Optimizing glycation control in diabetes: An integrated approach for inhibiting nonenzymatic glycation reactions of biological macromolecules.
Study Goal
The researchers aimed to review the molecular mechanisms and pathological consequences of nonenzymatic glycation in diabetes and evaluate anti-glycation strategies to prevent and treat diabetes complications.
Results Summary
The study found that nonenzymatic glycation generates advanced glycation end-products (AGEs) that impair tissue function in diabetes. Anti-glycation strategies, including dietary, pharmacological, and enzymatic interventions, show potential in preventing and controlling AGE formation.
Population
Diabetes patients (general, not specified further).
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Diet | decrease | the onset of high glucose | - | - | can reduce | #1 |
Exercise | decrease | the onset of high glucose | - | - | can reduce | #2 |
Hypoglycemic medications | decrease | the onset of high glucose | - | - | can reduce | #3 |
Flavonoids | decrease | the initial nonenzymatic glycation reaction | - | - | competitively bind to proteins or glucose to block | #4 |
Lysine | decrease | the initial nonenzymatic glycation reaction | - | - | competitively bind to proteins or glucose to block | #5 |
Aminoguanidine | decrease | the initial nonenzymatic glycation reaction | - | - | competitively bind to proteins or glucose to block | #6 |
Amadoriase | decrease | existing nonenzymatic glycation products | - | - | can eliminate | #7 |
Fructosamine-3-kinase | decrease | existing nonenzymatic glycation products | - | - | can eliminate | #8 |
Parkinson's disease protein | decrease | existing nonenzymatic glycation products | - | - | can eliminate | #9 |
Glutamine amidotransferase-like class 1 domain-containing 3A | decrease | existing nonenzymatic glycation products | - | - | can eliminate | #10 |
Terminal FraB deglycase | decrease | existing nonenzymatic glycation products | - | - | can eliminate | #11 |
Diabetes is a multifactorial disorder that increases mortality and disability due to its complications. A key driver of these complications is nonenzymatic glycation, which generates advanced glycation end-products (AGEs) that impair tissue function. Therefore, effective nonenzymatic glycation prevention and control strategies are urgently needed. This review comprehensively describes the molecular mechanisms and pathological consequences of nonenzymatic glycation in diabetes and outlines various anti-glycation strategies, such as lowering plasma glucose, interfering with the glycation reaction, and degrading early and late glycation products. Diet, exercise, and hypoglycemic medications can reduce the onset of high glucose at the source. Glucose or amino acid analogs such as flavonoids, lysine and aminoguanidine competitively bind to proteins or glucose to block the initial nonenzymatic glycation reaction. In addition, deglycation enzymes such as amadoriase, fructosamine-3-kinase, parkinson's disease protein, glutamine amidotransferase-like class 1 domain-containing 3A and terminal FraB deglycase can eliminate existing nonenzymatic glycation products. These strategies involve nutritional, pharmacological, and enzymatic interventions that target different stages of nonenzymatic glycation. This review also emphasizes the therapeutic potential of anti-glycation drugs for preventing and treating diabetes complications.