Your search keyword '"Diabetic Nephropathies"' showing total 13,887 results

1. Response to "Susceptibility to diabetic nephropathy".

Author

Howie AJ and Milford DV

Subjects

Humans, Genetic Predisposition to Disease, Genotype, Diabetic Nephropathies, Diabetes Mellitus

Published

2024

2. Navigating the future of diabetes: innovative nomogram models for predicting all-cause mortality risk in diabetic nephropathy.

Author

Wu S, Wang H, Pan D, Guo J, Zhang F, Ning Y, Gu Y, and Guo L

Subjects

Humans, Nutrition Surveys, Nomograms, Uric Acid, Albumins, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Objective: This study aims to establish and validate a nomogram model for the all-cause mortality rate in patients with diabetic nephropathy (DN)., Methods: We analyzed data from the National Health and Nutrition Examination Survey (NHANES) spanning from 2007 to 2016. A random split of 7:3 was performed between the training and validation sets. Utilizing follow-up data until December 31, 2019, we examined the all-cause mortality rate. Cox regression models and Least Absolute Shrinkage and Selection Operator (LASSO) regression models were employed in the training cohort to develop a nomogram for predicting all-cause mortality in the studied population. Finally, various validation methods were employed to assess the predictive performance of the nomogram, and Decision Curve Analysis (DCA) was conducted to evaluate the clinical utility of the nomogram., Results: After the results of LASSO regression models and Cox multivariate analyses, a total of 8 variables were selected, gender, age, poverty income ratio, heart failure, body mass index, albumin, blood urea nitrogen and serum uric acid. A nomogram model was built based on these predictors. The C-index values in training cohort of 3-year, 5-year, 10-year mortality rates were 0.820, 0.807, and 0.798. In the validation cohort, the C-index values of 3-year, 5-year, 10-year mortality rates were 0.773, 0.788, and 0.817, respectively. The calibration curve demonstrates satisfactory consistency between the two cohorts., Conclusion: The newly developed nomogram proves to be effective in predicting the all-cause mortality risk in patients with diabetic nephropathy, and it has undergone robust internal validation., (© 2024. The Author(s).)

Published

2024

3. Lessons learned from early-stage clinical trials for diabetic nephropathy.

Author

Rendell M

Subjects

Humans, Anti-Inflammatory Agents pharmacology, Anti-Inflammatory Agents therapeutic use, Mineralocorticoids pharmacology, Mineralocorticoids therapeutic use, Clinical Trials as Topic, Diabetes Mellitus drug therapy, Diabetic Nephropathies, Sodium-Glucose Transporter 2 Inhibitors pharmacology, Sodium-Glucose Transporter 2 Inhibitors therapeutic use

Abstract

Introduction: The evolution of treatment for diabetic nephropathy illustrates how basic biochemistry and physiology have led to new agents such as SGLT2 inhibitors and mineralocorticoid blockers. Conversely, clinical studies performed with these agents have suggested new concepts for investigational drug development. We reviewed currently available treatments for diabetic nephropathy and then analyzed early clinical trials of new agents to assess the potential for future treatment modalities., Areas Covered: We searched ClinicalTrials.gov for new agents under study for diabetic nephropathy in the past decade. Once we have identified investigation trials of new agents, we then used search engines and Pubmed.gov to find publications providing insight on these drugs. Current treatments have shown benefit in both cardiac and renal disease. In our review, we found 51 trials and 43 pharmaceuticals in a number of drug classes: mineralocorticoid blockers, anti-inflammatory, anti-fibrosis, nitric oxide stimulatory, and podocyte protection, and endothelin inhibitors., Expert Opinion: It is difficult to predict which early phase treatments will advance to confirmatory clinical trials. Current agents are thought to improve hemodynamic function. However, the coincident benefit of both myocardial function and the glomerulus argues for primary effects at the subcellular level, and we follow the evolution of agents which modify fundamental cellular processes.

Published

2024

4. YME1L-mediated mitophagy protects renal tubular cells against cellular senescence under diabetic conditions.

Author

Luo Y, Zhang L, Su N, Liu L, and Zhao T

Subjects

Humans, Mice, Animals, Mitophagy physiology, Saccharomyces cerevisiae, Chromatography, Liquid, Tandem Mass Spectrometry, Epithelial Cells metabolism, Disease Models, Animal, Cellular Senescence, Metalloendopeptidases metabolism, Metalloendopeptidases pharmacology, Diabetic Nephropathies, Diabetes Mellitus metabolism

Abstract

Background: The senescence of renal tubular epithelial cells (RTECs) is crucial in the progression of diabetic kidney disease (DKD). Accumulating evidence suggests a close association between insufficient mitophagy and RTEC senescence. Yeast mitochondrial escape 1-like 1 (YME1L), an inner mitochondrial membrane metalloprotease, maintains mitochondrial integrity. Its functions in DKD remain unclear. Here, we investigated whether YME1L can prevent the progression of DKD by regulating mitophagy and cellular senescence., Methods: We analyzed YME1L expression in renal tubules of DKD patients and mice, explored transcriptomic changes associated with YME1L overexpression in RTECs, and assessed its impact on RTEC senescence and renal dysfunction using an HFD/STZ-induced DKD mouse model. Tubule-specific overexpression of YME1L was achieved through the use of recombinant adeno-associated virus 2/9 (rAAV 2/9). We conducted both in vivo and in vitro experiments to evaluate the effects of YME1L overexpression on mitophagy and mitochondrial function. Furthermore, we performed LC-MS/MS analysis to identify potential protein interactions involving YME1L and elucidate the underlying mechanisms., Results: Our findings revealed a significant decrease in YME1L expression in the renal tubules of DKD patients and mice. However, tubule-specific overexpression of YME1L significantly alleviated RTEC senescence and renal dysfunction in the HFD/STZ-induced DKD mouse model. Moreover, YME1L overexpression exhibited positive effects on enhancing mitophagy and improving mitochondrial function both in vivo and in vitro. Mechanistically, our LC-MS/MS analysis uncovered a crucial mitophagy receptor, BCL2-like 13 (BCL2L13), as an interacting partner of YME1L. Furthermore, YME1L was found to promote the phosphorylation of BCL2L13, highlighting its role in regulating mitophagy., Conclusions: This study provides compelling evidence that YME1L plays a critical role in protecting RTECs from cellular senescence and impeding the progression of DKD. Overexpression of YME1L demonstrated significant therapeutic potential by ameliorating both RTEC senescence and renal dysfunction in the DKD mice. Moreover, our findings indicate that YME1L enhances mitophagy and improves mitochondrial function, potentially through its interaction with BCL2L13 and subsequent phosphorylation. These novel insights into the protective mechanisms of YME1L offer a promising strategy for developing therapies targeting DKD., (© 2024. The Author(s).)

Published

2024

5. The research trends of ferroptosis in diabetes: a bibliometric analysis.

Author

Xiong L, Hu F, Li Z, Zhou X, and Zheng Y

Subjects

Humans, Bibliometrics, China, Mitochondria, Ferroptosis, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Objective: Exploring the mechanism of ferroptosis as a potential avenue for investigating the pathogenesis and therapeutic outlook of diabetes mellitus and its complications has emerged as a focal point within recent years. Herein, we employ a bibliometric approach to delineate the current landscape of ferroptosis research in the context of diabetes mellitus. Our objective is to furnish insights and scholarly references conducive to the advancement of comprehensive investigations and innovations in related domains., Methods: We included studies on ferroptosis in diabetes, obtained from the Web of Science Core Collection. All publications were transported in plaintext full-record format and were analyzed by CiteSpace 6.2.R4 for bibliometric analysis., Results: Four hundred and forty-eight records that met the criteria were included. The publications released during the initial 3 years were relatively small, while there was a sudden surge of publications published in 2022 and 2023. Representing 41 countries and 173 institutions, China and Wuhan University led the research on ferroptosis in diabetes. The author with the highest number of published papers is Zhongming Wu, while Dixon SJ is the most frequently cited author. The journal with the highest number of co-citations is Cell . The most common keywords include oxidative stress, cell death, lipid peroxidation, and metabolism. Extracted keywords predominantly focus on NLRP3 inflammatory, diabetic kidney disease, mitochondria, iron overload, and cardiomyopathy., Conclusion: The escalating recognition of ferroptosis as a potential therapeutic target for deciphering the intricate mechanisms underlying diabetes and its complications is underscored by a noteworthy surge in relevant research publications. This surge has catapulted ferroptosis into the spotlight as a burgeoning and vibrant research focus within the field., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Xiong, Hu, Li, Zhou and Zheng.)

Published

2024

6. Sex differences in kidney metabolism may reflect sex-dependent outcomes in human diabetic kidney disease.

Author

Clotet-Freixas S, Zaslaver O, Kotlyar M, Pastrello C, Quaile AT, McEvoy CM, Saha AD, Farkona S, Boshart A, Zorcic K, Neupane S, Manion K, Allen M, Chan M, Chen X, Arnold AP, Sekula P, Steinbrenner I, Köttgen A, Dart AB, Wicklow B, McGavock JM, Blydt-Hansen TD, Barrios C, Riera M, Soler MJ, Isenbrandt A, Lamontagne-Proulx J, Pradeloux S, Coulombe K, Soulet D, Rajasekar S, Zhang B, John R, Mehrotra A, Gehring A, Puhka M, Jurisica I, Woo M, Scholey JW, Röst H, and Konvalinka A

Subjects

Adolescent, Adult, Humans, Female, Male, Animals, Mice, Sex Characteristics, Pyruvates, Glucose, Kidney, Diabetic Nephropathies, Renal Insufficiency, Chronic, Diabetes Mellitus

Abstract

Diabetic kidney disease (DKD) is the main cause of chronic kidney disease (CKD) and progresses faster in males than in females. We identify sex-based differences in kidney metabolism and in the blood metabolome of male and female individuals with diabetes. Primary human proximal tubular epithelial cells (PTECs) from healthy males displayed increased mitochondrial respiration, oxidative stress, apoptosis, and greater injury when exposed to high glucose compared with PTECs from healthy females. Male human PTECs showed increased glucose and glutamine fluxes to the TCA cycle, whereas female human PTECs showed increased pyruvate content. The male human PTEC phenotype was enhanced by dihydrotestosterone and mediated by the transcription factor HNF4A and histone demethylase KDM6A. In mice where sex chromosomes either matched or did not match gonadal sex, male gonadal sex contributed to the kidney metabolism differences between males and females. A blood metabolomics analysis in a cohort of adolescents with or without diabetes showed increased TCA cycle metabolites in males. In a second cohort of adults with diabetes, females without DKD had higher serum pyruvate concentrations than did males with or without DKD. Serum pyruvate concentrations positively correlated with the estimated glomerular filtration rate, a measure of kidney function, and negatively correlated with all-cause mortality in this cohort. In a third cohort of adults with CKD, male sex and diabetes were associated with increased plasma TCA cycle metabolites, which correlated with all-cause mortality. These findings suggest that differences in male and female kidney metabolism may contribute to sex-dependent outcomes in DKD.

