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1.
Chinese Journal of Nephrology ; (12): 587-594, 2023.
Article in Chinese | WPRIM | ID: wpr-995021

ABSTRACT

Objective:To determine a relationship between ultrasound shear wave elastography (SWE) and pathological lessions of renal tissues in children with chronic kidney disease (CKD).Methods:It was a cross-sectional observational study, involving children admitted to the Department of Pediatrics of Tongji Hospital, Tongji Medical College, Huazhong University of Science and Technology from January to December 2021 with definite pathological diagnosis through kidney biopsy. The SWE was used to determine the Young's modulus (elastic modulus) of the cortex and medulla of the upper, middle, and lower poles of the kidney. The renal histopathology was classified or graded. The statistical method was used to analyze the relationship between Young's modulus of the inferior polar cortex (YM cor) and medulla (YM med) of the right kidney and renal pathology. Results:The study included 110 children with definite pathological diagnosis through renal biopsy, aged (10.1±3.4) years old (2-17 years old), with 55 males (50.0%). The body mass index was (20.6±2.4) kg/m 2, and mean arterial pressure was (95±24) mmHg. There were 94 patients (85.4%) with CKD stage 1, 8 patients (7.3%) with CKD stage 2, and 8 patients (7.3%) with CKD stage 3. There was no significant difference of YM cor and YM med in the upper and middle poles of the right kidneys, and YM med in the lower poles of right kidneys in CKD patients with different stages (all P>0.05). Both YM cor [(15.75±3.36) kPa] and YM med [(13.50±2.43) kPa] of CKD stage 3 patients were significantly higher than those of CKD stage 1 patients [(12.94±2.45) kPa, (11.88±2.23) kPa](both P<0.05). There was no significant difference of YM cor and YM med in the lower poles of right kidneys between stage 1 and stage 2 CKD patients (both P>0.05). YM cor[(17.93±3.23) kPa] and YM med [(15.50±1.48) kPa] in patients with crescentic glomerulonephritis were higher than those in patients with focal segmental glomerulosclerosis [(12.71±2.42) kPa, (11.57±2.63) kPa] and mesangial proliferative glomerulonephritis [(12.73±2.04) kPa, (11.48±2.10) kPa](all P<0.05). There was no significant difference of YM cor and YM med between focal segmental glomerulosclerosis and mesangial proliferative glomerulonephritis (both P>0.05). YM cor [(16.30±2.63) kPa] and YM med [(15.54±1.59) kPa] of Lee's Ⅳ grade of IgA nephropathy were higher than those of Lee's Ⅲ grade [(13.32±2.70) kPa, (12.57±2.50) kPa](both P<0.05), while the International Study of Kidney Disease in Children grade of purpura nephritis had no significant correlation with YM cor and YM med (both P>0.05). YM cor [(15.41±2.37) kPa] and YM med [(13.82±2.59) kPa] of interstitial fibrosis/tubular atrophy (T1/T2) group of IgA nephropathy mixed with purpura nephritis were significantly higher than those of T0 group's [(12.99±2.40) kPa, (11.79±2.05) kPa] (both P<0.05). Moreover, crescent formation (C1) group had a higher YM cor [(14.21±2.77) kPa] and YM med [(12.80±2.47) kPa] than those in C0 group [(12.73±2.15) kPa, (11.59±1.97) kPa] (both P<0.05), while YM cor and YM med were unrelated to the mesangial hypercellularity (M), endocapillary cellularity (E), segmental sclerosis or adhesion (S) indicators (all P>0.05). In lupus nephritis patients, YM cor ( r=0.744, P=0.035) and YM med ( r=0.728, P=0.009) were favorably linked with the chronic index, but not with the activity index (both P>0.05). Conclusions:Renal interstitial fibrosis/tubular atrophy and crescentic development are connected with YM cor and YM med at the lower pole of the kidney as measured by SWE. SWE can be used to assess the chronic renal lesions in children with CKD in the early and middle stages. It may develop into a new noninvasive way to assess renal pathology.

