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The membrane associated accessory protein is an adeno-associated viral egress factor

Zachary C. Elmore, L. Patrick Havlik, Daniel K. Oh, Leif Anderson, George G. Daaboul, Garth Devlin, Heather A. Vincent, Aravind Asokan

2021Nature Communications69 citationsDOIOpen Access PDF

Abstract

Adeno-associated viruses (AAV) rely on helper viruses to transition from latency to lytic infection. Some AAV serotypes are secreted in a pre-lytic manner as free or extracellular vesicle (EV)-associated particles, although mechanisms underlying such are unknown. Here, we discover that the membrane-associated accessory protein (MAAP), expressed from a frameshifted open reading frame in the AAV cap gene, is a novel viral egress factor. MAAP contains a highly conserved, cationic amphipathic domain critical for AAV secretion. Wild type or recombinant AAV with a mutated MAAP start site (MAAPΔ) show markedly attenuated secretion and correspondingly, increased intracellular retention. Trans-complementation with MAAP restored secretion of multiple AAV/MAAPΔ serotypes. Further, multiple processing and analytical methods corroborate that one plausible mechanism by which MAAP promotes viral egress is through AAV/EV association. In addition to characterizing a novel viral egress factor, we highlight a prospective engineering platform to modulate secretion of AAV vectors or other EV-associated cargo.

Topics & Concepts

Adeno-associated virusCapsidVirologyCell biologyChemistryBiologyVirusGeneBiochemistryRecombinant DNAVector (molecular biology)Virus-based gene therapy researchinterferon and immune responsesRNA regulation and disease