Carbonyl stress in schizophrenia

We have identified idiopathic carbonyl stress in a subpopulation of schizophrenic patients. We first identified a patient with a mutation in GLO1 (glyoxalase I) who showed increased AGE (advanced glycation end-product) levels and decreased vitamin B₆ levels. By applying the observations from this rare case to the general schizophrenic population, we were able to identify a subset of patients (20%) for whom carbonyl stress may represent a causative pathophysiological process. Genetic defects in GLO1 increase the risk of carbonyl stress 5-fold, and the resulting increased AGE levels correlate significantly with PANSS (Positive and Negative Syndrome Scale) scored negative symptoms. Pyridoxamine, an active form of vitamin B₆ and scavenger for carbonyl stress, could represent a novel and efficacious therapeutic agent for these treatment-resistant symptoms. In the present article, we describe a unique research approach to identify the causative process in the pathophysiology of a subset of schizophrenia. Our findings could form the basis of a schizophrenia subtype classification within this very heterogeneous disease and ultimately lead to better targeted therapy.