This study was designed to evaluate serum LC3-II, BCL-2, IL-1β, TGF-β1, and podocin levels in. type 2 diabetes (T2DM) patients with renal dysfunction.
METHODS: 176 Turkish subjects were enrolled, of whom 26 were healthy, and 150 had T2DM.
METHODS: were classified according to albumin urea ratio: 88 patients had macroalbuminuria, 20. patients had microalbuminuria, and 42 had normoalbuminuria. T2DM patients were also. classified into three groups according to proteinuria and eGFR stages.
RESULTS: Increased serum LC3-II levels in patients with T2DM with increased urinary albumin. extraction and impaired renal functions. There was a strong relationship between serum. LC3-II levels and serum BCL-2, IL-1β, TGF-β1, and Podocin levels. The efficiency of LC3- II as a diagnostic biomarker in the differential diagnosis of DM patients with. macroproteinuria from DM patients with normoproteinuria was 75.4%.
CONCLUSIONS: It was thought that increased serum LC3-II levels in T2DM patients with impaired renal. functions may cause renal podocyte damage. In these patients, serum LC3-II levels can be. evaluated as a new biomarker to follow the development of renal damage.

UNASSIGNED: Diabetic kidney disease (DKD) is the most common and deranging microvascular complication of diabetes mellitus (DM). Podocytopathy is a key component of glomerular damage in DKD. Micro RNA-21 (miRNA-21) is an epigenetic regulator that plays a role in podocyte damage; however, the results of previous studies have not resolved the controversy about the role of miRNA-21 in the pathogenesis of DKD.
UNASSIGNED: The objective was to investigate the correlation between miRNA-21 levels and urinary nephrin, podocin, and urinary albumin-creatinine ratio (UACR) in patients with type 2 DM and albuminuria.
UNASSIGNED: This is a cross-sectional study.
UNASSIGNED: This study was carried out in internal medicine outpatient clinic of Cipto Mangunkusumo Hospital Jakarta, Indonesia.
UNASSIGNED: This study consisted of 42 adults with type 2 DM and albuminuria.
UNASSIGNED: The measurements include (1) Serum miRNA-21; (2) urinary podocin, nephrin, and albumin-creatinine ratio; and (3) serum miRNA-21 correlated to urinary podocin, nephrin, and albumin-creatinine ratio.
UNASSIGNED: The Spearman bivariate analysis to assess the correlation of miRNA-21 with nephrin, podocin, and UACR.
UNASSIGNED: The mean relative expression of miRNA-21 was 0.069 (0.024), the median for nephrin, podocin, and UACR was 35.5 (15.75-51.25) ng/mL, 0.516 (0.442-0.545) ng/mL, and 150 (94.56-335.75) ng/mL, respectively. A correlation between miRNA-21 and nephrin was observed (r = 0.598; P < .0001). There was a correlation between miRNA-21 and UACR (r = 0.604; P < .0001). No correlation was found between miRNA-21 and podocin.
UNASSIGNED: A lack of non-DM and non-albuminuric control population and small sample size. We could not exclude concurrent disease, and all other potential confounding variables, particularly those related to inflammation.
UNASSIGNED: The miRNA-21 can be considered an early biomarker for podocytopathy and albuminuria in DM, highlighting its potential for early diagnostic and therapeutic interventions. Further research is required to confirm these findings and explore their clinical applications, which could significantly alter management strategies for DKD.
UNASSIGNED: La maladie rénale diabétique (MRD) est la complication microvasculaire la plus fréquente et une des plus inquiétantes du diabète (DB). La podocytose est une composante clé des lésions glomérulaires en contexte de MRD. Le micro-ARN-21 (miARN-21) est un régulateur épigénétique impliqué dans les lésions podocytaires, mais les résultats des études précédentes n’ont pas résolu la controverse sur le rôle du miARN-21 dans la pathogenèse de la MRD.
UNASSIGNED: Étudier la corrélation entre le taux de miARN-21 et la néphrine, la podocine et le rapport albumine-créatinine (RAC) urinaires chez les patients atteints de diabète de type 2 et présentant une albuminurie.
UNASSIGNED: Étude transversale.
UNASSIGNED: La clinique ambulatoire de médecine interne de l’hôpital Cipto Mangunkusumo à Jakarta (Indonésie).
UNASSIGNED: 42 adultes diabétiques de type 2 présentant une albuminurie.
UNASSIGNED: (1) miARN-21 sérique; (2) podocine, néphrine et rapport albumine-créatinine urinaires; (3) le miARN-21 sérique corrélé à la podocine, à la néphrine et au rapport albumine-créatinine urinaires.
UNASSIGNED: L’analyse bivariée de Spearman a servi à évaluer la corrélation entre le taux de miARN-21 et la néphrine, la podocine et le rapport albumine-créatinine urinaires.
UNASSIGNED: L’expression relative moyenne du miARN-21 était de 0,069 ng/ml (0,024). La médiane s’établissait à 35,5 (15,75–51,25) ng/ml pour la néphrine, à 0,516 (0,442–0,545) ng/ml pour la podocine et à 150 (94,56–335,75) ng/ml pour le RAC. On a observé une corrélation entre le miARN-21 et la néphrine (r = 0,598; p = < 0,0001), de même qu’entre le miARN-21 et le RAC (r = 0,604; p = <0,0001). Aucune corrélation n’a été observée entre le miARN-21 et la podocine.
UNASSIGNED: L’étude ne comporte pas de population témoin (non-DB et sans albuminurie) et l’échantillon est de petite taille. Il n’a pas été possible d’exclure les maladies concomitantes, de même que toutes les autres variables confondantes potentielles, en particulier celles qui sont liées à l’inflammation.
UNASSIGNED: Chez les patients diabétiques, le miARN-21 peut être considéré comme un biomarqueur précoce de la podocytose et de l’albuminurie, ce qui met en évidence son potentiel à faire partie des interventions diagnostiques et thérapeutiques précoces. D’autres recherches sont nécessaires pour confirmer ces résultats et explorer leurs applications cliniques, ce qui pourrait modifier considérablement les stratégies de prise en charge de la maladie rénale diabétique.

