Abstract
Glycation of amino or guanidino groups of proteins with glucose and glucose-derived reactive aldehydes, such as α-hydroxyaldehydes, leads to accumulation of advanced glycation end-products (AGEs) in the body, resulting in diabetic complications and age-related pathology. Although molecular structures of glycolaldehyde- and glyceraldehyde-derived AGEs have been described in previous studies, little is known about lactaldehyde-derived AGEs of α-hydroxyaldehydes. Here, we report a novel crosslinked type of AGE, named as lactaldehyde-derived lysine dimer (LAK2), which is produced due to non-enzymatic glycation of N α-acetyl-L-lysine with lactaldehyde under physiological conditions. We have identified the molecular structure of LAK2 by extensive mass spectrometry and nuclear magnetic resonance analyses. Furthermore, we propose a reaction pathway to produce LAK2, in which it is formed through an intermediate common with the recently reported lactaldehyde-derived pyridinium-type lysine adduct (LAPL). Since lactaldehyde is known to be produced from L-threonine in a myeloperoxidase (MPO)-mediated reaction at sites of inflammation, LAK2 has the potential to be an oxidative stress marker of MPO-mediated reactions induced in inflammation.