Table 2.
Possible agents and their method of action for Anti-AGE treatments
| Drug/Agent | Source | Method of action |
|---|---|---|
| Vitexin and Isovitexin | Soybean | Free radical scavenging/metal ion trapping |
| Aminoguanidine | Synthetic | •Reacts with derivatives of early glycation products that are not bound on proteins (3-deoxyglucosone) •Inhibits lipid peroxidation and oxygen induced apoptosis Prevents cross-link formation |
| Vitamin C & E | Fruits | •Vitamin E blocks the protein glycation by inhibiting MDA (malondialdehyde) formation |
| Thymoquinone | Nigella sativa | •Inhibited the early stage of glycation Strongly inhibited the post Amadori glycation |
| Epigallocatechin gallate | Green tea | Trap MGO (methylglyoxal) under physiological conditions |
| Rutin | Tomato | •Inhibits auto-oxidation of glucose •Free radical scavenging/metal ion trapping Trapping of reactive dicarbonyl and reactive oxygen species |
| Microalgal extract | Chlorella and diatom Nitzchiva laevis | Carotenoids and polyunsaturated fatty acids are supposed to have antiglycative properties. |
| Aspirin (Acetyl-salicylic acid) | Synthetic | Inhibit glycation by acetylating free amino groups of a protein, thereby blocking the attachment of reducing sugars |
| Vitamin B1 and B6 | Whole grain cereals | •Prevents the degradation of protein-Amadori intermediates to protein-AGE products •Reduces hyperlipidemia and prevents AGE formation Scavenge reactive carbonyl compounds |
| Penicillamine | Amino acid metabolite of penicillin | •Reduce the level of AGEs through decreasing the formation of Amadori products |