Shensu IV prevents glomerular podocyte injury in nephrotic rats via promoting lncRNA H19/DIRAS3-mediated autophagy.

Shensu IV is a Chinese prescription well-known for its function in treating chronic kidney diseases. However, the potential mechanisms underlying how Shensu IV exerts its effects remain unclear. In the present study, we investigated the effects of Shensu IV on glomerular podocyte injury in nephrotic rats and puromycin-induced injury in cultured podocytes, and assessed the associated molecular mechanisms. Liquid chromatography-mass spectrometry (LC-MS) results showed that the main components of Shensu IV were l-Carnitine, P-lysoPC (LPC) 16:0, Coumaroyl tyramine, Tetramethylpyrazine, LPC 18:1, Choline, (S,S)-Butane-2,3-diol, and Scopoletin. We further found that nephrotic rats displayed pathological alterations in kidney tissues and ultrastructural changes in glomerular podocytes; however, these effects were reversed with Shensu IV treatment. Compared with the control, the numbers of autophagosomes were markedly reduced in the model group, but not in the Shensu IV treatment group. Furthermore, the expression of p62 was significantly higher in the model group than in the controls, whereas the LC3-II/I ratio was significantly lower; however, these changes were not observed when Shensu IV was administered. The protective effects of Shensu IV were further confirmed in podocytes displaying puromycin-induced injury. Compared with control group, the expression of long non-coding RNA (lncRNA) H19, mTOR, p-mTOR, and p62 was significantly increased in the puromycin group, whereas that of distinct subgroup of the RAS family member 3 (DIRAS3) was significantly decreased, as was the LC3-II/I ratio. The opposite results were obtained for both shH19- and Shensu IV-treated cells. Collectively, our data demonstrated that Shensu IV can prevent glomerular podocyte injury in nephrotic rats and puromycin-treated podocytes, likely via promoting lncRNA H19/DIRAS3-regulated autophagy.

Responsiveness of sphingosine phosphate lyase insufficiency syndrome to vitamin B6 cofactor supplementation.

Sphingosine-1-phosphate (S1P) lyase is a vitamin B6-dependent enzyme that degrades sphingosine-1-phosphate in the final step of sphingolipid metabolism. In 2017, a new inherited disorder was described caused by mutations in SGPL1, which encodes sphingosine phosphate lyase (SPL). This condition is referred to as SPL insufficiency syndrome (SPLIS) or alternatively as nephrotic syndrome type 14 (NPHS14). Patients with SPLIS exhibit lymphopenia, nephrosis, adrenal insufficiency, and/or neurological defects. No targeted therapy for SPLIS has been reported. Vitamin B6 supplementation has therapeutic activity in some genetic diseases involving B6-dependent enzymes, a finding ascribed largely to the vitamin's chaperone function. We investigated whether B6 supplementation might have activity in SPLIS patients. We retrospectively monitored responses of disease biomarkers in patients supplemented with B6 and measured SPL activity and sphingolipids in B6-treated patient-derived fibroblasts. In two patients, disease biomarkers responded to B6 supplementation. S1P abundance and activity levels increased and sphingolipids decreased in response to B6. One responsive patient is homozygous for an SPL R222Q variant present in almost 30% of SPLIS patients. Molecular modeling suggests the variant distorts the dimer interface which could be overcome by cofactor supplementation. We demonstrate the first potential targeted therapy for SPLIS and suggest that 30% of SPLIS patients might respond to cofactor supplementation.

Galloway-mowat syndrome - unusual form of nephrotic syndrome in adolescent.

Galloway-Mowat syndrome (GMS), also acknowledged as Microcephaly-Hiatal hernia nephrotic syndrome, is an uncommon genetic disorder inherited as an autosomal recessive trait usually seen before two years of life. It is an exceptional multisystem genetic disorder with a collection of skeletal, neurological, facial, gastrointestinal, growth, and renal abnormalities. This case report describes GMS in a girl, suffering from developmental delay, stunted growth, and various dysmorphic features, in whom nephrotic syndrome became apparent at adolescent age.

Renoprotective effect of topiroxostat via antioxidant activity in puromycin aminonucleoside nephrosis rats.

