AAV8 transduction capacity is reduced by prior exposure to endosome-like pH conditions |
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Authors: | Jeffrey A. Lowell Kar Men Mah John L. Bixby Vance P. Lemmon |
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Affiliation: | 1.Miami Project to Cure Paralysis, University of Miami, Miami, FL, USA;2.Department of Neurological Surgery, University of Miami, Miami, FL, USA;3.Department of Molecular and Cellular Pharmacology, University of Miami, Miami, FL, USA |
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Abstract: | Adeno-associated virus(AAV) is an essential instrument in the neuroscientist's toolkit, which allows delivery of DNA to provide labeling with fluorescent proteins or genetic instructions to regulate gene expression. In the field of neural regeneration, the transduction of neurons enables the observation and regulation of axon growth and regeneration, and in the future will likely be a mechanism for delivering molecular therapies to promote sprouting and regeneration after central nervous system injury. Traditional formulations of AAV preparations permit efficient viral transduction under physiologic conditions, but an improved understanding of the mechanistic limitations of AAV transduction may facilitate production of more resilient AAV strains for investigative and therapeutic purposes. We studied AAV transduction in the context of prior exposure of AAV serotype 8(AAV8) to environmental p H within the range encountered during endosomal endocytosis(p H 7.4 to p H 4.4), during which low p H-triggered structural and autoproteolytic changes to the viral capsid are believed to be necessary for endosome escape and virus uncoating. Due to the fundamental nature of these processes, we hypothesized that premature exposure of AAV8 particles to acidic p H would decrease viral transduction of HT1080 cells in vitro, as measured by fluorescent reporter gene expression using high-content imaging analysis. We found that increasingly acidic incubation conditions were associated with concomitant reductions in transduction efficiency, and that quantitative levels of reporter gene expression in transduced cells were similarly decreased. The biggest decrease in transduction occurred between p H 7.4 and p H 6.4, suggesting the possible co-occurrence of a p H-associated event and viral inactivation within that range. Taken together, these findings indicate that exposure of AAV8 to acidic p H for as little as 1 hour is deleterious to transduction ability. Future studies are necessary to understand the p H-associated causative mechanisms involved. This study was approved by the University of Miami Institutional Animal Care and Use Committee, USA(Protocol #18-108-LF) on July 12, 2018. |
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Keywords: | adeno-associated virus autolytic capsid low pH protease proteolytic temperature trafficking transduction viral inactivation |
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