Saltar al contenido
Merck

Hypohalous acids contribute to renal extracellular matrix damage in experimental diabetes.

Diabetes (2015-01-22)
Kyle L Brown, Carl Darris, Kristie Lindsey Rose, Otto A Sanchez, Hartman Madu, Josh Avance, Nickolas Brooks, Ming-Zhi Zhang, Agnes Fogo, Raymond Harris, Billy G Hudson, Paul Voziyan
RESUMEN

In diabetes, toxic oxidative pathways are triggered by persistent hyperglycemia and contribute to diabetes complications. A major proposed pathogenic mechanism is the accumulation of protein modifications that are called advanced glycation end products. However, other nonenzymatic post-translational modifications may also contribute to pathogenic protein damage in diabetes. We demonstrate that hypohalous acid-derived modifications of renal tissues and extracellular matrix (ECM) proteins are significantly elevated in experimental diabetic nephropathy. Moreover, diabetic renal ECM shows diminished binding of α1β1 integrin consistent with the modification of collagen IV by hypochlorous (HOCl) and hypobromous acids. Noncollagenous (NC1) hexamers, key connection modules of collagen IV networks, are modified via oxidation and chlorination of tryptophan and bromination of tyrosine residues. Chlorotryptophan, a relatively minor modification, has not been previously found in proteins. In the NC1 hexamers isolated from diabetic kidneys, levels of HOCl-derived oxidized and chlorinated tryptophan residues W(28) and W(192) are significantly elevated compared with nondiabetic controls. Molecular dynamics simulations predicted a more relaxed NC1 hexamer tertiary structure and diminished assembly competence in diabetes; this was confirmed using limited proteolysis and denaturation/refolding. Our results suggest that hypohalous acid-derived modifications of renal ECM, and specifically collagen IV networks, contribute to functional protein damage in diabetes.

MATERIALES
Referencia del producto
Marca
Descripción del producto

Sigma-Aldrich
Sodium hypochlorite solution, CP
Sigma-Aldrich
Sodium hypochlorite solution, CP