Can the NK Family of Osteoblast Homeodomain Transcription Factors Signaling Be a Magic Bullet to Reverse Calcification-Induced Vasculopathy in Diabetes?

Abstract

Human vascular calcification burden has existed for at least 5 millennia and has long been a major area of interest in the cardiovascular physiopathology research. Abnormal calcium deposition occurs in almost all arterial beds in both the media and intima in metabolic and diabetic diseases. Calcification of arteries reduces arterial elastance and compromises cardiovascular hemodynamics, which are high risk factors for cardiovascular diseases such stroke and ischemic heart disease (1). Despite the wealth of information regarding the effects of vascular calcification in atherosclerosis, metabolic syndrome, hypertension, and diabetes, the molecular mechanism of arteriosclerosis remains poorly understood. Therefore, understanding the mechanism by which diabetes and metabolic disease induce vascular calcification is crucial to identify effective new therapeutic strategies to intervene with the disease. Interestingly in this issue, Cheng et al. (2) determined the in vivo contribution of members of the highly conserved NK family of osteoblast homeodomain transcription factors 1 ( Msx1 ) and 2 ( Msx2 ) signaling in arteriosclerosis and vascular stiffness in diabetic mice. The study by Cheng et al. provides new insight into the molecular mechanism that drives arteriosclerosis in diabetes and suggests a potential target for future therapy. Thus, targeting Msx1 …