Published

2024

7. Landscape of infiltrating immune cells and related genes in diabetic kidney disease.

Author

Wang J, Chen W, Chen S, Yue G, Hu Y, and Xu J

Subjects

Humans, Kidney, Computational Biology, Glomerular Filtration Rate, Diabetic Nephropathies, Kidney Failure, Chronic metabolism, Diabetes Mellitus

Abstract

Introduction: Diabetic kidney disease (DKD) is one of the prominent microvascular complications of diabetes and the leading cause of end-stage renal disease. Inflammation plays a crucial role in the development and progression of DKD. Currently, only a few studies depict the landscape of infiltrating immune cells and their potential regulatory network in DKD. To gain a better understanding of the role of immune cells in the renal microenvironment, we sought to reveal the profile of infiltrating immune cells and their potential regulatory network in DKD., Methods: We obtained the transcriptomes and the corresponding clinical data of 19 DKD and 25 control samples from the Gene Expression Omnibus and Nephroseq databases, respectively. Thereafter, we conducted an analysis on the infiltrating immune cells and identified immune-related differentially expressed genes through bioinformatics. Finally, correlation analyses among immune cells, immune genes, and clinical manifestations were performed, and differentially infiltrating immune cell subsets were verified through multiplex immunofluorescence staining., Results: We demonstrated the landscape of infiltrating immune cells in patients with DKD and identified the top five hub immune regulatory genes (C3, IL7R, TYROBP, BMP2, and CXCL6). Three of the core genes (C3, BMP2, and CXCL6) were significantly correlated with the estimated glomerular filtration rate. Through multiplex immunofluorescence staining, we verified that macrophage numbers were remarkably elevated, whereas Treg cells were remarkably reduced in diabetic kidney tissues. Th2 cells were scarce in the kidney tissue., Conclusion: Collectively, our findings shed light on new, possible therapeutic strategies for DKD, from an immune microenvironment perspective., (© 2023. The Author(s), under exclusive licence to Japanese Society of Nephrology.)

Published

2024

8. Interpretable prediction model for assessing diabetes complication risks in Chinese sufferers.

Author

Shiren Y, Jiangnan Y, Xinhua Y, and Xinye N

Subjects

Humans, Algorithms, Asian People, China epidemiology, Diabetic Nephropathies, Diabetic Retinopathy diagnosis, Diabetic Retinopathy epidemiology, Diabetic Retinopathy etiology, Diabetes Mellitus

Abstract

Aims: With growing concerns over complications in diabetes sufferers, this study sought to develop an interpretable machine learning model to offer enhanced diagnostic and treatment recommendations., Methods: We assessed coronary heart disease, diabetic nephropathy, diabetic retinopathy, and fatty liver disease using logistic regression, decision tree, random forest, and CatBoost algorithms. The SHAP algorithm was employed to elucidate the model's predictions, offering a more in-depth understanding of influential features., Results: The CatBoost model notably outperformed other algorithms in AUC, achieving an average AUC of 90.47 % for the four complications. Through SHAP analysis and visualization, we provided clear and actionable insights into risk factors, enabling better complication risk assessment., Conclusions: We introduced an innovative, interpretable complication risk model for people with diabetes. This not only offers a potent tool for healthcare professionals but also empowers sufferers with clearer self-assessment capabilities, encouraging earlier preventive actions. Further studies will underscore the model's clinical applicability., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier B.V. All rights reserved.)

Published

2024

9. VDR Activation Attenuates Renal Tubular Epithelial Cell Ferroptosis by Regulating Nrf2/HO-1 Signaling Pathway in Diabetic Nephropathy.

Author

Wang H, Yu X, Liu D, Qiao Y, Huo J, Pan S, Zhou L, Wang R, Feng Q, and Liu Z

Subjects

Animals, Mice, Epithelial Cells, Glutathione, Heme Oxygenase-1, NF-E2-Related Factor 2, Receptors, Calcitriol, Signal Transduction, Diabetes Mellitus, Diabetic Nephropathies, Ferroptosis

Abstract

Diabetic nephropathy (DN) is a serious microvascular complication of diabetes. Ferroptosis, a new form of cell death, plays a crucial role in the pathogenesis of DN. Renal tubular injury triggered by ferroptosis might be essential in this process. Numerous studies demonstrate that the vitamin D receptor (VDR) exerts beneficial effects by suppressing ferroptosis. However, the underlying mechanism has not been fully elucidated. Thus, they verified the nephroprotective effect of VDR activation and explored the mechanism by which VDR activation suppressed ferroptosis in db/db mice and high glucose-cultured proximal tubular epithelial cells (PTECs). Paricalcitol (PAR) is a VDR agonist that can mitigate kidney injury and prevent renal dysfunction. PAR treatment could inhibit ferroptosis of PTECs through decreasing iron content, increasing glutathione (GSH) levels, reducing malondialdehyde (MDA) generation, decreasing the expression of positive ferroptosis mediator transferrin receptor 1 (TFR-1), and enhancing the expression of negative ferroptosis mediators including ferritin heavy chain (FTH-1), glutathione peroxidase 4 (GPX4), and cystine/glutamate antiporter solute carrier family 7 member 11 (SLC7A11). Mechanistically, VDR activation upregulated the NFE2-related factor 2/heme oxygenase-1 (Nrf2/HO-1) signaling pathway to suppress ferroptosis in PTECs. These findings suggested that VDR activation inhibited ferroptosis of PTECs in DN via modulating the Nrf2/HO-1 signaling pathway., (© 2023 The Authors. Advanced Science published by Wiley-VCH GmbH.)

Published

2024

10. Neferine inhibits the progression of diabetic nephropathy by modulating the miR-17-5p/nuclear factor E2-related factor 2 axis.

Author

Hongmei H, Maojun Y, Ting LI, Dandan W, Ying LI, Xiaochi T, Lu Y, Shi GU, and Yong XU

Subjects

Humans, Mice, Animals, NF-E2-Related Factor 2 genetics, NF-E2-Related Factor 2 metabolism, Antioxidants pharmacology, Glucose, Fibrosis, Superoxide Dismutase metabolism, Urea pharmacology, Oxidative Stress, Diabetic Nephropathies drug therapy, Diabetic Nephropathies genetics, Diabetic Nephropathies metabolism, MicroRNAs genetics, Diabetes Mellitus, Benzylisoquinolines

Abstract

Objective: To investigate the effect of Neferine (Nef) on diabetic nephropathy (DN) and to explore the mechanism of Nef in DN based on miRNA regulation theory., Methods: A DN mouse model was constructed and treated with Nef. Serum creatinine (Crea), blood urea (UREA) and urinary albumin were measured in mice by kits, and renal histopathological changes and fibrosis were observed by hematoxylin-eosin staining and Masson staining. Renal tissue superoxide dismutase (SOD), malondialdehyde (MDA) and glutathione peroxidase (GSH-Px) activities were measured by enzyme-linked immunosorbent assay (ELISA). Western blotting was used to detect the expression of nuclear factor E2-related factor 2 (Nrf2)/ heme oxygenase 1 (HO-1) signaling pathway-related proteins in kidney tissues. Quantitative reverse transcription-polymerase chain reaction (qRT-PCR) was used to detect the expression of miR-17-5p in kidney tissues. Subsequently, a DN in vitro model was constructed by high glucose culture of human mesangial cells (HMCs), cells were transfected with miR-17-5p mimic and/or treated with Nef, and we used qRT-PCR to detect cellular miR-17 expression, flow cytometry to detect apoptosis, ELISAs to detect cellular SOD, MDA, and GSH-Px activities, Western blots to detect Nrf2/HO-1 signaling pathway-related protein expression, and dual luciferase reporter gene assays to verify the targeting relationship between Nrf2 and miR-17-5p., Results: Administration of Nef significantly reduced the levels of blood glucose, Crea, and UREA and the expression of miR-17-5p, improved renal histopathology and fibrosis, significantly reduced MDA levels, elevated SOD and GSH-Px activities, and activated Nrf2 expression in kidney tissues from mice with DN. Nrf2 is a post-transcriptional target of miR-17-5p. In HMCs transfected with miR-17-5p mimics, the mRNA and protein levels of Nrf2 were significantly suppressed. Furthermore, miR-17-5p overexpression and Nef intervention resulted in a significant increase in high glucose-induced apoptosis and MDA levels in HMCs and a significant decrease in the protein expression of HO-1 and Nrf2., Conclusion: Collectively, these results indicate that Nef has an ameliorative effect on DN, and the mechanism may be through the miR-17-5p/Nrf2 pathway.

Published

2024

11. Ketone Body Metabolism in Diabetic Kidney Disease.

Author

Yamahara K, Yasuda-Yamahara M, Kuwagata S, Chin-Kanasaki M, and Kume S

Subjects

Humans, Ketone Bodies metabolism, Diabetic Nephropathies, Ketosis metabolism, Diabetes Complications, Hyperglycemia, Diabetes Mellitus

Abstract

Ketone bodies have a negative image because of ketoacidosis, one of the acute and serious complications in diabetes. The negative image persists despite the fact that ketone bodies are physiologically produced in the liver and serve as an indispensable energy source in extrahepatic organs, particularly during long-term fasting. However, accumulating experimental evidence suggests that ketone bodies exert various health benefits. Particularly in the field of aging research, there is growing interest in the potential organoprotective effects of ketone bodies. In addition, ketone bodies have a potential role in preventing kidney diseases, including diabetic kidney disease (DKD), a diabetic complication caused by prolonged hyperglycemia that leads to a decline in kidney function. Ketone bodies may help alleviate the renal burden from hyperglycemia by being used as an alternative energy source in patients with diabetes. Furthermore, ketone body production may reduce inflammation and delay the progression of several kidney diseases in addition to DKD. Although there is still insufficient research on the use of ketone bodies as a treatment and their effects, their renoprotective effects are being gradually proven. This review outlines the ketone body-mediated renoprotective effects in DKD and other kidney diseases., (Copyright © 2024 The Author(s). Published by Wolters Kluwer Health, Inc. on behalf of the American Society of Nephrology.)

Published

2024

12. Identification and analysis of diverse cell death patterns in diabetic kidney disease using microarray-based transcriptome profiling and single-nucleus RNA sequencing.

Author

Luo Y, Liu L, and Zhang C

Subjects

Humans, Gene Expression Profiling, Cell Death, Sequence Analysis, RNA, RNA, Small Nuclear, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Background: Diabetic kidney disease (DKD) is the most lethal complication of diabetes. Diverse programmed cell death (PCD) has emerged as a crucial disease phenotype that has the potential to serve as an indicator of renal function decline and can be used as a target for researching drugs for DKD., Methods: Microarray-based transcriptome profiling and single-nucleus transcriptome sequencing (snRNA-seq) related to DKD were retrieved from the Gene Expression Omnibus (GEO) database. 13 PCD-related genes (including alkaliptosis, apoptosis, autophagy-dependent cell death, cuproptosis, disulfidptosis, entotic cell death, ferroptosis, lysosome-dependent cell death, necroptosis, netotic cell death, oxeiptosis, parthanatos, and pyroptosis) were obtained from various public databases and reviews. The gene set variation analysis (GSVA) analysis was used to explore the pathway activity of these 13 PCDs in DKD, and the pathway activity of these PCDs in different renal cells was studied based on DKD-related snRNA-seq data. To identify the core PCDs that play a significant role in DKD, we analyzed the relationships between different types of PCD and immune infiltration, fibrosis-related gene expression levels, glomerular filtration rate (GFR), and diagnostic efficiency in DKD. Using the Weighted Gene Co-expression Network Analysis (WGCNA) algorithm, we screened for core death genes among the core PCDs and constructed a cell death-related signature (CDS) risk score based on the Least Absolute Shrinkage and Selection Operator (LASSO). Finally, we validated the predictive performance of the CDS risk score in an independent validation set., Results: We identified 4 core PCD pathways, namely entotic cell death, apoptosis, necroptosis, and pyroptosis in DKD, and further applied the WGCNA algorithm to screen 4 core death genes (CASP1, CYBB, PLA2G4A, and CTSS) and constructed a CDS risk score based on these genes. The CDS risk score demonstrated high diagnostic efficiency for DKD patients, and those with higher scores had higher levels of immune cell infiltration and poorer GFR., Conclusion: Our study sheds light on the fact that multiple PCDs contribute to the progression of DKD, highlighting potential therapeutic targets for treating this disease., Competing Interests: Declaration of competing interest The authors declare no competing financial interests., (Copyright © 2023. Published by Elsevier Ltd.)