2.
Journal of Clinical Pediatrics ; (12): 150-153,157, 2016.
Article in Chinese | WPRIM | ID: wpr-603326

ABSTRACT

Chloride ion is an important anion in organisms, managing various physiological events. A particular gene mu-tation leads to involved channel deifciency and to develop channelopathy. In kidney, different chloride channels distribute along certain fractions of the renal tubule, located at apical and basolateral membranes of tubular epithelial cells. Previous studies dis-covered that voltage-sensitive chloride channels in kidney are associated with Bartter syndrome and Dent’s disease. In addition, the kidney can be involved by cystic ifbrosis resulting from dysfunction of cystic ifbrosis transmembrane conductance regulator. In this review, the function and mechanism of chloride channels in maintenance of normal renal function, and the renal diseases caused by related gene defects were discussed.

3.
Article in Chinese | WPRIM | ID: wpr-462861

ABSTRACT

AIM:In podocytes , autophagy occurs at a high basal level and dysregulated autophagy is associa -ted with a variety of podocytopathies .This paper is to investigate the role of autophagy in sublytic C 5b-9-induced podocyte injury.METHODS: Sublytic complement C5b-9 stimulation was used as an in vitro model.Autophagosomes were con-firmed using monodansylcadaverine (MDC) staining.Immunoblotting was used to measure the change of autophagy-related markers.Cellular morphological changes were observed by Wright-Giemsa staining.Immunofluorescence staining and con-focal microscopy were used to detect the expression and distribution of nephrin .The cell viability was assessed by methylth-iazol tetrazolium (MTT) assay.The cell apoptosis was assessed by Annexin V-fluorescein isothiocyanate/PI staining.RE-SULTS:For ensuring sublytic complement injury , the maximal amounts of anti-podocyte antiserum and 160 ×-diluted nor-mal human serum were used without inducing cell lysis (defined as >5%LDH release).Sublytic C5b-9 promoted autoph-agy of podocytes in vitro.The proautophagic effect of sublytic C 5b-9 manifested in the form of accumulated MDC-labeled vesicles and enhanced the expression of LC 3-Ⅱ.Autophagy inhibitor 3-methyladenosine (3-MA) promoted sublytic C5b-9-induced podocyte morphological abnormalities .Compared with the sublytic C5b-9-injured podocytes, 3-MA exposure further decreased the expression of nephrin .3-MA enhanced sublytic C5b-9-induced podocyte apoptosis .CONCLUSION: Sub-lytic C5b-9 attack induces autophagy , which may play a protective role against complement-mediated podocyte injury .

4.
Chinese Journal of Pathophysiology ; (12): 1661-1665, 2014.
Article in Chinese | WPRIM | ID: wpr-456848

ABSTRACT

AIM: To determine the effect of rapamycin on the progression of passive Heymann nephritis (PHN), and whether autophagy is involved in this process .METHODS:Male Sprague-Dawley rats (n=24) were ran-domly divided into 3 groups:control group , PHN group and rapamycin treatment group .The rat PHN model was induced by injection of anti-Fx1A serum through penile vein , and all rats were sacrificed on day 21.Automatic biochemical analyzer was used to detect 24 h urine protein , blood urea nitrogen and serum creatinine .Renal damage was observed through per-iodic acid-silver methenamine staining .The number of podocyte was estimated by Weibel-Gomez method .The glomerular deposition of C5b-9, the expression of caspase-3 and expression of autophagy marker LC 3 in glomeruli were examined by immunofluorescence staining , immunohistochemical staining and Western blotting , respectively.RESULTS: Rapamycin significantly reduced proteinuria in the PHN rats (P<0.05), while the renal functions in 3 groups were normal, without significant difference .Although rapamycin limited weight gain in the rats , the health of the rats during drug treatment was not affected .Rapamycin retarded glomerular basement membrane thickening in the PHN rats .Rapamycin significantly re-duced the podocyte deletion by preventing podocyte apoptosis .Rapamycin enhanced the level of autophagy of glomerular in-herent cells .CONCLUSION:In the disease process of PHN , appropriate strength of autophagy plays a protective role . Rapamycin appropriately enhances autophagy and prevents podocyte apoptosis , thus reducing nephropathy and proteinuria . This may be one of the important mechanisms of rapamycin to slow down the progress of PHN .

