The Role of Glyoxalase in Glycation and Carbonyl Stress Induced Metabolic Disorders

Author:

Saeed Mohd1,Kausar Mohd Adnan2,Singh Rajeev3,Siddiqui Arif J.1,Akhter Asma4

Affiliation:

1. Department of Biology, College of Sciences, University of Hail, Hail, Saudi Arabia

2. Department of Biochemistry, College of Medicine, University of Hail, Hail, Saudi Arabia

3. Department of Environmental Studies, Sataywati College, Delhi University, Delhi, India

4. Department of Biosciences, Integral University, Lucknow, Uttar Pradesh 226026, India

Abstract

Glycation refers to the covalent binding of sugar molecules to macromolecules, such as DNA, proteins, and lipids in a non-enzymatic reaction, resulting in the formation of irreversibly bound products known as advanced glycation end products (AGEs). AGEs are synthesized in high amounts both in pathological conditions, such as diabetes and under physiological conditions resulting in aging. The body’s anti-glycation defense mechanisms play a critical role in removing glycated products. However, if this defense system fails, AGEs start accumulating, which results in pathological conditions. Studies have been shown that increased accumulation of AGEs acts as key mediators in multiple diseases, such as diabetes, obesity, arthritis, cancer, atherosclerosis, decreased skin elasticity, male erectile dysfunction, pulmonary fibrosis, aging, and Alzheimer’s disease. Furthermore, glycation of nucleotides, proteins, and phospholipids by α-oxoaldehyde metabolites, such as glyoxal (GO) and methylglyoxal (MGO), causes potential damage to the genome, proteome, and lipidome. Glyoxalase-1 (GLO-1) acts as a part of the anti-glycation defense system by carrying out detoxification of GO and MGO. It has been demonstrated that GLO-1 protects dicarbonyl modifications of the proteome and lipidome, thereby impeding the cell signaling and affecting age-related diseases. Its relationship with detoxification and anti-glycation defense is well established. Glycation of proteins by MGO and GO results in protein misfolding, thereby affecting their structure and function. These findings provide evidence for the rationale that the functional modulation of the GLO pathway could be used as a potential therapeutic target. In the present review, we summarized the newly emerged literature on the GLO pathway, including enzymes regulating the process. In addition, we described small bioactive molecules with the potential to modulate the GLO pathway, thereby providing a basis for the development of new treatment strategies against age-related complications.

Publisher

Bentham Science Publishers Ltd.

Subject

Cell Biology,Molecular Biology,Biochemistry,General Medicine

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