Topiroxostat is a novel inhibitor of xanthine oxidase, and is postulated to exert a renoprotective effect. Puromycin aminonucleoside nephrosis (PAN) is a rat model of minimal change nephrotic syndrome. In this study, we examined whether topiroxostat ameliorates the kidney injury in PAN rats that was induced by a single intraperitoneal injection of PA (100 mg/kg body weight). Rats were divided into four groups: control rats, PAN rats, control rats treated with topiroxostat (1.0 mg/kg/day), and PAN rats treated with topiroxostat. Topiroxostat significantly reduced the amount of uric acid in the kidney cortex, while serum UA concentration remained unaffected by this treatment. Urinary protein excretion decreased significantly on day 10 in PAN rats upon topiroxostat treatment. Podocyte injury in PAN rats, as indicated by the reduction in WT-1-positive cell numbers and podocin immunoreactivity and foot process effacement, was partially yet significantly alleviated with topiroxostat treatment. In the kidney cortex, the increase in oxidative stress markers such as nitrotyrosine and 8-hydroxy-2-deoxyguanosine (8-OHdG) and the enhanced expressions of xanthine oxidase and NADPH oxidase 4 (NOX4) in PAN rats were significantly ameliorated by topiroxostat. Using cultured podocytes NOX4 expression was upregulated by adding 12 mg/dL UA into the culture medium. These results suggest that topiroxostat ameliorates proteinuria and kidney injury in PAN rats by lowering oxidative stress and tissue UA concentration. The renoprotective effects of topiroxostat could be attributed to its potential to inhibit xanthine oxidase and NOX4 in concert with suppression of intracellular UA production.

Adrenomedullin ameliorates podocyte injury induced by puromycin aminonucleoside in vitro and in vivo through modulation of Rho GTPases.

PURPOSE: Podocyte injury is a key event in proteinuric kidney disease and eventually glomerular scarring. While adrenomedullin (AM), a potent vasodilatory peptide, has been reported to confer renoprotection in several experimental models of kidney diseases, its effect on injured podocytes and the related mechanism is still largely unknown. METHODS: Employing Western blotting analysis, immunoprecipitation and immunofluorescence, we investigated the effects of AM on the expressions of podocyte cytoskeletal proteins and Rho-family small GTPases (Rho GTPases) in puromycin aminonucleoside (PAN)-induced podocyte injury, both in cultured podocytes and in PAN nephrosis rats. Urinary protein excretion and the morphologic changes of kidney in PAN nephrosis rats were evaluated. Glutathione-S-transferase pull-down assay was applied for Rho GTPases activity. RESULTS: PAN induced massive albuminuria and morphologic injury, which were significantly mitigated by AM administration. AM significantly antagonized not only the PAN-decreased expressions of synaptopodin, nephrin, CD2AP and podocin, but also the PAN-disrupted interactions between synaptopodin-RhoA, nephrin-CD2AP, and CD2AP-Rac1-cortactin. These effects of AM in cultured podocytes were mostly significantly blocked by H89, a PKA inhibitor. AM dramatically upregulated the PAN-induced Rho GTPases protein expressions and their activities. PAN increased the expressions of endogenous AM and its receptor RAMP2 which was furthermore upregulated by AM administration. CONCLUSIONS: AM alleviated podocyte injury induced by PAN both in cell culture and in PAN nephrosis. The beneficial effects of AM on podocytes can be attributable to direct modulation of podocyte cytoskeletal proteins and Rho GTPases, mainly via a PKA-dependent pathway.

Modeling complement-driven diseases in transgenic mice: Values and limitations.

Remarkable advances have been made over past decades in understanding the pathogenesis of complement-mediated diseases. This has led to development of new therapies for, and in some cases re-classification of, complement-driven diseases. This success is due to not only insight from human patients but also studies using transgenic animal models. Animal models that mimic human diseases are useful tools to understand the mechanism of disease and develop new therapies but there are also limitations due to species differences in their complement systems. This review provides a summary of transgenic animal models for three human diseases that are at the forefront of anti-complement therapy, paroxysmal nocturnal hemoglobinuria (PNH), atypical hemolytic uremic syndrome (aHUS) and C3 glomerulopathy (C3G). They are discussed here as examples to highlight the values and limitations of animal modeling in complement-driven diseases.

Lysosomal protease cathepsin D; a new driver of apoptosis during acute kidney injury.