Published

2024

13. N6-methyladenosine RNA methylation in diabetic kidney disease.

Author

Huang J, Yang F, Liu Y, and Wang Y

Subjects

Humans, RNA Methylation, Adenosine, Blood Glucose, Epigenesis, Genetic, RNA, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Diabetic kidney disease (DKD) is a major microvascular complication of diabetes, and hyperglycemic memory associated with diabetes carries the risk of disease occurrence, even after the termination of blood glucose injury. The existence of hyperglycemic memory supports the concept of an epigenetic mechanism involving n6-methyladenosine (m6A) modification. Several studies have shown that m6A plays a key role in the pathogenesis of DKD. This review addresses the role and mechanism of m6A RNA modification in the progression of DKD, including the regulatory role of m6A modification in pathological processes, such as inflammation, oxidative stress, fibrosis, and non-coding (nc) RNA. This reveals the importance of m6A in the occurrence and development of DKD, suggesting that m6A may play a role in hyperglycemic memory phenomenon. This review also discusses how some gray areas, such as m6A modified multiple enzymes, interact to affect the development of DKD and provides countermeasures. In conclusion, this review enhances our understanding of DKD from the perspective of m6A modifications and provides new targets for future therapeutic strategies. In addition, the insights discussed here support the existence of hyperglycemic memory effects in DKD, which may have far-reaching implications for the development of novel treatments. We hypothesize that m6A RNA modification, as a key factor regulating the development of DKD, provides a new perspective for the in-depth exploration of DKD and provides a novel option for the clinical management of patients with DKD., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2024

14. Critical role of FGF21 in diabetic kidney disease: from energy metabolism to innate immunity.

Author

Liang Y, Chen Q, Chang Y, Han J, Yan J, Chen Z, and Zhou J

Subjects

Humans, Inflammation metabolism, Immunity, Innate, Energy Metabolism, Diabetic Nephropathies, Diabetes Mellitus, Fibroblast Growth Factors

Abstract

Diabetic kidney disease (DKD) stands as the predominant cause of chronic kidney disease (CKD) on a global scale, with its incidence witnessing a consistent annual rise, thereby imposing a substantial burden on public health. The pathogenesis of DKD is primarily rooted in metabolic disorders and inflammation. Recent years have seen a surge in studies highlighting the regulatory impact of energy metabolism on innate immunity, forging a significant area of research interest. Within this context, fibroblast growth factor 21 (FGF21), recognized as an energy metabolism regulator, assumes a pivotal role. Beyond its role in maintaining glucose and lipid metabolism homeostasis, FGF21 exerts regulatory influence on innate immunity, concurrently inhibiting inflammation and fibrosis. Serving as a nexus between energy metabolism and innate immunity, FGF21 has evolved into a therapeutic target for diabetes, nonalcoholic steatohepatitis, and cardiovascular diseases. While the relationship between FGF21 and DKD has garnered increased attention in recent studies, a comprehensive exploration of this association has yet to be systematically addressed. This paper seeks to fill this gap by summarizing the mechanisms through which FGF21 operates in DKD, encompassing facets of energy metabolism and innate immunity. Additionally, we aim to assess the diagnostic and prognostic value of FGF21 in DKD and explore its potential role as a treatment modality for the condition., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Liang, Chen, Chang, Han, Yan, Chen and Zhou.)

Published

2024

15. Mitochondrial oxidative damage reprograms lipid metabolism of renal tubular epithelial cells in the diabetic kidney.

Author

Hou Y, Tan E, Shi H, Ren X, Wan X, Wu W, Chen Y, Niu H, Zhu G, Li J, Li Y, and Wang L

Subjects

Humans, Lipid Metabolism, Mitochondria, Oxidative Stress, Epithelial Cells, Glucose, Lipids, Diabetic Nephropathies, Diabetes Mellitus

Abstract

The functional and structural changes in the proximal tubule play an important role in the occurrence and development of diabetic kidney disease (DKD). Diabetes-induced metabolic changes, including lipid metabolism reprogramming, are reported to lead to changes in the state of tubular epithelial cells (TECs), and among all the disturbances in metabolism, mitochondria serve as central regulators. Mitochondrial dysfunction, accompanied by increased production of mitochondrial reactive oxygen species (mtROS), is considered one of the primary factors causing diabetic tubular injury. Most studies have discussed how altered metabolic flux drives mitochondrial oxidative stress during DKD. In the present study, we focused on targeting mitochondrial damage as an upstream factor in metabolic abnormalities under diabetic conditions in TECs. Using SS31, a tetrapeptide that protects the mitochondrial cristae structure, we demonstrated that mitochondrial oxidative damage contributes to TEC injury and lipid peroxidation caused by lipid accumulation. Mitochondria protected using SS31 significantly reversed the decreased expression of key enzymes and regulators of fatty acid oxidation (FAO), but had no obvious effect on major glucose metabolic rate-limiting enzymes. Mitochondrial oxidative stress facilitated renal Sphingosine-1-phosphate (S1P) deposition and SS31 limited the elevated Acer1, S1pr1 and SPHK1 activity, and the decreased Spns2 expression. These data suggest a role of mitochondrial oxidative damage in unbalanced lipid metabolism, including lipid droplet (LD) formulation, lipid peroxidation, and impaired FAO and sphingolipid homeostasis in DKD. An in vitro study demonstrated that high glucose drove elevated expression of cytosolic phospholipase A2 (cPLA2), which, in turn, was responsible for the altered lipid metabolism, including LD generation and S1P accumulation, in HK-2 cells. A mitochondria-targeted antioxidant inhibited the activation of cPLA2f isoforms. Taken together, these findings identify mechanistic links between mitochondrial oxidative metabolism and reprogrammed lipid metabolism in diabetic TECs, and provide further evidence for the nephroprotective effects of SS31 via influencing metabolic pathways., (© 2024. The Author(s).)

Published

2024

16. ALCAT1-mediated abnormal cardiolipin remodelling promotes mitochondrial injury in podocytes in diabetic kidney disease.

Author

Hao Y, Fan Y, Feng J, Zhu Z, Luo Z, Hu H, Li W, Yang H, and Ding G

Subjects

Animals, Humans, Mice, Cardiolipins, Mitochondria, Diabetes Mellitus, Diabetic Nephropathies, Mitochondrial Diseases, Podocytes

Abstract

Background: Cardiolipin (CL) plays a critical role in maintaining mitochondrial membrane integrity and overall mitochondrial homeostasis. Recent studies have suggested that mitochondrial damage resulting from abnormal cardiolipin remodelling is associated with the pathogenesis of diabetic kidney disease (DKD). Acyl-coenzyme A:lyso-cardiolipin acyltransferase-1 (ALCAT1) was confirmed to be involved in the progression of Parkinson's disease, diet-induced obesity and other ageing-related diseases by regulating pathological cardiolipin remodelling. Thus, the purpose of this investigation was to determine the role of ALCAT1-mediated CL remodelling in DKD and to explore the potential underlying mechanism., Methods: In vivo study, the mitochondrial structure was examined by transmission electron microscopy (TEM). The colocalization of ALCAT1 and synaptopodin was evaluated by double immunolabelling. Western blotting (WB) was performed to assess ALCAT1 expression in glomeruli. Lipidomics analysis was conducted to evaluate the composition of reconstructed cardiolipins. In vitro study, the lipidomics, TEM and WB analyses were similar to those in vivo. Mitochondrial function was evaluated by measuring the mitochondrial membrane potential (MMP) and the production of ATP and ROS., Results: Here, we showed that increased oxidized cardiolipin (ox-CL) and significant mitochondrial damage were accompanied by increased ALCAT1 expression in the glomeruli of patients with DKD. Similar results were found in db/db mouse kidneys and in cultured podocytes stimulated with high glucose (HG). ALCAT1 deficiency effectively prevented HG-induced ox-CL production and mitochondrial damage in podocytes. In contrast, ALCAT1 upregulation enhanced ox-CL levels and podocyte mitochondrial dysfunction. Moreover, treatment with the cardiolipin antioxidant SS-31 markedly inhibited mitochondrial dysfunction and cell injury, and SS-31 treatment partly reversed the damage mediated by ALCAT1 overexpression. We further found that ALCAT1 could mediate the key regulators of mitochondrial dynamics and mitophagy through the AMPK pathway., Conclusions: Collectively, our studies demonstrated that ALCAT1-mediated cardiolipin remodelling played a crucial role in DKD, which might provide new insights for DKD treatment. Video Abstract., (© 2024. The Author(s).)

Published

2024

17. Angiotensin II type 1 receptor-associated protein deletion combined with angiotensin II stimulation accelerates the development of diabetic kidney disease in mice on a C57BL/6 strain.

Author

Taguchi S, Azushima K, Yamaji T, Suzuki T, Abe E, Tanaka S, Hirota K, Tsukamoto S, Morita R, Kobayashi R, Kinguchi S, Yamashita A, Wakui H, and Tamura K

Subjects

Mice, Male, Animals, Angiotensin II pharmacology, Angiotensin II metabolism, Receptor, Angiotensin, Type 1 genetics, Receptor, Angiotensin, Type 1 metabolism, Adaptor Proteins, Signal Transducing metabolism, Mice, Inbred C57BL, Kidney metabolism, Renin-Angiotensin System, Mice, Knockout, Diabetic Nephropathies, Diabetes Mellitus

Abstract

The progress in the research field of diabetic kidney disease (DKD) has been disturbed by the lack of reliable animal models. Angiotensin II (Ang II) type 1 receptor (AT1R)-associated protein (ATRAP) promotes internalization of AT1R and selectively inhibits pathological AT1R signaling. In this study, we investigated whether overactivation of the renin-angiotensin system (RAS) through a combination of ATRAP deletion with Ang II stimulation developed a progressive DKD model in C57BL/6 mice, which are resistant to the development of kidney injury. Eight-week-old male systemic ATRAP-knockout mice on the C57BL/6 strain (KO) and their littermate wild-type mice (Ctrl) were divided into five groups: 1) Ctrl, 2) Ctrl-streptozotocin (STZ), 3) KO-STZ, 4) Ctrl-STZ-Ang II, and 5) KO-STZ-Ang II. Ang II was administered for 6 weeks from 4 weeks after STZ administration. At 10 weeks after STZ administration, mice were euthanized to evaluate kidney injuries. Neither ATRAP deletion alone nor Ang II stimulation alone developed a progressive DKD model in STZ-induced diabetic C57BL/6 mice. However, a combination of ATRAP deletion with Ang II stimulation accelerated the development of DKD as manifested by overt albuminuria, glomerular hypertrophy, podocyte loss, mesangial expansion, kidney interstitial fibrosis and functional insufficiency, concomitant with increased angiotensinogen and AT1R expression in the kidneys. In STZ-induced diabetic C57BL/6 mice that are resistant to the development of kidney injury, the combination of ATRAP deletion and Ang II stimulation accelerates the development of DKD, which may be associated with intrarenal RAS overactivation., (© 2023. The Author(s), under exclusive licence to The Japanese Society of Hypertension.)

Published

2024

18. Novel pharmacological interventions for diabetic kidney disease.

Author

Tan SK, Pinzon-Cortes JA, and Cooper ME

Subjects

Humans, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Renin-Angiotensin System, Kidney, Mineralocorticoid Receptor Antagonists therapeutic use, Diabetic Nephropathies, Kidney Failure, Chronic drug therapy, Diabetes Mellitus drug therapy

Abstract

Purpose of Review: The purpose of this review is to summarize the latest evidence on the prevention and progression of diabetic kidney disease (DKD), as well as novel pharmacological interventions from preclinical and early clinical studies with promising findings in the reduction of this condition's burden., Recent Findings: We will cover the latest evidence on the reduction of proteinuria and kidney function decline in DKD achieved through established renin-angiotensin-aldosterone system (RAAS) system blockade and the more recent addition of SGLT2i, nonsteroidal mineralocorticoid receptor antagonists (MRAs) and GLP1-RA, that combined will most likely integrate the mainstay for current DKD treatment. We also highlight evidence from new mechanisms of action in DKD, including other haemodynamic anti-inflammatory and antifibrotic interventions, oxidative stress modulators and cell identity and epigenetic targets., Summary: Renal specific outcome trials have become more popular and are increasing the available armamentarium to diminish the progression of renal decline in patients at greater risk of end-stage kidney disease (ESKD) such as diabetic individuals. A combined pharmaceutical approach based on available rigorous studies should include RAAS blockade, SGLT2 inhibitors, nonsteroidal MRA and expectedly GLP1-RA on a personalized based-intervention. New specific trials designed to address renal outcomes will be needed for innovative therapies to conclude on their potential benefits in DKD., (Copyright © 2023 Wolters Kluwer Health, Inc. All rights reserved.)

