Glycation Inactivation of the Complement Regulatory Protein CD59: a Possible Role in the Pathogenesis of the Vascular Complications of Human Diabetes

Overview

Journal Diabetes

Specialty Endocrinology

Date 2004 Sep 28

PMID 15448097

Citations 77

Authors

Xuebin Qin

Allison Goldfine

Nicole Krumrei

Luciano Grubissich

Juan Acosta

Michael Chorev

Arthur P Hays

Jose A Halperin

Affiliations

Soon will be listed here.

Abstract

Micro- and macrovascular diseases are major causes of morbidity and mortality in the diabetic population, but the cellular and molecular mechanisms that link hyperglycemia to these complications remain incompletely understood. We proposed that in human diabetes, inhibition by glycation of the complement regulatory protein CD59 increases deposition of the membrane attack complex (MAC) of complement, contributing to the higher vascular risk. We report here 1) the generation and characterization of an anti-glycated human CD59 (hCD59) specific antibody, 2) the detection with this antibody of glycated hCD59 colocalized with MAC in kidneys and nerves from diabetic but not from nondiabetic subjects, and 3) a significantly reduced activity of hCD59 in erythrocytes from diabetic subjects, a finding consistent with glycation inactivation of hCD59 in vivo. Because hCD59 acts as a specific inhibitor of MAC formation, these findings provide a molecular explanation for the increased MAC deposition reportedly found in the target organs of diabetic complications. We conclude that glycation inactivation of hCD59 that leads to increased MAC deposition may contribute to the extensive vascular pathology that complicates human diabetes.

Citing Articles

Proteomic Profiling of Endothelial Cell Secretomes After Exposure to Calciprotein Particles Reveals Downregulation of Basement Membrane Assembly and Increased Release of Soluble CD59.

Stepanov A, Shishkova D, Markova V, Markova Y, Frolov A, Lazebnaya A Int J Mol Sci. 2024; 25(21).

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Glycated CD59 is a potential biomarker for gestational diabetes mellitus.

Wang W, Xu C, Lu X, Cao W, Zuo T, Zhang Y Front Endocrinol (Lausanne). 2024; 15:1374253.

PMID: 39351537 PMC: 11439654. DOI: 10.3389/fendo.2024.1374253.

Enhanced complement activation and MAC formation accelerates severe COVID-19.

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Oxidative Stress: A Culprit in the Progression of Diabetic Kidney Disease.

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