Acute kidney injury (AKI) is an abrupt reduction in kidney function caused by different pathological processes. It is associated with a significant morbidity and mortality in the acute phase and an increased risk of developing End Stage Renal Disease. Despite the progress in the management of the disease, mortality rates in the last five decades remain unchanged at around 50%. Therefore there is an urgent need to find new therapeutic strategies to treat AKI. Lysosomal proteases, particularly Cathepsin D (CtsD), play multiple roles in apoptosis however, their role in AKI is still unknown. Here we describe a novel role for CtsD in AKI. CtsD expression was upregulated in damaged tubular cells in nephrotoxic and ischemia reperfusion (IRI) induced AKI. CtsD inhibition using Pepstatin A led to an improvement in kidney function, a reduction in apoptosis and a decrease in tubular cell damage in kidneys with nephrotoxic or IRI induced AKI. Pepstatin A treatment slowed interstitial fibrosis progression following IRI induced AKI. Renal transplant biopsies with acute tubular necrosis demonstrated high levels of CtsD in damaged tubular cells. These results support a role for CtsD in apoptosis during AKI opening new avenues for the treatment of AKI by targeting lysosomal proteases.

Organic Anion Transporter 5 (Oat5) Urinary Excretion Is a Specific Biomarker of Kidney Injury: Evaluation of Urinary Excretion of Exosomal Oat5 after N-Acetylcysteine Prevention of Cisplatin Induced Nephrotoxicity.

Cisplatin is a commonly used chemotherapeutic agent. Its main side-effect is nephrotoxicity. It was reported that the organic anion transporter 5 (Oat5) urinary excretion is elevated, implying renal perturbation, when no modifications of traditional markers of renal damage are still observed in cisplatin-induced acute kidney injury (AKI). It was also demonstrated that Oat5 is excreted in urine by the exosomal pathway. This study was designated to demonstrate the specific response of the urinary excretion of exosomal Oat5 to kidney injury independently of other cisplatin toxic effects, in order to strengthen Oat5 urinary levels as a specific biomarker of AKI. To accomplish that aim, we evaluated if urinary excretion of exosomal Oat5 returns to its basal levels when cisplatin renal damage is prevented by the coadministration of the renoprotective compound N-acetylcysteine. Four days after cisplatin administration, AKI was induced in cisplatin-treated male Wistar rats (Cis group), as it was corroborated by increased urea and creatinine plasma levels. Tubular damage was also observed. In cotreated animals (Cis + NAC group), plasma urea and creatinine concentrations tended to return to their basal values, and tubular damage was improved. Urinary excretion of exosomal Oat5 was notably increased in the Cis group, but when renal injury was ameliorated by N-acetylcysteine coadministration, that increase was undetected. So, in this work we observed that urinary excretion of exosomal Oat5 was only increased if renal insult is produced, demonstrating its specificity as a renal injury biomarker.

Vitamin D deficiency in a patient with HDR syndrome.

The case of a patient with clinical symptoms, laboratory and imaging findings of hypoparathyroidism, sensorineural deafness, renal dysplasia HDR, or Barakat syndrome (hypoparathyroidism, deafness, renal dysplasia), and vitamin D deficiency, is presented. A Caucasian man aged 51 years with a history of chronic hypocalcaemia since childhood, was admitted with hypertonia of the body and extremities, and loss of consciousness. On admission, he was found to have severe hypocalcaemia, hyperphosphataemia, severe hypoparathyroidism, low serum magnesium and mild renal insufficiency. Calcium gluconate was administered intravenously supplemented with magnesium, and the patient recovered consciousness while clinical and laboratory findings improved. Evaluation revealed left renal aplasia and sensorineural deafness affecting both ears. Vitamin D deficiency was also present. He was given calcium and vitamin D supplements orally, and the hypocalcaemia was corrected. This case is described as it is an extremely rare case of HDR syndrome with concurrent vitamin D deficiency.

Sialic acid supplementation ameliorates puromycin aminonucleoside nephrosis in rats.