Focal segmental glomerulosclerosis (FSGS) defines a distinct histologic pattern observed in kidney tissue that is linked to several distinct underlying causes, all converging on the common factor of podocyte injury. It presents a considerable challenge in terms of classification because of its varied underlying causes and the limited correlation between histopathology and clinical outcomes. Critically, precise nomenclature is key to describe and delineate the pathogenesis, subsequently guiding the selection of suitable and precision therapies. A proposed pathomechanism-based approach has been suggested for FSGS classification. This approach differentiates among primary, secondary, genetic, and undetermined causes, aiming to provide clarity. Genetic FSGS from monogenic mutations can emerge during childhood or adulthood, and it is advisable to conduct genetic testing in cases in which there is a family history of chronic kidney disease, nephrotic syndrome, or resistance to treatment. Genome-wide association studies have identified several genetic risk variants, such as those in apolipoprotein L1 (APOL1), that play a role in the development of FSGS. Currently, no specific treatments have been approved to treat genetic FSGS; however, interventions targeting underlying cofactor deficiencies have shown potential in some cases. Furthermore, encouraging results have emerged from a phase 2 trial investigating inaxaplin, a novel small molecule APOL1 channel inhibitor, in APOL1-associated FSGS.

The ubiquitination function in diabetic nephropathy (DN) has attracted much attention, but there is a lack of information on its ubiquitylome profile. To examine the differences in protein content and ubiquitination in the kidney between db/db mice and db/m mice, we deployed liquid chromatography-mass spectrometry (LC-MS/MS) to conduct analysis. We determined 145 sites in 86 upregulated modified proteins and 66 sites in 49 downregulated modified proteins at the ubiquitinated level. Moreover, 347 sites among the 319 modified proteins were present only in the db/db mouse kidneys, while 213 sites among the 199 modified proteins were present only in the db/m mouse kidneys. The subcellular localization study indicated that the cytoplasm had the highest proportion of ubiquitinated proteins (31.87%), followed by the nucleus (30.24%) and the plasma membrane (20.33%). The enrichment analysis revealed that the ubiquitinated proteins are mostly linked to tight junctions, oxidative phosphorylation, and thermogenesis. Podocin, as a typical protein of slit diaphragm, whose loss is a crucial cause of proteinuria in DN. Consistent with the results of ubiquitination omics, the K261R mutant of podocin induced the weakest ubiquitination compared with the K301R and K370R mutants. As an E3 ligase, c-Cbl binds to podocin, and the regulation of c-Cbl can impact the ubiquitination of podocin. In conclusion, in DN, podocin ubiquitination contributes to podocyte injury, and K261R is the most significant site. c-Cbl participates in podocin ubiquitination and may be a direct target for preserving the integrity of the slit diaphragm structure, hence reducing proteinuria in DN.

