Abstract

Adeno-associated viruses (AAVs) are small, helper-dependent, single-stranded DNA viruses that exploit a broad spectrum of host factors for cell entry. During the course of infection, several AAV serotypes have been shown to transit through the trans-Golgi network within the host cell. In the current study, we investigated whether the Golgi-localized, calcium-dependent protease furin influences AAV transduction. While CRISPR/Cas9-mediated knockout (KO) of the Furin gene minimally affected the transduction efficiency of most recombinant AAV serotypes tested, we observed a striking increase in transgene expression (~2 log orders) for the African green monkey isolate AAV4. Interrogation of different steps in the infectious pathway revealed that AAV4 binding, uptake, and transcript levels are increased in furin KO cells, but postentry steps such as uncoating or nuclear entry remain unaffected. Recombinant furin does not cleave AAV4 capsid proteins nor alter cellular expression levels of essential factors such as AAVR or GPR108. Interestingly, fluorescent lectin screening revealed a marked increase in 2,3-O-linked sialoglycan staining on the surface and perinuclear space of furin KO cells. The essential nature of increased sialoglycan expression in furin KO cells in enhancing AAV4 transduction was further corroborated by (i) increased transduction by the closely related isolates AAVrh.32.33 and sea lion AAV and (ii) selective blockade or removal of cellular 2,3-O-linked sialoglycans by specific lectins or neuraminidase, respectively. Based on the overall findings, we postulate that furin likely plays a key role in regulating expression of cellular sialoglycans, which in turn can influence permissivity to AAVs and possibly other viruses. IMPORTANCE Adeno-associated viruses (AAVs) are a proven recombinant vector platform for gene therapy and have demonstrated success in the clinic. Continuing to improve our knowledge of AAV-host cell interactions is critical for improving the safety and efficacy. The current study dissects the interplay between furin, a common intracellular protease, and certain cell surface sialoglycans that serve as viral attachment factors for cell entry. Based on the findings, we postulate that differential expression of furin in host cells and tissues is likely to influence gene expression by certain recombinant AAV serotypes.

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