Defects in sialylation are known to have serious consequences on podocyte function leading to collapse of the glomerular filtration barrier and the development of proteinuria. However, the cellular processes underlying aberrant sialylation in renal disease are inadequately defined. We have shown in cultured human podocytes that puromycin aminonucleoside (PAN) downregulates enzymes involved in sialic acid metabolism and redox homeostasis and these can be rescued by co-treatment with free sialic acid. The aim of the current study was to ascertain whether sialic acid supplementation could improve renal function and attenuate desialylation in an in vivo model of proteinuria (PAN nephrosis) and to delineate the possible mechanisms involved. PAN nephrotic rats were supplemented with free sialic acid, its precursor N-acetyl mannosamine or the NADPH oxidase inhibitor apocynin. Glomeruli, urine, and sera were examined for evidence of kidney injury and therapeutic efficacy. Of the three treatment regimens, sialic acid had the broadest efficacy in attenuating PAN-induced injury. Proteinuria and urinary nephrin loss were reduced. Transmission electron microscopy revealed that podocyte ultrastructure, exhibited less severe foot process effacement. PAN-induced oxidative stress was ameliorated as evidenced by a reduction in glomerular NOX4 expression and a downregulation of urine xanthine oxidase levels. Sialylation dysfunction was improved as indicated by reduced urinary concentrations of free sialic acid, restored electrophoretic mobility of podocalyxin, and improved expression of a sialyltransferase. These data indicate that PAN induces alterations in the expression of enzymes involved in redox control and sialoglycoprotein metabolism, which can be ameliorated by sialic acid supplementation possibly via its properties as both an antioxidant and a substrate for sialylation.

[Protective Effects of Different Extracts of Imperatae Rhizoma in Rats with Adriamycin Nephrosis and Influence on Expression of TGF-ß1, and NF-κB p65].

OBJECTIVE: To study the protective effect of Imperatae Rhizoma extract on renal tissues in rats with Adriamycin nephrosis, and to explore the possible mechanism. METHODS: The nephrosis model was induced by adriamycin 6.5 mg/kg intravenously in rats. The rats were randomly divided into seven groups, including normal group, model group, predisone group, petroleum ether groups, ethyl acetate group ,alcohol group, and water parts group, and treated for eight weeks. The protein content of 24 hours urine excretion was tested respectively by automatic biochemistry analyzer each week. After eight weeks, BUN, CRE, TCHO, TG, TP and ALB in serum were examined by automatic biochemistry analyzer. The TNF-α in serum was measured by ELISA. The expression of TGF-ß1, and NF-κB p65 in renal tissues were detected by immunohistochemistry respectively. The pathological changes in the renal were observed by light microscope. RESULTS: Compared with the model group ,the proteinuria of the rats in ethyl acetate group obviously reduced at the 6th, 7th, 8th week, the content of TNF-α in serum and the expression of TGF-ß1, and NF-κB p65 in renal tissues significantly reduced, but the content of TP and ALB in serum were increased obviously. In the alcohol and water parts groups ,the level of TG in serum and the protein content of 24 hours urine excretion of the 6th and 7th week were significantly decreased. The ethyl acetate, alcohol and water parts groups ameliorated the changes of pathology in renal. CONCLUSION: The different extracts of Imperatae Rhizoma had different protective effect in rats with adriamycin nephrosis, and the effect of ethyl acetate group was more stronger than that of other groups. The mechanism may be related to reducing the expression of NF-κB p65 and TGF-ß1, and the content of TNF-α inrenal tissues of rats.

A synergistic therapeutic scheme for hyperglycemia and nephrotic disorders in diabetes.

We previously demonstrated that the utilization of an electrospun scaffold could boost functional outputs of transplanted islets. In this study, we aim to develop a drug-eluting scaffold with a payload of pioglitazone to simultaneously rein in hyperglycemia and recoup lost renal functions in diabetic mice that underwent islet transplantation. The in vivo proliferation of islets was measured by a non-invasive bio-imaging technology whereas the blood insulin, blood glucose and renal proteins were assayed. The local stimulation of transplanted islets by pioglitazone saw an accelerated in vivo proliferation without apoptosis caused by the drug-eluting scaffold. In addition, pioglitazone contributed to an increased secretion of insulin and C-peptide 2, giving rise to an accelerated rein-in of hyperglycemia and enhanced tolerance of sudden oral glucose challenge. Moreover, the accelerated decrease of blood creatinine, urine creatinine and blood urea nitrogen suggested that pioglitazone contributed to the recovery of renal functions compromised by diabetes. Our bioengineering strategy effectively ameliorated hyperglycemia and associated nephrotic disorders, and shed a new light on an engineering approach to combat diabetes.