暂无摘要。

Podocytes are involved in maintaining kidney function and are a major focus of research on diabetic kidney disease (DKD). Urinary biomarkers derived from podocyte fragments and molecules have been proposed for the diagnosis and monitoring of DKD. Various methods have been used to detect intact podocytes and podocyte-derived microvesicles in urine, including centrifugation, visualization, and molecular quantification. Quantification of podocyte-specific protein targets and messenger RNA levels can be performed by Western blotting or enzyme-linked immunosorbent assay and quantitative polymerase chain reaction, respectively. At present, many of these techniques are expensive and labor-intensive, all limiting their widespread use in routine clinical tests. While the potential of urinary podocyte markers for monitoring and risk stratification of DKD has been explored, systematic studies and external validation are lacking in the current literature. Standardization and automation of laboratory methods should be a priority for future research, and the added value of these methods to routine clinical tests should be defined.

The most common genetic causes of steroid-resistant nephrotic syndrome (SRNS) are mutations in the NPHS2 gene, which encodes the cholesterol-binding, lipid-raft associated protein podocin. Mass spectrometry and cDNA sequencing revealed the existence of a second shorter isoform in the human kidney in addition to the well-studied canonical full-length protein. Distinct subcellular localization of the shorter isoform that lacks part of the conserved PHB domain suggested a physiological role. Here, we analyzed whether this protein can substitute for the canonical full-length protein. The short isoform of podocin is not found in other organisms except humans. We therefore analysed a mouse line expressing the equivalent podocin isoform (podocinΔexon5) by CRISPR/Cas-mediated genome editing. We characterized the phenotype of these mice expressing podocinΔexon5 and used targeted mass spectrometry and qPCR to compare protein and mRNA levels of podocinwildtype and podocinΔexon5. After immunolabeling slit diaphragm components, STED microscopy was applied to visualize alterations of the podocytes\' foot process morphology.Mice homozygous for podocinΔexon5 were born heavily albuminuric and did not survive past the first 24 h after birth. Targeted mass spectrometry revealed massively decreased protein levels of podocinΔexon5, whereas mRNA abundance was not different from the canonical form of podocin. STED microscopy revealed the complete absence of podocin at the podocytes\' slit diaphragm and severe morphological alterations of podocyte foot processes. Mice heterozygous for podocinΔexon5 were phenotypically and morphologically unaffected despite decreased podocin and nephrin protein levels.The murine equivalent to the human short isoform of podocin cannot stabilize the lipid-protein complex at the podocyte slit diaphragm. Reduction of podocin levels at the site of the slit diaphragm complex has a detrimental effect on podocyte function and morphology. It is associated with decreased protein abundance of nephrin, the central component of the filtration-slit forming slit diaphragm protein complex.

