2′,3′ cyclic nucleotide 3′ phosphodiesterase 1 functional isoform antagonizes HIV-1 particle assembly

Author:

Liang Shuntao12ORCID,Zhang Qin1,Wang Fang1,Wang Shiwei1,Li Guoli2,Jiang Dong2,Zeng Hui1ORCID

Affiliation:

1. Biomedical Innovation Center, Beijing Shijitan Hospital, Capital Medical University, Beijing, China

2. Institute of Infectious Diseases, Beijing Ditan Hospital, Capital Medical University, Beijing, China

Abstract

IFN-stimulated gene 2′,3′ cyclic nucleotide 3′ phosphodiesterase (CNP) comprises two isoforms: the short CNP1 and the long CNP2, featuring an additional N-terminal segment of 20 amino acids (N20aa) proposed as a mitochondrial targeting sequence. Notably, CNP1 can be produced by cleaving the N20aa segment from CNP2. Although previous investigations have recognized the HIV-1 particle assembly impairment capability of CNP2, the antiviral activity of CNP1 remains ambiguous. Our study clarifies that CNP1, as opposed to CNP2, serves as the primary isoform exerting anti-HIV-1 activity. Both CNP1 and CNP2 can localize to the cell membrane, but the N20aa segment of CNP2 impedes CNP2–HIV-1 Gag interaction. Cleavage of the N20aa segment from CNP2 results in the formation of a functional, truncated form known as CNP1. Intriguingly, this posttranslational processing of CNP2 N20aa occurs within the cytoplasmic matrix rather than the mitochondria. Regulated by CTII motif prenylation, CNP1 proteins translocate to the cell membrane and engage with HIV-1 Gag. In conclusion, our findings underscore the pivotal role of posttranslational modification in governing the inhibitory potential of CNP in HIV-1 replication.

Funder

The National Natural Science Foundation of China

The Beijing Hospital Authority

The Hight-Level Public Health Talents

Publisher

Life Science Alliance, LLC

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