Leflunomide in addition to steroids improves proteinuria and renal function in adult Henoch-Schoenlein nephritis with nephrotic proteinuria.

AIM: Henoch-Schoenlein nephritis (HSPN) is a severe disease in adults and may cause renal insufficiency in a large portion of patients. But its rarity has led to lack of data. There are few controlled studies on therapy with immunosuppressants in HSPN adults. This study aims to evaluate the effect of leflunomide on HSPN adults with nephrotic proteinuria. METHODS: We retrospectively studied 65 adult patients who had biopsy-proven HSPN with nephrotic proteinuria. Twenty-seven patients (Group P) only received steroids, and 38 (Group P + L) were treated with leflunomide in addition to steroids. The clinical features, laboratory data and pathological findings of both groups were analyzed. RESULTS: The two groups were well-matched at baseline. After 24 months of treatment, urinary protein excretion of both groups decreased significantly from the baseline, and the estimated glomerular filtration rate (eGFR) was higher in Group P + L. Four patients in Group P and three in Group P + L developed to end-stage renal disease at the most recent follow-up. Group P + L showed better renal outcome than Group P. The treatment group and the degree of mesangial hypercellularity were significantly related to renal prognosis. CONCLUSION: Leflunomide combined with steroids is effective for treating adult HSPN with nephrotic proteinuria.

A patient with nephrotic-range proteinuria and focal global glomerulosclerosis.

A young male is evaluated for nephrotic-range proteinuria, hypercalciuria, and an elevated serum creatinine. A renal biopsy is performed and shows focal global glomerulosclerosis. The absence of nephrotic syndrome suggest that glomerulosclerosis was a secondary process. Further analysis of the proteinuria showed it to be due mainly to low-molecular weight proteins. The case illustrates the crucial role of electron microscopy as well as evaluation of the identity of the proteinuria that accompanies a biopsy finding of focal and global or focal and segmental glomerulosclerosis.

Prednisolone-glucose derivative conjugate: synthesis, biodistribution and pharmacodynamics evaluation.

This study was aimed at synthesizing and evaluating a prednisolone-glucose derivative conjugate (PDG) that was expected to increase renal biodistribution without affecting pharmacological action and to decrease the systemic side effects of prednisolone. The PDG was designed and synthesized by tethering 6-amino-6-deoxy-D-glucose (a D-glucose derivative) to prednisolone and its chemical structure was confirmed by (1) H NMR, (13) C NMR, and LC-MS. This conjugate was then subjected to in vitro and in vivo evaluation like stability studies, biological distribution, pharmacodynamics, and systemic side effects studies. In these studies, PDG not only showed significant enhancement of renal target efficiency with high values of relative uptake efficiency (RE, 24.1), concentration efficiency (CE, 8.6), and kidney targeting index (KTI, 16.3), but retained the curative potency against minimal change nephrosis (MCN). In the systemic side effects study, no osteoporosis was observed in rats after the administration of PDG for 20 days, which exhibited limited side effects. Conclusively, our findings showed a pharmacologically active conjugate with the characteristics of renal targeting and limited systemic side effects. The results implied the potential of PDG as a promising therapeutic in the treatment of renal diseases.

Prevention of infection in immunosuppressive patients with autoimmune nephrosis by using an immunostimulating bacterial lysate Broncho-vaxom.

UNLABELLED: The utilization of immunosuppressive agents presents patients with autoimmune nephrosis at a high risk of infection. The present trial was to investigate the efficacy and safety of Broncho-Vaxom on preventing infection in immunosuppressive patients with autoimmune nephrosis. METHODS: 40 patients with autoimmune nephrosis were randomly divided into two groups. The control group (20 cases) routinely received corticosteroid and (or) immunosuppressive therapy, while the treatment group (20 cases) received a capsule containing 7 mg Broncho-Vaxom daily for the first 10 d of each month for 3 consecutive months on the basis of conventional corticosteroid and (or) immunosuppressive therapy. The condition of infection and blood lymphocyte were assessed. RESULTS: 4 patients in the treatment group and 5 patients in the control group were lost during the follow-up period. 25% of patients in the treatment group and 40% of patients in the control group suffered infection. There was no difference in the incidence of infection between the two groups (p > 0.05), while Broncho-Vaxom treated patients suffered a shorter infection period and of which fewer patients need to receive antibiotics therapy (p < 0.05). After the treatment with Broncho-Vaxom, the total number of blood T lymphocyte, proportion of CD4 (+) T lymphocyte, CD4 (+) /CD8 (+) reduced less and the serum IgG rose more obviously (p < 0.05), but the blood lymphocyte, B lymphocyte, CD8 (+) T lymphocyte, IgA and IgM have no differences between the two groups (p > 0.05). CONCLUSION: Broncho-Vaxom might be a good choice for preventing the respiratory infection in nephrosis, especially in the patients under the therapy of immunosuppressive agents.

