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This research investigates the relationship between TPI1 localization and HIV-1 transcription under varying metabolic conditions.

May 20, 2026Open Access

Nuclear translocation of triosephosphate isomerase 1 under aerobic glycolytic conditions is associated with HIV-1 transcription.

Key Points

This research investigates the relationship between TPI1 localization and HIV-1 transcription under varying metabolic conditions.
Investigated TPI1 nuclear localization in HIV-1-infected PBMCs under different metabolic conditions.
Assessed the effects of TPI1 knockdown and galactose conditions on nuclear TPI1 levels and HIV-1 transcription activity.
Nuclear TPI1 levels were significantly reduced in galactose conditions and S80A-expressing cells, indicating a link to HIV-1 transcription.
H3K27 acetylation was diminished with reduced nuclear TPI1, correlating with decreased HIV-1 transcriptional activity.

Abstract

plays a critical role in TPI1 nuclear localization and HIV-1 transcription. Consistently, nuclear TPI1 levels were markedly reduced under galactose conditions, in S80A-expressing cells, or upon TPI1 knockdown. Reduced nuclear TPI1 levels were associated with decreased H3K27 acetylation and diminished HIV-1 transcriptional activity. Moreover, TPI1 localization was unaffected by metabolic conditions in uninfected PBMCs but showed nuclear translocation under aerobic glycolytic conditions in HIV-1-infected PBMCs. Collectively, these findings suggest that, in HIV-1-infected cells, aerobic glycolytic conditions promote TPI1 nuclear translocation, thereby linking cellular metabolism to HIV-1 transcription.

Nuclear translocation of triosephosphate isomerase 1 under aerobic glycolytic conditions is associated with HIV-1 transcription.

Key Points

Abstract

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