Objective To investigate the change and implication of plasma osteopontin (OPN) levels in renal allograft rejection.Methods The clinical data and biological samples of 46 renal transplant recipients were analyzed rerrospecnvely,including 16 patiens with stable allograft function and no evidence of biopsy-proved rejection (Non-R),22 patients with biopsy-proved acute cellular rejection (ACR),and 8 paients with biopsy-proved chronic allograft nephropathy (CAN).Six living related donors served as healthy controls (HC).Plasma OPN level was determined by using the human OPN ELISA kit.Type and grade of ACR were diagnosed based on Banff 03 classification criteria of renal allograft pathology.The plasma OPN levels were compared among different groups.The assistant diagnostic value of plasma OPN levels in differentiating rejection patients were also evaloated.Results The plasma OPN level in HC,Non-R,CAN and ACR groups was ( 12.23 ±5.95),(19.38±8.23),(27.77± 12.27) and (41.84± 18.51) μg/L,respectively.There was no significant difference in plasma OPN levels among HC,Non-R and CAN groups (P＞0.05),but the OPN levels in ACR group were decreased significantly as compared with Non-R and CAN groups (P＜0.05 ).OPN levels were positively correlated with Banff grading of ACR (P＜0.05).OPN levels were significantly different between grade Ia and grade IIb (P＜0.05).Conclusion The change in plasma OPN level has a relationship with acute rejection.Besides,the plasma OPN levels were also positively correlated with the severity of ACR.Monitoring plasma OPN levels should be useful in predicting and evaluating the severity of ACR in renal transplant recipients.

Objective To observe the protection and distribution of bone marrow mesenchymal stem cells (MSCs) by distinct intravenous infusion time on renal ischemia reperfusion injury (IRI) in rats.Methods We used unilateral nephrectomy and contralateral vascular occlusion method to establish renal IRI model in rats.The experimental groups which received 2 × 106 MSCs infusion through the tail vein,were subsequently divided into 3 subgroups:2 h pre-reperfusion (PreOp,n =16),immediately after reperfusion (Op,n =16),6 h post-reperfusion (PostOp,n - 16).The control groups included sham operation group (n =16) and ischemia group (n =16).Chemotaxis of DAPI-labeled MSCs was detected 6 h after administration in the IR kidney.Renal function was detected at 6,24,and 48 h respectively after operation. Forty eight h after operation,the renal tissues were harvested to observe the pathological changes by HE staining and the tubular epithelial cell apoptosis via TUNEL assay.Results MSCs were found in the experimental groups after IR in the kidney,most in PostOp group.Twenty-four and 48 h after reperfusion,there was no significant difference in Cr and BUN between the experimental groups and sham operation group (P＞0.05),but the levels of Cr and BUN in the experimental groups were significantly lower than in the IR group (P＜ 0.05). As compared with IR group,the renal pathological injury was alleviated,the number of apoptotic cells was decreased in the experimental group,most significantly in PostOp group (P＜0.05).Conclusion MSCs can reduce the inflammatory response and inhibit renal tubular cell apoptosis in rat renal IRI.Post-reperfusion administration of MSCs leads to the best chemotaxis efficiency and protection.

AIM:To establish and evaluate a colonoids model of intestinal barrier dysfunction with irritable bowel syndrome(IBS).METHODS:The colonic recess of 20～22 g male C57BL/6 mice were isolated and cultured in ma-trix glue to proliferate and differentiate into 3D hollow spheres with colonic epithelioid structure.The following experi-ments were carried out:(1)Colonoids and colonic tissues of mice were detected by immunofluorescence to identify colo-noids.(2)Fluorescein isothiocyanate dextran 4(FD4)evaluated the epithelial barrier function of colonoids.(3)To ex-plore the changes in the epithelial barrier of colonoids induced by interferon-γ(IFN-γ)at different concentrations and time points.FD4 and HE staining were used to evaluate the barrier function.RT-qPCR was used to detect the mRNA expres-sion of occludin and zonula occludens-1(ZO-1)in tight junctions of colonoids.Immunofluorescence was used to detect the distribution and localization of occludin and ZO-1 proteins.RESULTS:(1)The expression of EdU proliferation and in-testinal epithelial cell lineage markers in colonoids was consistent with that in mouse colonic tissues.(2)In the control group,FD4 did not infiltrate the colonoids lumen,but FD4 significantly infiltrated the colonoids lumen induced by ethyl-ene glycol-bis(β-aminoethyl ether)-N,N,N',N'-tetraacetic acid(EGTA).(3)From 18 h,the IFN-γ at 60,100,200 and 240 ng/mL could significantly infiltrate into the cavity of colonoids(0.033,0.032,0.042 and 0.001),and the barri-er injury of colonoids could be seen by HE staining.After 18 h,all concentrations of IFN-γ could significantly decrease the mRNA expression of occludin and ZO-1,and the fluorescence of occludin and ZO-1 decreased significantly(P<0.05).CONCLUSION:(1)The cultured organoids are colonoids with complete epithelial barrier.(2)IFN-γ could in-duce the decrease of the transcriptional levels of occludin and ZO-1 in the tight junction of colonoids,the decrease of the expression of corresponding proteins,and the change of localization and distribution,thus increasing the epithelial perme-ability of colonoids.This model is highly consistent with the pathophysiological state of IBS colonic mucosal barrier dys-function,which provides a new tool and method for studying the direction of colonic mucosal barrier dysfunction in IBS.