The effect of omega-3 fatty acids on the atherogenic lipoprotein phenotype in patients with nephrotic range proteinuria.

AIMS: Patients with nephrotic range proteinuria are known to have an increased risk of cardiovascular disease partly due to possessing the atherogenic lipoprotein phenotype. The aim of this study was to examine the effect of high dose omega-3 fatty acids on atherogenic triglyceride rich lipoproteins in patients with nephrotic range proteinuria, comparing their effect on lipoprotein profiles in age and sex matched controls. METHODS: 17 patients with nephrotic range proteinuria and 17 age and sex matched controls were studied. Fasting lipids and lipoproteins were measured before and after 8 weeks treatment with 4 g daily of omega-3 fatty acids (Omacor®). RESULTS: In patients with proteinuria treatment reduced plasma triglyceride by a mean of 0.45 mmol/l (95%CI 0.16 - 0.74, p = 0.005) and plasma very low density lipoprotein cholesterol by a mean of 0.38 (95%CI 0.01 - 0.75, p = 0.04). LDL III concentration fell from 178.8 mg/dl (61.6 - 231.0) to 96.1 mg/dl (49.3 - 204.5), p = 0.05. In patients treatment altered the LDL profile so that LDLIII which was the major subfraction present at baseline was reduced from 49.9% to 29.8% (p = 0.01). Remnant lipoproteins (RLP) also fell with a mean reduction of 3.5 mg/dl in RLP-Cholesterol (95%CI 0.1 - 6.9, p = 0.05) and 12.4 mg/dl in RLP-triglyceride (95%CI 2.6 - 22.2, p = 0.03). There was however a 0.6 mmol/l rise in LDL-C (p = 0.06) in the patients. Treatment did not alter HDL-C. CONCLUSION: In patients with nephrotic range proteinuria, omega-3 fatty acids reduced triglyceride rich lipoproteins, LDL III and remnant lipoproteins. A tendency to an increase in LDL-C was observed but this was offset by an alteration in the distribution of the LDL profile towards lighter, larger LDL particles. We propose that treatment with omega-3 fatty acids in conjunction with a statin may be the ideal therapy in these patients.

Effects of 22-oxa-calcitriol on podocyte injury in adriamycin-induced nephrosis.

BACKGROUND: In various animal studies, vitamin D has been shown to have a significant effect on reduction of proteinuria and the progression of kidney disease. However, little is known on its renoprotective effect in adriamycin (ADR)-induced nephrosis mice. The present study was intended to determine the therapeutic benefit of 22-oxa-calcitriol (OCT), a vitamin D analog, in reducing proteinuria and its renoprotective effect, i.e. preventing podocyte injury on ADR-induced nephrosis mice. METHODS: Three experimental groups were used as follows: (1) nephrosis mice, established by a single intravenous injection of ADR; (2) ADR+OCT mice, nephrosis mice treated with OCT, and (3) mice treated only with OCT as the control group. Podocyte injury was assessed by podocyte apoptosis using the TUNEL assay, podocyte counting, podocyte-specific expressed protein by immunofluorescence and Western blot analysis, and foot process effacement using electron microscopy. RESULTS: Lower proteinuria was observed in ADR+OCT mice. Improvement in glomerulosclerosis and interstitial fibrosis, and prevention of glomerular hyperfiltration were observed in ADR+OCT mice. Immunofluorescence and Western blot analyses showed restoration of downregulated expression of nephrin, CD2AP and podocin. Nevertheless, dendrin expression was not restored. An insignificant reduction in podocyte numbers was found in ADR+OCT mice. Complete foot process effacement was partially prevented in ADR+OCT mice. CONCLUSIONS: The results indicate that OCT reduces podocyte injury and has renoprotective effects in ADR nephrosis mice.