Published

2024

19. The p66 Shc Redox Protein and the Emerging Complications of Diabetes.

Author

Biondi G, Marrano N, Borrelli A, Rella M, D'Oria R, Genchi VA, Caccioppoli C, Cignarelli A, Perrini S, Laviola L, Giorgino F, and Natalicchio A

Subjects

Humans, Apoptosis, Cellular Senescence, Oxidation-Reduction, Diabetic Nephropathies, Peripheral Arterial Disease, Diabetes Mellitus

Abstract

Diabetes mellitus is a chronic metabolic disease, the prevalence of which is constantly increasing worldwide. It is often burdened by disabling comorbidities that reduce the quality and expectancy of life of the affected individuals. The traditional complications of diabetes are generally described as macrovascular complications (e.g., coronary heart disease, peripheral arterial disease, and stroke), and microvascular complications (e.g., diabetic kidney disease, retinopathy, and neuropathy). Recently, due to advances in diabetes management and the increased life expectancy of diabetic patients, a strong correlation between diabetes and other pathological conditions (such as liver diseases, cancer, neurodegenerative diseases, cognitive impairments, and sleep disorders) has emerged. Therefore, these comorbidities have been proposed as emerging complications of diabetes. P66 Shc is a redox protein that plays a role in oxidative stress, apoptosis, glucose metabolism, and cellular aging. It can be regulated by various stressful stimuli typical of the diabetic milieu and is involved in various types of organ and tissue damage under diabetic conditions. Although its role in the pathogenesis of diabetes remains controversial, there is strong evidence regarding the involvement of p66 Shc in the traditional complications of diabetes. In this review, we will summarize the evidence supporting the role of p66 Shc in the pathogenesis of diabetes and its complications, focusing for the first time on the emerging complications of diabetes.

Published

2023

20. Role of Gut Microbiota, Immune Imbalance, and Allostatic Load in the Occurrence and Development of Diabetic Kidney Disease.

Author

Han YZ, Zheng HJ, Du BX, Zhang Y, Zhu XY, Li J, Wang YX, and Liu WJ

Subjects

Humans, Kidney, Adaptive Immunity, Diabetic Nephropathies, Gastrointestinal Microbiome, Allostasis, Diabetes Mellitus

Abstract

Diabetic kidney disease (DKD) is a prevailing complication arising from diabetes mellitus. Unfortunately, there are no trustworthy and efficacious treatment modalities currently available. In recent times, compelling evidence has emerged regarding the intricate correlation between the kidney and the gut microbiota, which is considered the largest immune organ within the human physique. Various investigations have demonstrated that the perturbation of the gut microbiota and its associated metabolites potentially underlie the etiology and progression of DKD. This phenomenon may transpire through perturbation of both the innate and the adaptive immunity, leading to a burdensome allostatic load on the body and ultimately culminating in the development of DKD. Within this literature review, we aim to delve into the intricate interplay between the gut microbiota, its metabolites, and the immune system in the context of DKD. Furthermore, we strive to explore and elucidate potential chemical interventions that could hold promise for the treatment of DKD, thereby offering invaluable insights and directions for future research endeavors., Competing Interests: The scientists confirm that the investigation occurred devoid of any business or monetary affiliations that may potentially be interpreted as a clash of interests. Yi Zhen Han, Hui Juan Zheng, Bo Xuan Du, Yi Zhang, Xing Yu Zhu, Jing Li, Yao Xian Wang, and Wei Jing Liu hereby affirm that they possess no conflicting interests., (Copyright © 2023 Yi Zhen Han et al.)

Published

2023

21. Cell Therapies in Diabetic Kidney Disease: Is It Time for Clinical Translation?

Author

Chen JZ and Liang B

Subjects

Humans, Kidney, Diabetic Nephropathies, Diabetes Mellitus

Published

2023

22. Role and Mechanism of NUP160-regulated Autophagy in Pathogenesis of Diabetic Nephropathy.

Author

Xie J, Yuan Y, Yao G, Yu W, and Zhu Q

Subjects

Humans, Signal Transduction, Glucose, Autophagy, Apoptosis, Nuclear Pore Complex Proteins genetics, Nuclear Pore Complex Proteins metabolism, Diabetic Nephropathies, Podocytes metabolism, Podocytes pathology, Diabetes Mellitus

Abstract

\Introduction. Diabetes mellitus (DM) is one of the most common chronic diseases worldwide, and diabetic nephropathy (DN) is the most significant complication of DM, which is highly prevalent and difficult to cure. This research project aims to investigate the role and mechanism of Nucleoporin 160kDa (NUP160)-regulated autophagy in the pathogenesis of DN., Methods: NUP160 levels in diabetic and non-diabetic kidney tissues were measured by Western blot, and the connection between NUP160 and renal function of DN patients was analyzed. The podocytes were divided into four groups, namely the standard group (culture medium: standard glucose solution), high glucose (HG) group (HG solution), HG+si-NUP160 group (HG solution+si-NUP160 transfection) and HG+si-NC group (HG solution+si-NUP 160 transfection) for the determination of apoptosis by flow cytometry and measurements of LC3B, Prostacyclin-62 (P62), Janus kinase 2 (JAK2) and Signal transducer and activator of transcription3 (STAT3) by Western blot., Results: In DN patients, NUP160 decreased in podocytes and was inversely proportional to Blood urea nitrogen (BUN), Serum creatinine (Scr) and β2-Microglobulin (β2-MG) (P < .05). Compared with a standard group, the apoptosis rate, P62 level, and the ratios of phosphorylation-JAK2 (p-JAK2)/JAK2, phosphorylation-STAT3 (p-STAT3)/STAT3, and LC3B-Ⅱ/LC3B-Ⅰ elevated in the other three groups (P < .05). Apoptosis rate and P62 level, p-JAK2/JAK2 and p-STAT3/STAT3 ratios increased, and LC3B-Ⅱ/LC3B-Ⅰ ratio decreased in the HG+si-NUP160 group (P < .05), while those in HG+si-NC group showed no evident changes, compared with HG group (P > .05)., Conclusion: NUP160 is downregulated in DN and can affect cellular autophagy through the activation of JAK2/STAT3 signaling pathway.  DOI: 10.52547/ijkd.7884.

Published

2023

23. The potential mechanism of gut microbiota-microbial metabolites-mitochondrial axis in progression of diabetic kidney disease.

Author

Ma L, Zhang L, Li J, Zhang X, Xie Y, Li X, Yang B, and Yang H

Subjects

Humans, Mitochondria, Gastrointestinal Microbiome, Diabetic Nephropathies, Microbiota, Diabetes Mellitus

Abstract

Diabetic kidney disease (DKD), has become the main cause of end-stage renal disease (ESRD) worldwide. Lately, it has been shown that the onset and advancement of DKD are linked to imbalances of gut microbiota and the abnormal generation of microbial metabolites. Similarly, a body of recent evidence revealed that biological alterations of mitochondria ranging from mitochondrial dysfunction and morphology can also exert significant effects on the occurrence of DKD. Based on the prevailing theory of endosymbiosis, it is believed that human mitochondria originated from microorganisms and share comparable biological characteristics with the microbiota found in the gut. Recent research has shown a strong correlation between the gut microbiome and mitochondrial function in the occurrence and development of metabolic disorders. The gut microbiome's metabolites may play a vital role in this communication. However, the relationship between the gut microbiome and mitochondrial function in the development of DKD is not yet fully understood, and the role of microbial metabolites is still unclear. Recent studies are highlighted in this review to examine the possible mechanism of the gut microbiota-microbial metabolites-mitochondrial axis in the progression of DKD and the new therapeutic approaches for preventing or reducing DKD based on this biological axis in the future., (© 2023. The Author(s).)

Published

2023

24. RIPK1 and RIPK3 inhibitors: potential weapons against inflammation to treat diabetic complications.

Author

Ke D, Zhang Z, Liu J, Chen P, Dai Y, Sun X, Chu Y, and Li L

Subjects

Humans, Inflammation drug therapy, Inflammation metabolism, Receptor-Interacting Protein Serine-Threonine Kinases metabolism, Threonine, Serine, Diabetes Complications drug therapy, Diabetic Nephropathies, Diabetes Mellitus drug therapy, Diabetes Mellitus etiology

Abstract

Diabetes mellitus is a metabolic disease that is characterized by chronic hyperglycemia due to a variety of etiological factors. Long-term metabolic stress induces harmful inflammation leading to chronic complications, mainly diabetic ophthalmopathy, diabetic cardiovascular complications and diabetic nephropathy. With diabetes complications being one of the leading causes of disability and death, the use of anti-inflammatories in combination therapy for diabetes is increasing. There has been increasing interest in targeting significant regulators of the inflammatory pathway, notably receptor-interacting serine/threonine-kinase-1 (RIPK1) and receptor-interacting serine/threonine-kinase-3 (RIPK3), as drug targets for managing inflammation in treating diabetes complications. In this review, we aim to provide an up-to-date summary of current research on the mechanism of action and drug development of RIPK1 and RIPK3, which are pivotal in chronic inflammation and immunity, in relation to diabetic complications which may be benefit for explicating the potential of selective RIPK1 and RIPK3 inhibitors as anti-inflammatory therapeutic agents for diabetic complications., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Ke, Zhang, Liu, Chen, Dai, Sun, Chu and Li.)

Published

2023

25. Renalase regulates renal tubular injury in diabetic nephropathy via the p38MAPK signaling pathway.

Author

Zhang L, Zang CS, Chen B, Wang Y, Xue S, and Wu MY

Subjects

Animals, Rats, Rats, Sprague-Dawley, Kidney, MAP Kinase Signaling System, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Diabetic nephropathy (DN) is an important complication of diabetes and the leading cause of end-stage renal disease globally. Renal tubular damage occurs to varying degrees in the early stages of DN prior to glomerular damage. Renalase (RNLS) is an amine oxidase, which is produced and secreted by the renal tubular epithelial cells. RNLS is reportedly closely related to renal tubular injury in acute and chronic kidney diseases. Herein, we aimed to evaluate the changes in tubular RNLS expression in DN and its correlation with DN-associated renal tubular injury. Conditional permanent renal tubular epithelial rat-cell line NRK-52E was transfected with pcDNA3-RNLS plasmid or administered recombinant rat RNLS protein and high glucose (HG) dose. A total of 22 adult Sprague-Dawley rats were randomly divided into the control (CON, n = 10) or diabetic nephrology (DN, n = 12) group. Random blood glucose levels of the rats were measured by sampling of the caudal vein weekly. After 8 weeks, the rat's body weight, 24-h urinary albumin concentration, and right kidney were evaluated. Our study suggested the decreased expression levels of RNLS in renal tissue and renal tubular epithelial cells in DN rats, accompanied by renal tubulointerstitial fibrosis, apoptosis of renal tubular epithelial cells, and activation of the p38MAPK signal pathway. Reversing the low RNLS expression can reduce the level of p38MAPK phosphorylation and delay renal tubular injury. Thus, the reduction of renal tubular RNLS expression in DN mediates tubulointerstitial fibrosis and cell apoptosis via the activation of the p38MAPK signal pathway. RNLS plays a key mediating role in DN-associated tubular injury via p38MAPK, which provides new therapeutic targets and a theoretical basis for early prevention and treatment of DN., (© 2023 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)

Published

2023

26. Severity of Coexisting Diabetic Glomerular Lesions Affects Outcomes in Primary Glomerular Disease.

Author

Perincheri S

Subjects

Humans, Kidney Glomerulus pathology, Diabetic Nephropathies, Diabetes Mellitus pathology

Published

2023

27. Perspectives of circular RNAs in diabetic complications from biological markers to potential therapeutic targets (Review).

