Nonenzymatic Glycation of Mesangial Matrix and Prolonged Exposure of Mesangial Matrix to Elevated Glucose Reduces Collagen Synthesis and Proteoglycan Charge
Overview
Affiliations
Expansion of the mesangial matrix in diabetes occurs after prolonged exposure to the diabetic milieu. To mimic the long-term hyperglycemia of diabetes mellitus we developed tissue culture systems that might approximate the chronic state. This was accomplished in two ways: (1) by growing mesangial cells on extracellular matrix glycated and crosslinked in vitro and (2) by continuously growing cells on their own matrix on filters in elevated glucose medium (500 mg/dl) for up to eight weeks without passage. Synthesis of collagen and proteoglycans was evaluated in cells grown under these conditions. In both these situations, 3H-proline incorporation into collagenase sensitive protein and 35S incorporation into sulfated proteins were reduced compared to control cultures. Despite reduction in 35S incorporation into proteoglycans in the high glucose cultures, total glycosaminoglycan content was unchanged. However, proteoglycans generated by mesangial cells grown in elevated glucose media were of a lower negative charge than controls. In mesangial cells continuously grown on filters, the levels of messenger RNA for collagen types I and IV, biglycan and TGF-beta were not different in cells grown at elevated or standard glucose concentrations for two and four weeks. We conclude that crosslinking of mesangial matrix or continuous culture of cells for prolonged periods of time in high glucose medium, which may also crosslink matrix, suppresses collagen synthesis and reduces the negative charges on matrix proteoglycans without altering mRNA levels.
The Mechanism of Hyperglycemia-Induced Renal Cell Injury in Diabetic Nephropathy Disease: An Update.
Wu T, Ding L, Andoh V, Zhang J, Chen L Life (Basel). 2023; 13(2).
PMID: 36836895 PMC: 9967500. DOI: 10.3390/life13020539.
Fibrosis in Chronic Kidney Disease: Pathogenesis and Consequences.
Panizo S, Martinez-Arias L, Alonso-Montes C, Cannata P, Martin-Carro B, Fernandez-Martin J Int J Mol Sci. 2021; 22(1).
PMID: 33401711 PMC: 7795409. DOI: 10.3390/ijms22010408.
Function of NADPH Oxidases in Diabetic Nephropathy and Development of Nox Inhibitors.
Lee S, An E, Kim J, Bae Y Biomol Ther (Seoul). 2019; 28(1):25-33.
PMID: 31875663 PMC: 6939690. DOI: 10.4062/biomolther.2019.188.
Effect of spent turmeric on kidney glycoconjugates in streptozotocin-induced diabetic rats.
Kumar G, Salimath P J Diabetes Metab Disord. 2015; 13:78.
PMID: 26413492 PMC: 4583005. DOI: 10.1186/2251-6581-13-78.
Pathophysiology of the diabetic kidney.
Vallon V, Komers R Compr Physiol. 2013; 1(3):1175-232.
PMID: 23733640 PMC: 6029262. DOI: 10.1002/cphy.c100049.