5.
Chinese Journal of Nephrology ; (12): 751-756, 2014.
Article in Chinese | WPRIM | ID: wpr-469068

ABSTRACT

Objective To determine the effect of rapamycin on sublytic C5b-9-induced podocyte adhesion damage,and whether autophagy is involved in this progression.Methods Sublytic complement C5b-9 stimulation was used in vitro.Autophagosomes were viewed using electron microscopy.Western blotting was used to measure the change of autophagy-related markers.Attachment assay was used to assess the adhesion of podocyte.Confocal microscopy was used to explore the expression patterns of cytoskeletal protein F-actin.Flow cytometry was used to measure the level of adhesion-associated protein integrin α3.Results (1) For ensuring sublytic complement injury,the maximal amounts of anti-podocyte antiserum and 160×-diluted normal human serum were used without inducing cell lysis (defined as > 5% LDH release).(2) Sublytic C5b-9 promoted autophagy in podocyte in vitro.The proautophagic effect of sublytic C5b-9 manifested in the form of accumulated autophagosomes and enhanced expression of LC3-lⅡ.(3) Inhibition of autophagy by 3-methyadenine enhanced the effect of sublytic C5b-9-induced podocyte injury,including serious cytoskeleton damage and markedly reduced adhesion of podocyte.(4) Rapamycin treatment significantly improved the above lesions.(5) Rapamycin enhanced autophagy induced by sublytic C5b-9 in podocyte.Conclusions In summary,rapamycin can improve sublytic CSb-9-induced podocyte adhesion damage by appropriate autophagy activation.These findings provide important information for the development of appropriate protocols for the application of mTOR (mammalian target of rapamycin) inhibitors in podocytopathy.

6.
Chinese Journal of Nephrology ; (12): 41-47, 2014.
Article in Chinese | WPRIM | ID: wpr-444447

ABSTRACT

Objective To investigate the role of autophagy in podocyte damage,and the intracellular mechanism of autophagy activation through passive Heymann nephritis (PHN) animal model.Methods Male Sprague-Dawley rats (n=40) were studied on day 0,2,4,7,and 21 after induction of PHN by injection of anti-Fx1A.Podocyte morphology and autophagosomes were observed by transmission electron microscopy.Podocyte numerical density was estimated by Weibel-Gomez =method.Cell apoptosis was detected by TUNEL assay and caspase-3 immunohistochemical staining.Expressions of autophagy markers and endoplasmic reticulum stress (ERS)-associated proteins were analyzed by Western blotting.Results (1) In PHN rats,immunohistochemical staining showed that C5b-9 deposited along glomerular basement membrane on day 4 to day 21.Small subepithelial electron -dense deposits and a part of foot process fusion were detected in the glomerulus of PHN rats on day 4 by transmission electron microscope,and podocyte damage was aggravated on day 21.Furthermore,compared with control,the urinary protein levels of PHN rats began to increase on day 3,and reached the top on day 21 [(50.6±6.0) mg/24 h].(2) The number of podocytes significantly decreased in PHN rats compared with control group on day 21(P < 0.05).(3) In PHN rats,apoptotic podocytes were found by caspase-3 immunohistochemical staining and TUNEL assay on day 21.(4) The expression of autophagy marker LC3 Ⅱ was markedly increased on day 7 and 21,but down-regulated on day 21 compared with day 7.Moreover,accumulated autophagosomes in podocytes were detected on day 7 and 21 by transmission electron microscope.(5) The level of GRP78 was significantly increased on day 2 and 7 but reduced to baseline on day 21.At the same time,the downstream pathways (ATF6α,p-PERK and p-JNK) of unfolded protein response were also up-regulated in the early process of PHN and down-regulated later.Conclusions Autophagy is an important way to protect against immunemediated podocyte injury in membranous nephropathy.Autophagy activation is mainly related to endoplasmic reticulum stress induced by complement attack.This provides an important basis for a thorough understanding of the role of autophagy in the process of podocyte damage and the pathogenesis of membranous nephropathy.

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