Author

Yuan L, Duan J, and Zhou H

Subjects

Humans, RNA, Circular genetics, Biomarkers, Diabetic Nephropathies, MicroRNAs genetics, Diabetic Retinopathy, Diabetes Mellitus genetics

Abstract

Chronic complications of diabetes increase mortality and disability of patients. It is crucial to find potential early biomarkers and provide novel therapeutic strategies for diabetic complications. Circular RNAs (circRNAs), covalently closed RNA molecules in eukaryotes, have high stability. Recent studies have confirmed that differentially expressed circRNAs have a vital role in diabetic complications. Certain circRNAs, such as circRNA ankyrin repeat domain 36, circRNA homeodomain‑interacting protein kinase 3 (circHIPK3) and circRNA WD repeat domain 77, are associated with inflammation, endothelial cell apoptosis and smooth muscle cell proliferation, leading to vascular endothelial dysfunction and atherosclerosis. CircRNA LDL receptor related protein 6, circRNA actin related protein 2, circ&#95;0000064, circ‑0101383, circ&#95;0123996, hsa&#95;circ&#95;0003928 and circ&#95;0000285 mediate inflammation, apoptosis and autophagy of podocytes, mesangial cell hypertrophy and proliferation, as well as tubulointerstitial fibrosis, in diabetic nephropathy by regulating the expression of microRNAs and proteins. Circ&#95;0005015, circRNA PWWP domain containing 2A, circRNA zinc finger protein 532, circRNA zinc finger protein 609, circRNA DNA methyltransferase 3β, circRNA collagen type I α2 chain and circHIPK3 widely affect multiple biological processes of diabetic retinopathy. Furthermore, circ&#95;000203, circ&#95;010567, circHIPK3, hsa&#95;circ&#95;0076631 and circRNA cerebellar degeneration‑related protein 1 antisense are involved in the pathology of diabetic cardiomyopathy. CircHIPK3 is the most well‑studied circRNA in the field of diabetic complications and is most likely to become a biological marker and therapeutic target for diabetic complications. The applications of circRNAs may be a promising treatment strategy for human diseases at the molecular level. The relationship between circRNAs and diabetic complications is summarized in the present study. Of note, circRNA‑targeted therapy and the role of circRNAs as biomarkers may potentially be used in diabetic complications in the future.

Published

2023

28. Impact of diet modification on body mass and kidney function in patients with diabetic nephropathy: a pilot study.

Author

Kaczkan M, Czaja-Stolc S, Sikorska-Wiśniewska M, Chmielewski M, Dębska-Ślizień A, and Małgorzewicz S

Subjects

Adult, Humans, Pilot Projects, Creatinine, Obesity complications, Kidney, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Objectives: The increasing trend in chronic kidney disease (CKD) has occurred in parallel with the increased prevalence of obesity and diabetes type 2. The relationship between a reduction in body mass and protein intake in diabetic nephropathy (DN) has not been adequately understood. This study aimed to determine whether dietary intervention in an adult with DN is associated with decreasing proteinuria or changes in kidney function over six months., Methods: The study included 120 patients with DN, consecutively admitted to a dietitian from a Kidney Disease Clinic. Patients were classified into two groups: a reduction diet or a normal calorie diet, both with 0.8 g of protein/kg of ideal body weight/day. Anthropometric and laboratory assessments were done before and after observation., Results: After six months, in the study group of patients on a reducing diet, a decrease in body mass, body mass index (BMI) and stabilization of estimated glomerular filtration rate (eGFR) were observed. There was also a significant correlation between the time of diabetes diagnosis and eGFR and creatinine (R Spearman=-0.24 and 0.3, respectively; p=0.05). There were no other significant associations between body mass, BMI, albuminuria, eGFR, or creatinine., Conclusions: The study shows that obesity is a common comorbid disease in patients with DN and that dietary intervention is associated with a significant reduction in body mass and stabilization of eGFR in these patients.

Published

2023

29. Association of Thiazide Diuretics With Diabetes Progression, Kidney Disease Progression, Cardiovascular Outcomes, and Death Among Patients With Diabetes Who Initiate Statins.

Author

Afify H, Gonzalez-Morales U, Asmar A, Alvarez CA, and Mansi IA

Subjects

Humans, Adolescent, Sodium Chloride Symporter Inhibitors therapeutic use, Retrospective Studies, Thiazides adverse effects, Kidney, Disease Progression, Diuretics therapeutic use, Hydroxymethylglutaryl-CoA Reductase Inhibitors therapeutic use, Diabetic Nephropathies, Renal Insufficiency, Chronic, Diabetes Mellitus drug therapy

Abstract

Statins have been associated with diabetes mellitus (DM) progression but their cardiovascular benefit in patients with DM outweigh the harm. However, the effects of concurrent use of other medications that similarly increase blood glucose level, such as thiazide diuretics, are not well studied. This study aimed to evaluate the association of concurrent use of thiazide diuretics and statins on DM progression, cardiovascular and renal outcomes, and death in patients with DM. This is a retrospective cohort study of Veterans with DM who initiated statins between 2003 and 2015. The cohort comprised thiazide users (concomitantly used thiazides and statins for ≥6 months) and active comparators (concomitantly used calciun channel blockers [CCB] but not thiazides and statins for ≥6 months). We excluded patients who were <18 years old, with chronic kidney disease stage 4 or worse, or used loop diuretics. We propensity-score-matched comparison groups on 99 baseline characteristics including demographics, healthcare utilization, co-morbidities, cardiovascular and co-morbidity scores, vital signs, laboratory data, and medication class usage. Outcomes were: (1) DM progression (new insulin initiation, increase in the number of glucose-lowering medication classes, and hyperglycemic episodes); (2) kidney disease progression (doubling of serum creatinine, incidence of chronic kidney disease stage 5, initiation of renal replacement therapy, and incidence of diabetic nephropathy); (3) cardiovascular outcomes (acute myocardial infarction, stroke, cardiac arrest); and (4) total mortality. From 297,967 statin users (228,509 Thiazide-statin users and 69,458 active comparators), we successfully matched 67,614 pairs. In comparison to active comparators, thiazide-statin users had increased risk of DM progression (65.6% in CCB group vs 68.1% in thiazide group; odds ratio [OR]: 1.12, 95% confidence interval [CI]: 1.09 to 1.15), decreased risk of kidney progression (16.9% in CCB group vs 16.5 in thiazide group; OR: 0.97, 95% CI: 0.94 to 0.99), decreased risk of cardiovascular outcomes (15.7% in CCB group vs 14.6% in thiazide group; OR: 0.92, 95% CI: 0.89 to 0.95), and similar risk of total mortality (19.7% in each group; OR: 1.00, 95% CI: 0.98 to 1.03). This study attempted to answer an important clinical question whether thiazide diuretics should be discontinued or substituted upon statin initiation. Our results showed that concurrent use of statin and thiazides in patients with DM was associated with DM progression but with less kidney progression and cardiovascular outcomes and no difference in mortality. Clinicians should closely monitor DM control when thiazides and statins are used concurrently., Competing Interests: Declaration of Competing Interest Ishak Mansi was supported by Orlando VA Healthcare System. Dr. Alvarez was supported by NIH grant (UL1TR003163). Dr. Alvarez has received research funding from Merck, Boehringer Ingelheim, and Bristol Myers Squibb not related to this project. The other authors have no conflicts of interest to declare. The views expressed herein are those of the authors and do not reflect the official policy or position of the Department of the Army, Department of Defense, Veterans Affairs Administration, or the United States Government, Hospital Corporation of America Healthcare, or any of its affiliated entities. Some of the authors are employees of the United States government. This work was prepared as part of their official duties and, as such, there is no copyright to be transferred. This research was supported in part by HCA Healthcare and/or an HCA Healthcare affiliated entity. The views expressed in this publication represent those of the author(s) and do not necessarily represent the official views of HCA Healthcare or any of its affiliated entities., (Published by Elsevier Inc.)

Published

2023

30. Single-cell transcriptomes reveal a molecular link between diabetic kidney and retinal lesions.

Author

Xu Y, Xiang Z, E W, Lang Y, Huang S, Qin W, Yang J, Chen Z, and Liu Z

Subjects

Humans, Transcriptome, Kidney, Mesangial Cells, Diabetic Nephropathies, Diabetic Retinopathy, Diabetes Mellitus

Abstract

The occurrence of diabetic nephropathy (DN) and diabetic retinopathy (DR) are closely associated in patients with diabetes. However, the cellular and molecular linkage of DN and DR has not been elucidated, and further revelations are needed to improve mutual prognostic decisions and management. Here, we generate and integrate single-cell RNA sequencing profiles of kidney and retina to explore the cellular and molecular association of kidney and retina in both physiological and pathological conditions. We find renal mesangial cells and retinal pericytes share molecular features and undergo similar molecular transitions under diabetes. Furthermore, we uncover that chemokine regulation shared by the two cell types is critical for the co-occurrence of DN and DR, and the chemokine score can be used for the prognosis of DN complicated with DR. These findings shed light on the mechanism of the co-occurrence of DN and DR and could improve the prevention and treatments of diabetic microvascular complications., (© 2023. Springer Nature Limited.)

Published

2023

31. Serum JKAP reflects Th2 and Th17 cell levels, and diabetic nephropathy risk and severity in diabetes mellitus patients.

Author

Tong M, Gu C, Yu Q, and Ma J

Subjects

Humans, Albuminuria, Odds Ratio, Th17 Cells, Diabetes Mellitus, Diabetic Nephropathies

Abstract

Objective: This study aimed to explore the potency of serum JKAP for estimating diabetic nephropathy risk in diabetes mellitus (DM) patients. Methods: Serum JKAP was detected in 212 DM patients. According to urinary albumin-to-creatinine ratio, DM patients were divided into normoalbuminuria, microalbuminuria and macroalbuminuria groups. Results: JKAP declined in the macroalbuminuria group versus normoalbuminuria group (p < 0.001). In DM patients, JKAP inversely correlated with Th17 cells (p < 0.001) but positively related to Th2 cells (p = 0.003). After adjustment, JKAP independently estimated lower risks of albuminuria (microalbuminuria + macroalbuminuria; odds ratio = 0.966, p < 0.001) and macroalbuminuria (odds ratio = 0.948; p = 0.002). Conclusion: Serum JKAP reflects increased Th2 cells, decreased Th17 cells, and lower diabetic nephropathy risk and severity in DM patients.

Published

2023

32. Obesity Metabolic Phenotypes and Unplanned Readmission Risk in Diabetic Kidney Disease: An Observational Study from the Nationwide Readmission Database.

Author

Zhang W, Du J, Dong H, Cheng Y, Zhong F, Yuan Z, Dong Y, Wang R, Mu S, Zhao J, Han W, and Fan X

Subjects

Female, Humans, Male, Obesity complications, Obesity epidemiology, Patient Readmission, Retrospective Studies, Risk Factors, United States epidemiology, Diabetes Mellitus, Diabetic Nephropathies, Hypertension complications, Hypertension epidemiology

Abstract

Background and Aim: Obesity is a potentially modifiable factor for reducing readmissions, with heterogeneity that varies according to the metabolic status. Our objective was to examine the independent or mutual relationship between obesity and metabolic abnormalities and diabetic kidney disease (DKD)-related hospitalizations., Methods: 493,570 subjects with DKD were enrolled in the 2018 Nationwide Readmission Database (NRD, United States). The at-risk population was reclassified into refined obesity subtypes based on the body mass index (BMI) classification of metabolic abnormalities (hypertension and/or dyslipidemia) to investigate the 180 d readmission risk and hospitalization costs related to DKD., Results: The overall readmission rate was 34.1%. Patients with metabolic abnormalities, regardless of obesity, had a significantly higher risk of readmission compared to non-obese counterparts (adjusted HR, 1.11 [95% CI, 1.07-1.14]; 1.12 [95% CI, 1.08-1.15]). Hypertension appeared to be the only metabolic factor associated with readmission among individuals with DKD. Obesity without metabolic abnormalities was independently associated with readmission (adjusted HR,1.08 [1.01,1.14]), especially among males and those >65 years (adjusted HR,1.10 [1.01-1.21]; 1.20 [1.10-1.31]). Women or those ≤65 years with metabolic abnormalities (all p <0.050) had elevated readmission rates, regardless of obesity; however, no such trend was observed in obese subjects without metabolic abnormalities (adjusted HR, 1.06 [0.98,1.16]). Additionally, obesity and metabolic abnormalities were associated with elevated hospitalization costs (all p <0.0001)., Conclusions: Increased BMI and hypertension are positively associated with readmissions and related costs among patients with DKD, which should be considered in future studies., Competing Interests: Conflict of Interest The authors declared that they have no conflict of interest., (Copyright © 2023. Published by Elsevier Inc.)