Podocin is a key membrane scaffolding protein of the kidney podocyte essential for intact glomerular filtration. Mutations in NPHS2, the podocin-encoding gene, represent the commonest form of inherited nephrotic syndrome (NS), with early, intractable kidney failure. The most frequent podocin gene mutation in European children is R138Q, causing retention of the misfolded protein in the endoplasmic reticulum. Here, we provide evidence that podocin R138Q (but not wild-type podocin) complexes with the intermediate filament protein keratin 8 (K8) thereby preventing its correct trafficking to the plasma membrane. We have also identified a small molecule (c407), a compound that corrects the Cystic Fibrosis Transmembrane Conductance Regulator protein defect, that interrupts this complex and rescues mutant protein mistrafficking. This results in both the correct localization of podocin at the plasma membrane and functional rescue in both human patient R138Q mutant podocyte cell lines, and in a mouse inducible knock-in model of the R138Q mutation. Importantly, complete rescue of proteinuria and histological changes was seen when c407 was administered both via osmotic minipumps or delivered orally prior to induction of disease or crucially via osmotic minipump two weeks after disease induction. Thus, our data constitute a therapeutic option for patients with NS bearing a podocin mutation, with implications for other misfolding protein disorders. Further studies are necessary to confirm our findings.

Numerous oxidative stresses are detected in patients with diabetic kidney disease, resulting in insulin resistance that damages the pancreas and kidney. Renal podocytes insensitive to insulin lead to decreased nephrin and podocin and increased insulin receptor serine. The authors did an experiment on diabetic rats to examine the effect of DLBS3233 on repairing insulin resistance.
UNASSIGNED: Thirty adult male Wistar rats were randomly divided into six groups (n=5 per group): group of nondiabetic rats as a negative control (group 1); untreated diabetic rats (group 2); diabetic rats treated with DLBS3233 4.5 mg/kg BB (group 3); 9 mg/kg BB (group 4); 18 mg/kg BB (group 5); and diabetic rats treated with pioglitazone (group 6). The authors checked Homeostatic Model Assessment for Insulin Resistance to corroborate insulin resistance prior to DLBS3233 administration in diabetic rats. Immunohistochemistry was performed to examine the expression of renal antimalondialdehyde (MDA) antibodies, nephrin, podocin, and insulin receptor serine. The data were analyzed using analysis of variance and the t-test.
UNASSIGNED: In the DBLS3233 group, immunohistochemistry showed enhanced expression of renal nephrin and podocin, as well as diminished expression of anti-MDA antibody, along with decreased insulin receptor serine. From statistical analysis, anti-MDA antibodies and insulin receptor serine showed lower expression, whereas the expression of nephrin and podocin were enhanced compared to untreated groups (P<0.05).
UNASSIGNED: DLBS3233 reduces oxidative stress by decreasing MDA and improves insulin resistance by increasing the expression of renal nephrin and podocin as well as decreasing insulin receptor serine.

OBJECTIVE: Sepsis is a common cause of acute kidney injury (AKI). Lipopolysaccharides (LPS) are the main gram-negative bacterial cell wall component with a well-documented inflammatory impact. Diclofenac (DIC) is a non-steroidal anti-inflammatory drug with a potential nephrotoxic effect. Curcumin (CUR) and silymarin (SY) are natural products with a wide range of pharmacological activities, including antioxidant and anti-inflammatory ones. The objective of this study was to examine the protective impact of CUR and SY against kidney damage induced by LPS/DIC co-exposure.
METHODS: Four groups of rats were used; control; LPS/DIC, LPS/DIC + CUR, and LPS/DIC + SY group. LPS/DIC combination induced renal injury at an LPS dose much lower than a nephrotoxic one.
RESULTS: Nephrotoxicity was confirmed by histopathological examination and significant elevation of renal function markers. LPS/DIC induced oxidative stress in renal tissues, evidenced by decreasing reduced glutathione and superoxide dismutase, and increasing lipid peroxidation. Inflammatory response of LPS/DIC was associated with a significant increase of renal IL-1β and TNF-α. Treatment with either CUR or SY shifted measured parameters to the opposite side. Moreover, LPS/DIC exposure was associated with upregulation of mTOR and endoplasmic reticulum stress protein (CHOP) and downregulation of podocin These effects were accompanied by reduced gene expression of cystatin C and KIM-1. CUR and SY ameliorated LPS/DIC effect on the aforementioned genes and protein significantly.
CONCLUSIONS: This study confirms the potential nephrotoxicity; mechanisms include upregulation of mTOR, CHOP, cystatin C, and KIM-1 and downregulation of podocin. Moreover, both CUR and SY are promising nephroprotective products against LPS/DIC co-exposure.