c-Met is the receptor for hepatocyte growth factor (HGF), which plays a role in protection from injury and has anti-fibrogenetic effects. To clarify whether alpha-SMA and HGF are associated with the progression of renal injury in Henoch-Schönlein purpura nephritis (HSPN), we evaluated the renal expression of alpha-SMA and c-Met in HSPN patients. Patients were divided into three groups. Group 1 consisted of eight patients (male:female 4:4) with stage II or less in the classification of the International Study of Kidney Disease in Children (ISKDC), Group 2 consisted of 20 patients (male:female 11:9) with ISKDC stage III or greater and a good prognosis, and group 3 consisted of seven patients (male:female 3:4) with ISKDC stage III or greater and poor prognosis. Renal biopsy findings, including c-Met and alpha-SMA staining, were investigated for each group. At first biopsy, the mean scores for renal alpha-SMA and glomerular c-Met in groups 2 and 3 were higher than those in group 1, while mean scores for neither renal alpha-SMA nor glomerular c-Met differed between groups 2 and 3. At second biopsy, the mean scores for renal alpha-SMA staining in group 3 were higher than those in group 2, and mean score for glomerular c-Met staining in group 3 was lower than that in group 2. In groups 2 and 3, the mean scores for glomerular and interstitial alpha-SMA staining at first biopsy were correlated with the chronicity index (CI) at second biopsy, but the mean score for glomerular c-Met staining at first biopsy correlated with neither the activity index (AI) nor CI in the first or second biopsies in all groups. Our findings suggest that the expression of renal alpha-SMA may be associated with progression of renal injury in HSPN.

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Development of Glomerular Endothelial Cells, Podocytes and Mesangial Cells in the Human Fetus and Infant

Takano

Kawasaki

Imaizumi

et al. 2007

Tohoku J. Exp. Med.

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The process of glomerular development consists of four developmental stages: vesicle (V) stage, S-shaped body (S) stage, capillary loop (C) stage and maturation (M) stage. However, the development of glomerular endothelial, mesangial and epithelial cells in fetal and infant kidneys remains unclear. In order to determine the characteristics of human glomerular development, we investigated the process of glomerular development by staining fetal and infant kidneys for CD31, CD34 and FB21, markers for endothelial cells, α -smooth muscle actin (α -SMA), a marker for mesangial cells, and nephrin, a marker for podocytes. These series of studies were carried out on kidneys obtained at autopsy from 27 fetuses and 5 infants. The fetuses were divided into the following 5 groups according to gestational age; 13-19, 20-24, 25-29, 30-34 and 35-39 weeks. In each group, glomerular development was classified according to the developmental stage and the staining patterns for CD31, CD34, FB21, α -SMA and nephrin. The proportion of V-stage development in 100 glomeruli examined was highest at 13-19 weeks. After 20 weeks, the V-stage proportion decreased gradually, and the proportion of S stage became highest at 20-24 weeks. The C-stage proportion was highest at 25-29 weeks, while the M-stage proportion was highest in infants aged 1-6 months. The staining patterns for CD31, CD34 and FB21 were similar in endothelial cells after 25 weeks of gestation. Staining of α -SMA and nephrin was first observed in the S stage. In conclusion, maturation of endothelial cells starts at 25 weeks and is completed by 35 weeks of gestation. Epithelial cells and mesangial cells first appear during the S stage. glomerular development; CD31; CD34; FB21 © 2007 Tohoku University Medical PressThe glomerulus, the most important filtering apparatus in the body, is a unique and highly specialized structure. Three types of cells in the glomerular tufts, the glomerular capillary endothelial cells, mesangial cells and glomerular epithelial cells, can be clearly identified, and their functions

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Relapse of minimal change nephrotic syndrome after intravitreal bevacizumab

Sato¹,

Kawasaki

Waragai³

et al. 2013

Pediatrics International

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Reported herein is a case of relapse of nephrotic syndrome (NS) after intravitreal injection of bevacizumab, a monoclonal antibody that binds to vascular endothelial growth factor (VEGF), in a 16-year-old girl. She had a diagnosis of steroid-dependent NS and had been treated with prednisolone, and remained in remission. The patient had had visus brevior 10 years previously, and was diagnosed with severe myopic choroidal neovascularization (mCNV). Intravitreal bevacizumab was given for mCNV. At 9 days after intravitreal injection of bevacizumab, proteinuria was positive. The patient had relapse of NS caused by bevacizumab, and steroid pulse therapy was then given and the proteinuria resolved. It is necessary to take particular care to prevent NS relapses in patients with mCNV treated with intravitreal bevacizumab.

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Renal Denervation Prevents Intraglomerular Platelet Aggregation and Glomerular Injury Induced by Chronic Inhibition of Nitric Oxide Synthesis

Nakashima

Matsuoka²,

Yasukawa³

et al. 1996

Nephron

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Nitric oxide (NO) inhibits platelet adhesion and aggregation in vitro. In vivo, chronic inhibition of NO synthesis induces nephrosclerosis and hypertension. Although the pathophysiological mechanism of this glomerular injury has not been clarified, sympathetic nerve activation, a potent procoagulant stimulus elicited by NO inhibition, may play a role. To investigate the role of renal sympathetic nerves in the development of renal injury induced by N^G-nitro-L-arginine methyl ester (L-NAME), a specific NO synthesis inhibitor, we examined renal histological changes in four groups of Sprague-Dawley rats: (1) sham operated, vehicle treated; (2) sham operated, L-NAME treated; (3) denervated, vehicle treated, and (4) denervated, L-NAME treated. Following renal denervation or sham operation, L-NAME was administered orally for 4 weeks. Chronic NO inhibition induced platelet aggregation and erythrocyte stasis in the glomerular capillary lumen accompanied by electron-microscopic glomerular injury. Renal denervation abrogated platelet aggregation and glomerular injury in L-NAME-treated animals. Thus, chronic NO synthesis inhibition induced intraglomerular platelet aggregation and glomerular injury, which was attenuated by renal nerve denervation. These results suggest that intrinsic NO may have an antithrombotic effect in the glomeruli and may play a protective role in the progression of glomerular injury possibly mediated by renal sympathetic nerves.

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Tomoko Imaizumi

Telomerase activity in oral cancer

Renal expression of alpha-smooth muscle actin and c-Met in children with Henoch–Schönlein purpura nephritis

Development of Glomerular Endothelial Cells, Podocytes and Mesangial Cells in the Human Fetus and Infant

Relapse of minimal change nephrotic syndrome after intravitreal bevacizumab

Renal Denervation Prevents Intraglomerular Platelet Aggregation and Glomerular Injury Induced by Chronic Inhibition of Nitric Oxide Synthesis

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