Published

2023

33. Bibliometric analysis of intestinal microbiota in diabetic nephropathy.

Author

Gao LW, Yang XY, Yu YF, Yin S, Tong KK, Hu G, Jian WX, and Tian Z

Subjects

Humans, Indican, Bibliometrics, Inflammation, Obesity, Diabetic Nephropathies, Gastrointestinal Microbiome, Drugs, Chinese Herbal, Diabetes Mellitus

Abstract

Objective: The purpose of this study is to use bibliometrics to explore the research overview and research hotspots., Materials and Methods: The relevant literature on intestinal flora and diabetic nephropathy in the Web of Science Core Collection was sorted out, and VOSviewer, CiteSpace, Scimago Graphica and other software were used to conduct data visualization analysis on the number of publications, countries, institutions, journals, authors, keywords and citations., Results: A total of 124 relevant literatures were included. From 2015 to 2022, the number of published papers increased every year. The countries, institutions and journals that published the most articles in this field are China, Isfahan University Medical Science and Frontiers in Pharmacology. Liu Bicheng and Mirlohi Maryam are the authors with the most published articles in this field. The main keywords of research in this field are obesity, inflammation, oxidative stress, indoxyl sulfate, short-chain fatty acids (SCFAs) and Chinese herbal medicine., Conclusions: This is the first bibliometric analysis of diabetic nephropathy and gut microbiota, reporting hot spots and emerging trends. Obesity, inflammation, oxidative stress, indoxyl sulfate, SCFAs and Chinese herbal medicine are the main keywords of current research, and SCFAs and Chinese herbal medicine may be the hotspots of future research.

Published

2023

34. The influence of angiopoietin-like protein 3 on macrophages polarization and its effect on the podocyte EMT in diabetic nephropathy.

Author

Ma Y, Chen Y, Xu H, and Du N

Subjects

Animals, Mice, Apoptosis, Epithelial-Mesenchymal Transition, Angiopoietin-Like Protein 3, Diabetes Mellitus, Diabetic Nephropathies, Podocytes

Abstract

Background: Podocyte injury, which involves the podocyte epithelial-mesenchymal transition (EMT) process, is a crucial factor contributing to the progression of diabetic nephropathy (DN) and proteinuria. Our study aimed to examine the protective properties of Angiopoietin-like protein 3 (Angptl3) knockout on podocyte damage and macrophage polarization in DN mice and podocytes treated with HG. Furthermore, we also sought to investigate the underlying molecular mechanism responsible for these effects., Methods: DN was induced in B6;129S5 mice through intraperitoneal injection of 40 mg/kg of streptozotocin (STZ). Subsequently, the changes in renal function, podocyte apoptosis, inflammatory factors (tumor necrosis factor-α [TNF-α], interleukin-6 [IL-6], and interleukin-1β [IL-1β]), IL-10, TGF-β1, IL-1Ra, IL-10Ra, and nephrin were evaluated. Moreover, we investigated the mechanism underlying the role of Angptl3 in macrophages polarization, podocyte injury, podocyte EMT., Results: Our findings revealed that Angptl3 knockout significantly attenuated STZ or HG-induced renal dysfunction and podocyte EMT. In both in vivo and in vitro studies, Angptl3 knockout led to (1) promote the transformation of M1 type macrophages into M2 type macrophages; (2) amelioration of the reduced expression of nephrin, synaptopodin, and podocin; (3) inhibition of NLRP3 inflammasome activation and release of IL-1β; and (4) regulation of α-SMA expression via the macrophage polarization. (5) After HG treatment, there was an increase in pro-inflammatory factors and foot cell damage. These changes were reversed upon Angptle knockdown., Conclusion: Our study suggests that the knockout of Angptl3 alleviates podocyte EMT and podocyte injury by regulating macrophage polarization., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Ma, Chen, Xu and Du.)

Published

2023

35. Urinary growth differentiation factor 15 predicts renal function decline in diabetic kidney disease.

Author

Oshita T, Watanabe S, Toyohara T, Kujirai R, Kikuchi K, Suzuki T, Suzuki C, Matsumoto Y, Wada J, Tomioka Y, Tanaka T, and Abe T

Subjects

Humans, Cohort Studies, Creatinine urine, Growth Differentiation Factor 15, Retrospective Studies, Uremic Toxins, Disease Progression, Glomerular Filtration Rate, Biomarkers, Kidney physiology, Diabetic Nephropathies, Hydroxymethylglutaryl-CoA Reductase Inhibitors, Renal Insufficiency, Chronic complications, Diabetes Mellitus

Abstract

Sensitive biomarkers can enhance the diagnosis, prognosis, and surveillance of chronic kidney disease (CKD), such as diabetic kidney disease (DKD). Plasma growth differentiation factor 15 (GDF15) levels are a novel biomarker for mitochondria-associated diseases; however, it may not be a useful indicator for CKD as its levels increase with declining renal function. This study explores urinary GDF15's potential as a marker for CKD. The plasma and urinary GDF15 as well as 15 uremic toxins were measured in 103 patients with CKD. The relationship between the urinary GDF15-creatinine ratio and the uremic toxins and other clinical characteristics was investigated. Urinary GDF15-creatinine ratios were less related to renal function and uremic toxin levels compared to plasma GDF15. Additionally, the ratios were significantly higher in patients with CKD patients with diabetes (p = 0.0012) and reduced with statin treatment. In a different retrospective DKD cohort study (U-CARE, n = 342), multiple and logistic regression analyses revealed that the baseline urinary GDF15-creatinine ratios predicted a decline in estimated glomerular filtration rate (eGFR) over 2 years. Compared to the plasma GDF15 level, the urinary GDF15-creatinine ratio is less dependent on renal function and sensitively fluctuates with diabetes and statin treatment. It may serve as a good prognostic marker for renal function decline in patients with DKD similar to the urine albumin-creatinine ratio., (© 2023. The Author(s).)

Published

2023

36. Transgelin-2 as an Early Detection for Diabetic Nephropathy Through Inflammation, Periostin and E-cadherin by STAT3 Signaling Through ANXA2.

Author

Duan X, Chen C, Liu X, Yang F, Wang T, Zhou H, Zhao S, and Li G

Subjects

Mice, Animals, Cadherins genetics, Cadherins metabolism, Cadherins pharmacology, Signal Transduction, Inflammation metabolism, Diabetic Nephropathies, Podocytes metabolism, Diabetes Mellitus

Abstract

Background: Diabetic nephropathy (hereinafter referred to as DN) is one of the important causes of chronic renal failure, with great harm. We aimed to elucidate the role of transgelin-2, a key early detection for diabetic ne-phropathy., Method: The serum samples of 12 DN patients and 12 normal volunteers were collected for this experiment. Mice of the model group were injected intraperitoneally with streptozotocin following a high fat diet. Mouse podocyte (MPC5) cells were induced with 20 mmol/L d-glucose., Result: Transgelin-2 was highly expressed in DN patients with diabetic nephropathy both at the expression levels of mRNA and protein. Transgelin-2 expression was correlated with blood sugar in patients with DN. Transgelin-2 gene up-regulation enhanced inflammation and periostin levels, and reduced E-cadherin activity level in mice with DN. Over-expression of transgelin-2 increased inflammation and periostin levels, and reduced E-cadherin activity level in the in vitro model. Down-regulation of Transgelin-2 reduced inflammation and periostin levels and induced E-cadherin activity level in the in vitro model. Transgelin-2 induced ANXA2/ STAT3 signaling in a mouse model or an in vitro model. ANXA2 was one of the regulatory factors for the effects of transgelin-2 with inflammation, periostin, and E-cadherin in a model of DN., Conclusions: Taken together, these findings demonstrated that transgelin-2 promoted inflammation and periostin levels, and suppressed E-cadherin levels in DN by STAT3 signaling through ANXA2.

Published

2023

37. Electrodermal signal analysis using continuous wavelet transform as a tool for quantification of sweat gland activity in diabetic kidney disease.

Author

Singaram S, Ramakrishnan K, and Periyasamy S

Subjects

Humans, Wavelet Analysis, Sweat Glands innervation, Signal Processing, Computer-Assisted, Algorithms, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Sympathetic innervation of the sweat gland (SG) manifests itself electrically as electrodermal activity (EDA), which can be utilized to measure sudomotor function. Since SG exhibits similarities in structure and function with kidneys, quantification of SG activity is attempted through EDA signals. A methodology is developed with electrical stimulation, sampling frequency and signal processing algorithm. One hundred twenty volunteers participated in this study belonging to controls, diabetes, diabetic nephropathy, and diabetic neuropathy. The magnitude and time duration of stimuli is arrived by trial and error in such a way it does not influence controls but triggers SG activity in other Groups. This methodology leads to a distinct EDA signal pattern with changes in frequency and amplitude. The continuous wavelet transform depicts a scalogram to retrieve this information. Further, to distinguish between Groups, time average spectrums are plotted and mean relative energy (MRE) is computed. Results demonstrate high energy value in controls, and it gradually decreases in other Groups indicating a decline in SG activity on diabetes prognosis. The correlation for the acquired results was determined to be 0.99 when compared to the standard lab procedure. Furthermore, Cohen's d value, which is less than 0.25 for all Groups indicating the minimal effect size. Hence the obtained result is validated and statistically analyzed for individual variations. Thus this has the potential to get transformed into a device and could prevent diabetic kidney disease.

Published

2023

38. Slowing the Progression of Diabetic Kidney Disease.

Author

Blazek O and Bakris GL

Subjects

Humans, Angiotensin-Converting Enzyme Inhibitors pharmacology, Angiotensin-Converting Enzyme Inhibitors therapeutic use, Angiotensin Receptor Antagonists pharmacology, Angiotensin Receptor Antagonists therapeutic use, Renin-Angiotensin System, Mineralocorticoid Receptor Antagonists adverse effects, Diabetic Nephropathies, Kidney Failure, Chronic etiology, Diabetes Mellitus drug therapy

Abstract

Diabetes is the most frequent cause of kidney disease that progresses to end-stage renal disease worldwide, and diabetic kidney disease is significantly related to unfavorable cardiovascular outcomes. Since the 1990s, specific therapies have emerged and been approved to slow the progression of diabetic kidney disease, namely, renin-angiotensin-aldosterone system blockers (including angiotensin-converting enzyme inhibitors (ACEi) angiotensin receptor blockers (ARBs), the non-steroidal mineralocorticoid receptor antagonist (NS-MRA), finerenone, and sodium-glucose cotransporter-2 (SGLT2) inhibitors). Mechanistically, these different classes of agents bring different anti-inflammatory, anti-fibrotic, and complementary hemodynamic effects to patients with diabetic kidney disease such that they have additive benefits on slowing disease progression. Within the coming year, there will be data on renal outcomes using the glucagon-like peptide-1 receptor agonist, semaglutide. All the aforementioned medications have also been shown to improve cardiovascular outcomes. Thus, all three classes (maximally dosed ACEi or ARB, low-dose SGLT-2 inhibitors, and the NS-MRA, finerenone) form the "pillars of therapy" such that, when used together, they maximally slow diabetic kidney disease progression. Ongoing studies aim to expand these pillars with additional medications to potentially normalize the decline in kidney function and reduce associated cardiovascular mortality.

