HIV-1 can undergo Env-independent retrotransposon-like activity

Retrovirus replication requires coordinated interplay between viral proteins and host cellular machinery, including reverse transcription of the viral RNA genome into DNA and its subsequent integration into the host genomes. SOX2-dependent retrotransposon dynamics have been reported for endogenous retrovirus HERV-K; however, whether a similar intracellular pathway exists for exogenous retroviruses remains unclear. To address whether infection-independent intracellular reverse transcription and partial integration can occur, that is, whether retrovirus can exhibit retrotransposon-like activity, we utilized HeLa and 293T cells, which express no HIV-1 entry receptors. We engineered an Env-deficient HIV-1 NL4-3-based reporter encoding a reverse-oriented, intron-disrupted nanoluciferase cassette that becomes expressible only after splicing followed by reverse transcription. We found that reporter activation depends on reverse transcriptase and protease activities. While integrase is dispensable for early expression, it is essential for long-term maintenance of the nanoluciferase signal. Integration site mapping using next-generation sequencing further confirmed that stable reporter activity requires integrase-dependent proviral insertion. Functional analysis of Gag revealed that membrane binding, multimerization, and budding are prerequisite steps for reporter activation. Concentrated virus preparations from culture supernatants failed to activate the reporter in 293T cells, ruling out a role for reinfection. Electron and confocal microscopy suggested that Gag or viral particles traffic through endosomal compartments. Furthermore, inhibition of dynamin- and clathrin-dependent endocytic pathways reduced reporter activity, indicating that these pathways contribute to efficient reporter activity.

Collectively, these finding support the conclusion that HIV-1 can undergo intracellular reverse transcription and partial integration in an infection-independent manner, prompting a reconsideration of the boundary between exogenous retroviruses and endogenous retroelements.