Here’s the role of MAAP in rAAV biology and production:
- Genomic Origin
- MAAP is encoded from an alternative open reading frame (ORF) within the cap gene, overlapping with VP1/VP2/VP3.
- It was only recently discovered (2019, Nature Microbiology).
- Function in Viral Biology
- MAAP localizes to cellular membranes, particularly the plasma membrane and secretory pathways.
- It appears to facilitate virus egress (release) by helping AAV particles exit producer cells.
- Knockout or mutation of MAAP reduces extracellular AAV titers, with more virus retained intracellularly.
- Role in rAAV Production
- During recombinant vector production (e.g., in HEK293 cells), MAAP enhances the release of AAV into the culture medium, which is important for harvest and purification.
- In the absence of MAAP, more rAAV may stay cell-associated, which complicates downstream processing.
- However, rAAV can still be made without MAAP—it’s not essential for packaging or infectivity, but it improves yield recovery from supernatant.
- Research Implications
- Understanding MAAP is useful when optimizing large-scale rAAV production systems, since controlling its expression can alter how much virus is secreted vs. cell-associated.
MAAP isn’t essential for rAAV production, but it acts as a helper protein that promotes efficient virus release from producer cells, improving extracellular recovery of viral particles.
- Understanding MAAP is useful when optimizing large-scale rAAV production systems, since controlling its expression can alter how much virus is secreted vs. cell-associated.