Published

2023

39. A comprehensive risk factor analysis using association rules in people with diabetic kidney disease.

Author

Toyama T, Shimizu M, Yamaguchi T, Kurita H, Morita T, Oshima M, Kitajima S, Hara A, Sakai N, Hashiba A, Takayama T, Tajima A, Furuichi K, Wada T, and Iwata Y

Subjects

Humans, Aged, Middle Aged, Risk Factors, Risk Assessment, Diabetic Nephropathies, Renal Insufficiency, Chronic complications, Hypertension complications, Diabetes Mellitus

Abstract

Association rule is a transparent machine learning method expected to share information about risks for chronic kidney disease (CKD) among diabetic patients, but its findings in clinical data are limited. We used the association rule to evaluate the risk for kidney disease in General and Worker diabetic cohorts. The absence of risk factors was examined for association with stable kidney function and worsening kidney function. A confidence value was used as an index of association, and a lift of > 1 was considered significant. Analyses were applied for individuals stratified by KDIGO's (Kidney Disease: Improving Global Outcomes) CKD risk categories. A General cohort of 4935 with a mean age of 66.7 years and a Worker cohort of 2153 with a mean age of 47.8 years were included in the analysis. Good glycemic control was significantly related to stable kidney function in low-risk categories among the General cohort, and in very-high risk categories among the Worker cohort; confidences were 0.82 and 0.77, respectively. Similar results were found with poor glycemic control and worsening kidney function; confidences of HbA1c were 0.41 and 0.27, respectively. Similarly, anemia, obesity, and hypertension showed significant relationships in the low-risk General and very-high risk Worker cohorts. Stratified risk assessment using association rules revealed the importance of the presence or absence of risk factors., (© 2023. The Author(s).)

Published

2023

40. Cytochrome-Derived EETs, VEGF-A, and NOX4: Piecing the Puzzle Together.

Author

Jandeleit-Dahm K and Meister J

Subjects

Humans, Vascular Endothelial Growth Factor A, Cytochrome P-450 Enzyme System, NADPH Oxidase 4, Diabetic Nephropathies, Diabetes Mellitus

Published

2023

41. Thirty years of fruitful collaborations between a physician and mass spectrometrists in diabetes field.

Author

Lapolla A

Subjects

Humans, Glycation End Products, Advanced analysis, Mass Spectrometry methods, Diabetes Mellitus metabolism, Diabetes Complications, Physicians

Abstract

The nonenzymatic protein glycation and the subsequent formation of advanced glycation end products is a process involved in the long-term complications of diabetes. In this context the collaboration, in the last 30 years, between my research group, operating in the DPT of Medicine of Padua University, and the mass spectrometric group, operating in CNR of Padua, are described and discussed. The development of new mass spectrometric techniques has allowed investigation more indepth, starting from the applications on small molecules responsible for the browning observed in the interactions between sugars and proteins, and growing up to intact proteins as albumin, immunoglobulin, hemoglobin, and so forth, with the determination of their glycation levels as well as their glycation sites. This study has helped to clarify the role of advanced glycation end products in the pathogenesis of the chronic complications of diabetes. In particular the results obtained in diabetic nephropathy, diabetic cardiovascular disease and in placenta samples of patients affected by gestational diabetes are described in this review., (© 2021 The Authors. Mass Spectrometry Reviews published by John Wiley & Sons Ltd.)

Published

2023

42. Probiotic Formula Ameliorates Renal Dysfunction Indicators, Glycemic Levels, and Blood Pressure in a Diabetic Nephropathy Mouse Model.

Author

Kuo YW, Huang YY, Tsai SY, Wang JY, Lin JH, Syu ZJ, Wang HS, Hsu YC, Chen JF, Hsia KC, and Ho HH

Subjects

Mice, Animals, Blood Glucose metabolism, Blood Pressure, Creatinine, Glucose, Disease Models, Animal, Diabetic Nephropathies, Probiotics therapeutic use, Renal Insufficiency, Chronic, Diabetes Mellitus

Abstract

One-third of patients with end-stage chronic kidney disease (CKD) experience diabetic nephropathy (DN), which worsens the progression of renal dysfunction. However, preventive measures for DN are lacking. Lactobacillus acidophilus TYCA06, Bifidobacterium longum subsp. infantis BLI-02, and Bifidobacterium bifidum VDD088 probiotic strains have been demonstrated to delay CKD progression. This study evaluated their biological functions to stabilize blood-glucose fluctuations and delay the deterioration of renal function. The db/db mice were used to establish a DN animal model. This was supplemented with 5.125 × 10 9 CFU/kg/day (high dose) or 1.025 × 10 9 CFU/kg/day (low dose) mixed with probiotics containing TYCA06, BLI-02, and VDD088 for 8 weeks. Blood urea nitrogen (BUN), serum creatinine, blood glucose, and urine protein were analyzed. Possible mechanisms underlying the alleviation of DN symptoms by probiotic strains were evaluated through in vitro tests. Animal experiments revealed that BUN, serum creatinine, and blood glucose upon probiotic administration were significantly lower than in the control group. The rate of change of urine protein decreased significantly, and blood pressure, glucose tolerance, and renal fibrosis were improved. In vitro testing indicated that TYCA06 and BLI-02 significantly increased acetic acid concentration. TYCA06, BLI-02, and VDD088 were associated with better antioxidation, anti-inflammation, and glucose consumption activities relative to the control. A combination of the probiotics TYCA06, BLI-02, and VDD088 attenuated renal function deterioration and improved blood-glucose fluctuation in a diabetes-induced CKD mouse model.

Published

2023

43. Establishment of a potent weighted risk model for determining the progression of diabetic kidney disease.

Author

Zhang T, Wang X, Zhang Y, Yang Y, Yang C, Wei H, and Zhao Q

Subjects

Humans, Glycated Hemoglobin, Cross-Sectional Studies, Uric Acid, Fibrinogen, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Background: Diabetic kidney disease (DKD) is a severe complication of diabetes. Currently, no effective measures are available to reduce the risk of DKD progression. This study aimed to establish a weighted risk model to determine DKD progression and provide effective treatment strategies., Methods: This was a hospital-based, cross-sectional study. A total of 1104 patients with DKD were included in this study. The random forest method was used to develop weighted risk models to assess DKD progression. Receiver operating characteristic curves were used to validate the models and calculate the optimal cutoff values for important risk factors., Results: We developed potent weighted risk models to evaluate DKD progression. The top six risk factors for DKD progression to chronic kidney disease were hemoglobin, hemoglobin A1c (HbA1c), serum uric acid (SUA), plasma fibrinogen, serum albumin, and neutrophil percentage. The top six risk factors for determining DKD progression to dialysis were hemoglobin, HbA1c, neutrophil percentage, serum albumin, duration of diabetes, and plasma fibrinogen level. Furthermore, the optimal cutoff values of hemoglobin and HbA1c for determining DKD progression were 112 g/L and 7.2%, respectively., Conclusion: We developed potent weighted risk models for DKD progression that can be employed to formulate precise therapeutic strategies. Monitoring and controlling combined risk factors and prioritizing interventions for key risk factors may help reduce the risk of DKD progression., (© 2023. The Author(s).)

Published

2023

44. Uncovering the mechanism of resveratrol in the treatment of diabetic kidney disease based on network pharmacology, molecular docking, and experimental validation.

Author

Chen S, Li B, Chen L, and Jiang H

Subjects

Humans, Matrix Metalloproteinase 9, Molecular Docking Simulation, Network Pharmacology, Resveratrol, PPAR gamma, Reproducibility of Results, Aldehyde Reductase, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Background: Diabetic kidney disease (DKD) has been the leading cause of chronic kidney disease in developed countries. Evidence of the benefits of resveratrol (RES) for the treatment of DKD is accumulating. However, comprehensive therapeutic targets and underlying mechanisms through which RES exerts its effects against DKD are limited., Methods: Drug targets of RES were obtained from Drugbank and SwissTargetPrediction Databases. Disease targets of DKD were obtained from DisGeNET, Genecards, and Therapeutic Target Database. Therapeutic targets for RES against DKD were identified by intersecting the drug targets and disease targets. GO functional enrichment analysis, KEGG pathway analysis, and disease association analysis were performed using the DAVID database and visualized by Cytoscape software. Molecular docking validation of the binding capacity between RES and targets was performed by UCSF Chimera software and SwissDock webserver. The high glucose (HG)-induced podocyte injury model, RT-qPCR, and western blot were used to verify the reliability of the effects of RES on target proteins., Results: After the intersection of the 86 drug targets and 566 disease targets, 25 therapeutic targets for RES against DKD were obtained. And the target proteins were classified into 6 functional categories. A total of 11 cellular components terms and 27 diseases, and the top 20 enriched biological processes, molecular functions, and KEGG pathways potentially involved in the RES action against DKD were recorded. Molecular docking studies showed that RES had a strong binding affinity toward PPARA, ESR1, SLC2A1, SHBG, AR, AKR1B1, PPARG, IGF1R, RELA, PIK3CA, MMP9, AKT1, INSR, MMP2, TTR, and CYP2C9 domains. The HG-induced podocyte injury model was successfully constructed and validated by RT-qPCR and western blot. RES treatment was able to reverse the abnormal gene expression of PPARA, SHBG, AKR1B1, PPARG, IGF1R, MMP9, AKT1, and INSR., Conclusions: RES may target PPARA, SHBG, AKR1B1, PPARG, IGF1R, MMP9, AKT1, and INSR domains to act as a therapeutic agent for DKD. These findings comprehensively reveal the potential therapeutic targets for RES against DKD and provide theoretical bases for the clinical application of RES in the treatment of DKD., (© 2023. The Author(s).)

Published

2023

45. Circulating Galectin-3 levels and Diabetic Nephropathy: a systematic review and meta-analysis.

Author

Guo Y, Li L, and Hu S

Subjects

Humans, Galectin 3, Europe, Africa, Diabetic Nephropathies, Diabetes Mellitus

Abstract

Aims: Changes of serum galectin-3 (Gal-3) is associated with the pathogenesis of diabetic nephropathy (DN). However, current literature indicates that the given results remain debatable and inconsistent. Hence, the aim of this present meta-analysis was to focus on the predictive role of serum Gal-3 in patients with DN., Methods: The PubMed, Embase, Cochrane Library and Web of Science databases were systematically searched for studies that reported the relationship between Gal-3 levels and DN risk, from the inception of each database to March, 2023. The literature we selected for inclusion based on inclusion and exclusion criteria. The standard mean difference (SMD) with corresponding 95% confidence intervals (95% CI) were used to investigate the association. When I 2 value exceeding 50%, we will consider it has the presence of a higher level of heterogeneity. A sensitivity analysis and subgroup analysis were performed to seek the potential sources of heterogeneity. The quality assessment was performed using according to the Newcastle-Ottawa Quality Assessment Scale (NOS). The data analysis was conducted using STATA version 13.0 software., Results: We ultimately enrolled 9 studies enrolling a total of 3137 patients in the final analysis. The SMD of serum Gal-3 was higher in patients with DN group (SMD 1.10 ng/mL [0.63, 1.57]; I 2 : 96.1%). Upon removal of a study in sensitivity analysis, patients with DN had higher serum Gal-3 levels compared to control patients (SMD 1.03 ng/mL [0.52, 1.54], I 2 : 94.4%). Further subgroup analysis was performed based on the region. No matter in Asia, Europe or Africa, the serum Gal-3 level of DN patients is significantly higher than that of the control population (SMD: 0.73; 95% CI: 0.58 to 0.87 for Asian; SMD: 0.79; 95% CI: 0.48 to 1.10 for Europe; SMD: 3.15; 95% CI: 2.73 to 3.56 for Africa)., Conclusion: In conclusion, these results suggested that higher serum Gal-3 may increase the risk of DN. More fundamental studies are necessary to clarify the exact physiopathological basis mechanisms of Gal-3 effects. In addition, further research, especially emphasis on the cut-off value should be given, and is best to predict their actual importance as well as the diagnostic accuracy., (© 2023. The Author(s).)

