Jennifer Martinez scite author profile

Over the past two decades, the molecular machinery that underlies autophagic responses has been characterized with ever increasing precision in multiple model organisms. Moreover, it has become clear that autophagy and autophagy-related processes have profound implications for human pathophysiology. However, considerable confusion persists about the use of appropriate terms to indicate specific types of autophagy and some components of the autophagy machinery, which may have detrimental effects on the expansion of the field. Driven by the overt recognition of such a potential obstacle, a panel of leading experts in the field attempts here to define several autophagy-related terms based on specific biochemical features. The ultimate objective of this collaborative exchange is to formulate recommendations that facilitate the dissemination of knowledge within and outside the field of autophagy research.

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RETRACTED ARTICLE: Molecular characterization of LC3-associated phagocytosis reveals distinct roles for Rubicon, NOX2 and autophagy proteins

Martinez

et al. 2015

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LC3-associated phagocytosis (LAP) is a process wherein elements of canonical autophagy conjugate LC3 to the membranes of phagosomes, facilitating maturation upon fusion to lysosomes. Here, we characterize the molecular requirements for LAP, and identify a protein, Rubicon, required for LAP but not canonical autophagy. During LAP, Rubicon is recruited to the LAP-engaged phagosome (“LAPosome”) and is required for the activity of a Class III PI3K complex containing Beclin-1, UVRAG, and VPS34, but lacking the canonical autophagy components ATG14 and Ambra1. This allows for the sustained localization of PI(3)P, which is critical for the recruitment of downstream autophagic proteins and the stabilization of the NOX2 complex to produce ROS. Both PI(3)P and ROS, as well as ATG7, ATG3, ATG5, ATG12, and ATG16L, are required for the conjugation of LC3 to the LAPosome and subsequent association with LAMP1+ lysosomes. LAP is also induced by engulfment of Aspergillus fumigatus, a fungal pathogen that commonly afflicts immunocompromised hosts, and is required for its optimal clearance in vivo. Therefore, we have identified molecules that distinguish LAP from canonical autophagy, thereby elucidating the importance of LAP in the response to Aspergillus fumigatus infection.

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