Prevention and repair of protein damage by the Maillard reaction in vivo
- PMID: 16706654
- DOI: 10.1089/rej.2006.9.264
Prevention and repair of protein damage by the Maillard reaction in vivo
Abstract
The aging human extracellular matrix (ECM) and tissues rich in long-lived proteins undergo extensive changes with age that include increased stiffening, loss of elasticity, insolubilization, and decreased proteolytic digestibility. Most if not all these changes can be duplicated by the Maillard reaction in vitro, that is, the incubation of the proteins with reducing sugars and oxoaldehydes. These carbonyls eventually form advanced glycation end products (AGEs) and crosslinks that impair proteolytic digestibility and alter protein conformation. To date, close to 20 AGEs have been found in the human skin, of which ornithine is the single major result of damage to arginine residues, and glucosepane the single major crosslink. Although redox active metals and oxoaldehydes appear to play an important role in protein damage in experimental diabetes, their role in diabetic humans is still poorly understood. Evidence for the existence of deglycating enzymes has been found in vertebrates, bacteria, and fungi. However, only the vertebrate enzymes can deglycate larger, intracellular proteins via an ATP-dependent mechanism. Protein engineering will thus be needed to adapt Amadoriase enzymes toward deglycation of ECM proteins for purpose of probing the role of advanced glycation in animal models of diabetes and age-related diseases. The blocking of the reactivity of the glucosepane precursor using potent nucleophiles may be useful in preventing age-related changes in ECM proteins. However, there currently is no evidence in support of the proposed ability of so-called "AGE breakers" to cleave existing crosslinks of the Maillard reaction in vivo, and other mechanisms of action should be sought for this class of compounds.
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