Published

2023

46. Deep learning-based multi-omics study reveals the polymolecular phenotypic of diabetic kidney disease.

Author

Zhao H, Yuan Y, Chen S, Yao Y, Bi C, Liu C, Sun G, Su H, Li X, Li X, Yan X, and Li Y

Subjects

Humans, Multiomics, Diabetic Nephropathies, Deep Learning, Diabetes Mellitus

Published

2023

47. Zuogui-Jiangtang-Yishen decoction prevents diabetic kidney disease: Intervene pyroptosis induced by trimethylamine n-oxide through the mROS-NLRP3 axis.

Author

Yi ZY, Peng YJ, Hui BP, Liu Z, Lin QX, Zhao D, Wang Y, Liu X, Xie J, Zhang SH, Huang JH, and Yu R

Subjects

Animals, Humans, Rats, Chromatography, Liquid, NLR Family, Pyrin Domain-Containing 3 Protein metabolism, Pyroptosis, RNA, Ribosomal, 16S, Tandem Mass Spectrometry, Drugs, Chinese Herbal, Diabetes Mellitus, Diabetic Nephropathies

Abstract

Background: Nowadays, diabetic kidney disease (DKD) has become one of the most threatening to the end-stage renal diseases, and the early prevention of DKD is inevitable for Diabetes Mellitus (DM) patients., Aims: Pyroptosis, a programmed cell death that mediates renal inflammation induced early renal injury. The trimethylamine n-oxide (TMAO) was also an independent risk factor for renal injury. Here, the associations between TMAO-induced pyroptosis and pathogenesis of DKD were studied, and the potential mechanism of Zuogui-Jiangtang-Yishen (ZGJTYS) decoction to prevent DKD was further investigated., Method: Using Goto-Kakizaki (GK) rats to establish the early DKD models. The 16S-ribosomal RNA (16S rRNA) sequencing, fecal fermentation and UPLC-MS targeted metabolism techniques were combined to explore the changes of gut-derived TMAO level under the background of DKD and the effects of ZGJTYS. The proximal convoluted tubule epithelium of human renal cortex (HK-2) cells was adopted to explore the influence of pyroptosis regulated by TMAO., Results: It was demonstrated that ZGJTYS could prevent the progression of DKD by regulating glucolipid metabolism disorder, improving renal function and delaying renal pathological changes. In addition, we illustrated that gut-derived TMAO could promote DKD by activating the mROS-NLRP3 axis to induce pyroptosis. Furthermore, besides interfering with the generation of TMAO through gut microbiota, ZGJTYS inhibited TMAO-induced pyroptosis with a high-glucose environment and the underlying mechanism was related to the regulation of mROS-NLRP3 axis., Conclusion: Our results suggested that ZGJTYS inhibited the activation of pyroptosis by gut-derived TMAO via the mROS-NLRP3 axis to prevent DKD., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023. Published by Elsevier GmbH.)

Published

2023

48. COVID-19 vaccine coverage, safety, and perceptions among patients with diabetes mellitus in China: a cross-sectional study.

Author

Li H, Ping F, Li X, Wang Z, Xiao J, Jiang H, Xue Y, Quan J, Yao H, Zheng X, Chen Y, Li Y, Yu X, Xu L, Feng X, Wang S, Li Y, and Xiao X

Subjects

Humans, COVID-19 Vaccines adverse effects, Cross-Sectional Studies, SARS-CoV-2, China epidemiology, COVID-19 complications, COVID-19 epidemiology, COVID-19 prevention & control, Diabetic Nephropathies, Drug-Related Side Effects and Adverse Reactions, Diabetes Mellitus epidemiology

Abstract

Aims: Diabetes mellitus (DM), one of the most common chronic diseases in China, is a risk factor for SARS-COV-2 infection and poor prognosis of COVID-19. The COVID-19 vaccine is one of the key measures to control the pandemic. However, the actual coverage of COVID-19 vaccination and associated factors remain unclear among DM patients in China. We conducted this study to investigate the COVID-19 vaccine coverage, safety, and perceptions among patients with DM in China., Methods: A cross-sectional study of a sample of 2200 DM patients from 180 tertiary hospitals in China was performed using a questionnaire developed through the Wen Juan Xing survey platform to collect information regarding their coverage, safety, and perceptions of COVID-19 vaccination. A multinomial logistic regression analysis model was performed to determine any independent relationships with COVID-19 vaccination behavior among DM patients., Results: In total, 1929 (87.7%) DM patients have received at least one dose COVID-19 vaccine, and 271 (12.3%) DM patients were unvaccinated. In addition, 65.2% (n = 1434) were booster vaccinated against COVID-19, while 16.2% (n = 357) were only fully vaccinated and 6.3% (n = 138) were only partially vaccinated. The prevalence of adverse effects after the first dose of vaccine, the second dose of vaccine, and the third dose of vaccine were 6.0%, 6.0%, and 4.3% respectively. Multinomial logistic regression analysis showed that DM patients complicated with immune and inflammatory diseases (partially vaccinated: OR = 0.12; fully vaccinated: OR = 0.11; booster vaccinated: OR = 0.28), diabetic nephropathy (partially vaccinated: OR = 0.23; fully vaccinated: OR = 0.50; booster vaccinated: OR = 0.30), and perceptions on the safety of COVID-19 vaccine (partially vaccinated: OR = 0.44; fully vaccinated: OR = 0.48; booster vaccinated: OR = 0.45) were all associated with the three of vaccination status., Conclusion: This study showed that higher proportion of COVID-19 vaccine coverage among patients with DM in China. The concern about the safety of the COVID-19 vaccine affected the vaccine behavior in patients with DM. The COVID-19 vaccine was relatively safe for DM patients due to all side effects were self-limiting., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Li, Ping, Li, Wang, Xiao, Jiang, Xue, Quan, Yao, Zheng, Chen, Li, Yu, Xu, Feng, Wang, Li and Xiao.)

Published

2023

49. From Diabetic Nephropathy to End-Stage Renal Disease: The Effect of Chemokines on the Immune System.

Author

Qiu Y, Tang J, Zhao Q, Jiang Y, Liu YN, and Liu WJ

Subjects

Humans, Cytokines, Monocytes, Inflammation, Computational Biology, Diabetic Nephropathies, Kidney Failure, Chronic, Diabetes Mellitus

Abstract

Background: Diabetic nephropathy (DN) is a major cause of end-stage renal disease (ESRD), and there is growing evidence to support the role of immunity in the progression of DN to ESRD. Chemokines and chemokine receptors (CCRs) can recruit immune cells to sites of inflammation or injury. Currently, no studies have reported the effect of CCRs on the immune environment during the progression of DN to ESRD., Methods: Differentially expressed genes (DEGs) from the GEO database were identified in DN patients versus ESRD patients. GO and KEGG enrichment analyses were performed using DEGs. A protein-protein interaction (PPI) network was constructed to identify hub CCRs. Differentially expressed immune cells were screened by immune infiltration analysis, and the correlation between immune cells and hub CCRs was also calculated., Result: In this study, a total of 181 DEGs were identified. Enrichment analysis showed that chemokines, cytokines, and inflammation-related pathways were significantly enriched. Combining the PPI network and CCRs, four hub CCRs (CXCL2, CXCL8, CXCL10, and CCL20) were identified. These hub CCRs showed an upregulation trend in DN patients and a downregulation trend in ESRD patients. Immune infiltration analysis identified a variety of immune cells that underwent significant changes during disease progression. Among them, CD56bright natural killer cell, effector memory CD8 T cell, memory B cell, monocyte, regulatory T cell, and T follicular helper cell were significantly associated with all hub CCR correlation., Conclusion: The effect of CCRs on the immune environment may contribute to the progression of DN to ESRD., Competing Interests: The authors declare that they have no competing interests., (Copyright © 2023 Yuheng Qiu et al.)

Published

2023

50. Yi-Shen-Hua-Shi granule ameliorates diabetic kidney disease by the "gut-kidney axis".

Author

Han C, Shen Z, Cui T, Ai SS, Gao RR, Liu Y, Sui GY, Hu HZ, and Li W

Subjects

Animals, Rats, Blood Glucose, Chromatography, Liquid, Glucose, Glycerophospholipids, Kidney physiology, Saline Solution, Sphingolipids, Tandem Mass Spectrometry, Tryptophan, Valsartan, Herbal Medicine, Diabetes Mellitus, Diabetic Nephropathies

Abstract

Ethnopharmacological Relevance: Yi-Shen-Hua-Shi (YSHS) granule is an effective prescription widely used in traditional Chinese medicine to treat diabetic kidney disease (DKD), its exact efficacy in treating DKD has been confirmed but the underlying regulatory mechanism has not been fully elucidated., Aim of the Study: To explore the mechanism by which YSHS granule regulates intestinal flora and serum metabolites and then regulates renal mRNA expression through the "gut-kidney axis", so as to improve DKD., Materials and Methods: 40 rats were divided into five groups: Normal group (N) (normal saline), model group (M) (STZ + normal saline), YSHS granule low-dose group (YL) (STZ + 2.27 g kg -1 d -1 ), YSHS granule high-dose group (YH) (STZ + 5.54g kg -1 d -1 ) and valsartan group (V) (STZ + 7.38mg kg -1 d -1 ). After 6 weeks, changes in blood glucose, blood lipids, and renal function related indexes were observed, as well as pathological changes in the kidney and colon. Intestinal microbiota was sequenced by 16S rDNA, serum differential metabolites were identified by LC-MS/MS, and renal differences in mRNA expression were observed by RNA-seq. Further, through the association analysis of intestinal differential microbiota, serum differential metabolites and kidney differential mRNAs, the target flora, target metabolites and target genes of YSHS granule were screened and verified, and the "gut-metabolism-transcription" co-expression network was constructed., Results: In group M, blood glucose, blood lipid and proteinuria were increased, inflammation, oxidative stress and renal function were aggravated, with the proliferation of mesangial matrix, vacuolar degeneration of renal tubules, accumulation of collagen and lipid, and increased intestinal permeability, and YSHS granule and valsartan improved these disorders to varying degrees. High dose of YSHS granule improved the diversity and abundance of flora, decreased the F/B value, greatly increased the abundance of Lactobacillus and Lactobacillus&#95;murinus, and decreased the abundance of Prevoella UCG&#95;001. 14 target metabolites of YSHS granule were identified, which were mainly enriched in 20 KEGG pathways, such as Glycerophospholipid metabolism, Sphingolipid metabolism and Phenylalanine, tyrosine and tryptophan biosynthesis. 96 target mRNAs of YSHS granule were also identified. The enriched top 20 pathways were closely related to glucose and lipid metabolism, of which a total of 21 differential mRNAs were expressed. Further correlation analysis revealed that Lactobacillus, Lactobacillus&#95;murinus and Prevotella UCG&#95;001 were highly correlated with Glycerophospholipid metabolism, Sphingolipid metabolism and Phenylalanine, tyrosine and tryptophan biosynthesis pathways. At the same time, 6 pathways including Glycerophospholipid metabolism, Arachidonic acid metabolism, Purine metabolism, Primary bile acid biosynthesis, Ascorbate and aldarate metabolism and Galactose metabolism were co-enriched by the target metabolites and the target mRNAs of YSHS granule, including 7 differential metabolites such as phosphatidylethanolamine and 7 differential genes such as Adcy3. The 7 differential metabolites had high predictive value of AUC, and the validation of 7 differential genes were highly consistent with the sequencing results., Conclusion: YSHS granule could improve DKD through the "gut-kidney axis". Lactobacillus and Lactobacillus&#95;murinus were the main driving forces. 6 pathways related to glucose and lipid metabolism, especially Glycerophospholipid metabolism, may be an important follow-up response and regulatory mechanism., Competing Interests: Declaration of competing interest All authors declare that there was no potential conflicts of interest referring to this study., (Copyright © 2023 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2023