Christopher A. Simeone scite author profile

Chronic inflammation is postulated to be involved in development of end stage renal disease (ESRD) in diabetes, but which specific circulating inflammatory proteins contribute to this risk remains unknown. To study this we examined 194 circulating inflammatory proteins in subjects from three independent cohorts with Type 1 and Type 2 diabetes. In each cohort we identified an extremely robust K idney R isk I nflammatory S ignature (KRIS) consisting of 17 novel proteins enriched for TNF Receptor Superfamily members that was associated with a 10-year risk of ESRD. All these proteins had a systemic, non-kidney source. Our prospective study findings provide strong evidence that KRIS proteins contribute to the inflammatory process underlying ESRD development in both types of diabetes. These proteins may be used as new therapeutic targets, new prognostic tests for high risk of ESRD and as surrogate outcome measures where changes in KRIS levels during intervention can reflect the tested therapy’s effectiveness.

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A dominant negative ADIPOQ mutation in a diabetic family with renal disease, hypoadiponectinemia, and hyperceramidemia

Simeone

Wilkerson

Poss

et al. 2022

npj Genom. Med.

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Adiponectin, encoded by ADIPOQ, is an insulin-sensitizing, anti-inflammatory, and renoprotective adipokine that activates receptors with intrinsic ceramidase activity. We identified a family harboring a 10-nucleotide deletion mutation in ADIPOQ that cosegregates with diabetes and end-stage renal disease. This mutation introduces a frameshift in exon 3, resulting in a premature termination codon that disrupts translation of adiponectin’s globular domain. Subjects with the mutation had dramatically reduced circulating adiponectin and increased long-chain ceramides levels. Functional studies suggest that the mutated protein acts as a dominant negative through its interaction with non-mutated adiponectin, decreasing circulating adiponectin levels, and correlating with metabolic disease.

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Targeted Next-Generation Sequencing Identifies Pathogenic Variants in Diabetic Kidney Disease

Fierro-Morales

Wright

et al. 2021

Am J Nephrol

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Introduction: Diabetes is the most common cause of chronic kidney disease (CKD). For patients with diabetes and CKD, the underlying cause of their kidney disease is often assumed to be a consequence of their diabetes. Without histopathological confirmation, however, the underlying cause of their disease is unclear. Recent studies have shown that next-generation sequencing (NGS) provides a promising avenue toward uncovering and establishing precise genetic diagnoses in various forms of kidney disease. Methods: Here, we set out to investigate the genetic basis of disease in nondiabetic kidney disease (NDKD) and diabetic kidney disease (DKD) patients by performing targeted NGS using a custom panel comprising 345 kidney disease-related genes. Results: Our analysis identified rare diagnostic variants based on ACMG-AMP guidelines that were consistent with the clinical diagnosis of 19% of the NDKD patients included in this study. Similarly, 22% of DKD patients were found to carry rare pathogenic/likely pathogenic variants in kidney disease-related genes included on our panel. Genetic variants suggestive of NDKD were detected in 3% of the diabetic patients included in this study. Discussion/Conclusion: Our findings suggest that rare variants in kidney disease-related genes in a diabetic background may play a role in the pathogenesis of DKD and NDKD in patients with diabetes.

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The Genetic Basis of Diabetic Kidney Disease

Simeone

Pezzolesi

2020

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Proteomic Profile of Circulating Inflammatory Proteins Associated with 10-Year Risk of ESRD in T1 and T2 Diabetes—Enrichment for TNF Receptor Superfamily Members

Niewczas¹,

Skupień²,

Nair³

et al. 2018

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We conducted an untargeted proteomic profiling of circulating inflammatory proteins using SOMASCAN platform to find those that predicted 10-year ESRD risk in two cohort study. Subjects with Type 1 Diabetes (T1D) served as a discovery cohort and a T2D cohort was used in validation. We identified a kidney risk inflammatory signature (KRIS) that robustly predicted progression to ESRD. The signature comprised 17 proteins out of 194 examined. KRIS was enriched for members of TNFR Superfamily (p=0.007) including TNFR1, TNFR2, TNFRSF19, TNFRSF19L, TNFRSF21 and TNFRSF27. Other KRIS proteins included IL15RA, IL17F, DAF, CLM6, TNFSF15, CCL14, CCL15, CSF1, TIMD3, IL1R1 and IL18R1. Hazard ratio (95% CI) for the top KRIS protein, TNFR1 was 3.6 (2.8, 4.6), p < 10-25. KRIS was neither enriched in receptors for other cytokines nor in cytokine ligands. Pathway analyses pointed to candidate therapeutic targets and aligned them by ranks. Eight proteins are currently targeted with compounds used for other clinical indications. Kidney tissue expression analysis and urinary proteomics suggested a systemic source of KRIS proteins. In summary, our study identifies and validates a powerful protein signature enriched in TNFRSF members associated with 10-year ESRD risk in diabetes. These findings should inform future drug development strategies. Disclosure M. Niewczas: None. J.K. Skupien: None. V. Nair: None. A. Smiles: None. J. Park: None. E. Satake: None. C.A. Simeone: None. J. Tsay: None. W. Ju: None. M. Kretzler: Research Support; Self; AstraZeneca, Novo Nordisk Inc., Boehringer Ingelheim GmbH, National Institute of Diabetes and Digestive and Kidney Diseases, Eli Lilly and Company, Gilead Sciences, Inc. K. Susztak: Research Support; Self; Regeneron Pharmaceuticals, Inc., Boehringer Ingelheim Pharmaceuticals, Inc., GlaxoSmithKline plc., Merck & Co., Inc., Eli Lilly and Company, Ono Pharmaceutical Co., Ltd.. A. Krolewski: None.

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