NDP52 and its emerging role in pathogenesis
Krenare Bruqi, Flavie Strappazzon
Abstract
Autophagy is a pro-survival process that regulates the degradation and renewal of cellular components, making it a crucial mechanism for cellular homeostasis. There are selective forms of autophagy that are specific to a number of substrates, such as pathogens (bacteria or viruses), protein aggregates or excess/damaged organelles. These processes involve as key players autophagy receptors, that link the cargo to be degraded to the autophagic machinery. Among them, NDP52 (also known as CALCOCO2) has been described to act as a "bridge" between the autophagy machinery and (1) damaged mitochondria in the mitophagy process; (2) pathogens during xenophagy or (3) proteins in the process of aggrephagy. The aim of this review is to summarize the major functions of NDP52, and to highlight the existence of two human NDP52 variants that have been described as risk or protective factors for Crohn's disease or Multiple Sclerosis and Alzheimer's disease patients, respectively. As these three diseases share common pathological features that lead to inflammation, such as mitochondria or gut microbiota dysfunctions, but also pathogenic infections, it seems clear that NDP52 could be a key player at the crossroad by acting indirectly on inflammation, and therefore a potential target for clinical applications and benefits.