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by claude@2026-07, 2026-07-04
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This study investigated how non-productive HIV infection is established in primary human CD4+ T memory stem cells (TSCM) during the first round of infection, using the HIV reporter virus pMorpheus-V5 and transcriptomic profiling of infected versus negative-exposed and mock-infected cells. The authors found that CD4+ TSCM harboring non-productive proviruses showed a distinct upregulated gene signature of 118 genes, clearly different from productively infected cells and from uninfected controls. Key upregulated genes included CCR4-binding chemokines (CCL22, CCL17), tryptophan catabolic enzymes (IDO1, KYNU), and cytoskeletal rearrangement proteins (BASP1, TNFAIP2), with flow cytometry confirming enrichment of CCL22 and IDO1 co-expression in non-productively infected TSCM relative to other memory subsets. The study focuses on HIV reservoir biology and does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.
Abstract
ABSTRACT The persistent HIV reservoir constitutes the main obstacle to curing HIV/AIDS disease. Our understanding of how non-productive HIV infections are established in primary human CD4 + T cells during the first round of infection remains, however, incomplete. In this study, we leveraged the HIV reporter virus pMorpheus-V5 to delineate cellular expression patterns that are upregulated in non-productively infected primary CD4 + T memory stem cells (T SCM ). We found that CD4 + T SCM harboring non-productive proviruses displayed a distinct transcriptomic signature comprising 118 upregulated genes. This non-productive expression profile was distinct from that of productively infected cells as well as from negative-exposed and mock-infected cells. Among the cellular genes most upregulated in CD4 + T cells harboring non-productive proviruses were CCR4-binding migratory chemokines ( CCL22, CCL17 ), tryptophan catabolic enzymes ( IDO1, KYNU ), and genes encoding cytoskeletal rearrangement proteins ( BASP1, TNFAIP2 ). Intracellular flow cytometry-based analyses confirmed that non-productively infected CD4 + T SCM cells were enriched for CCL22 and IDO1 co-expression compared to the other CD4 + memory subsets, underscoring a clear CD4 + T cell subset specificity for the upregulation of these two immune gene sets associated with non-productive infections. These findings suggest that primary human CD4 + T SCM harboring non-productive proviruses display a distinct immunoregulatory phenotype which may facilitate immune evasion and contribute to the persistence of the HIV reservoir.
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ABSTRACT
The persistent HIV reservoir constitutes the main obstacle to curing HIV/AIDS disease. Our understanding of how non-productive HIV infections are established in primary human CD4+ T cells during the first round of infection remains, however, incomplete. In this study, we leveraged the HIV reporter virus pMorpheus-V5 to delineate cellular expression patterns that are upregulated in non-productively infected primary CD4+ T memory stem cells (TSCM). We found that CD4+ TSCM harboring non-productive proviruses displayed a distinct transcriptomic signature comprising 118 upregulated genes. This non-productive expression profile was distinct from that of productively infected cells as well as from negative-exposed and mock-infected cells. Among the cellular genes most upregulated in CD4+ T cells harboring non-productive proviruses were CCR4-binding migratory chemokines (CCL22, CCL17), tryptophan catabolic enzymes (IDO1, KYNU), and genes encoding cytoskeletal rearrangement proteins (BASP1, TNFAIP2). Intracellular flow cytometry-based analyses confirmed that non-productively infected CD4+ TSCM cells were enriched for CCL22 and IDO1 co-expression compared to the other CD4+ memory subsets, underscoring a clear CD4+ T cell subset specificity for the upregulation of these two immune gene sets associated with non-productive infections. These findings suggest that primary human CD4+ TSCM harboring non-productive proviruses display a distinct immunoregulatory phenotype which may facilitate immune evasion and contribute to the persistence of the HIV reservoir.
Competing Interest Statement
The authors have declared no competing interest.
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