Cytomegalovirus (CMV) is a prevalent β-herpesvirus that persists asymptomatically in immunocompetent hosts. In people with HIV-1 (PWH), CMV is associated with persistence of the HIV-1 reservoir and particular inflammatory related co-morbidities. The true causative role of CMV in HIV-associated pathologies remains unclear given that nearly all PWH are coinfected with CMV. In this study, we examined acute phase SIV dynamics in cohorts of rhesus macaques that were seropositive or -negative for rhesus CMV (RhCMV). We observed expansion of CCR5+ target CD4+ T cells in gut and lymph nodes (LN) that existed naturally in RhCMV-seropositive animals, the majority of which did not react to RhCMV lysate. These cells expressed high levels of the chemokine receptor CXCR3 and a ligand for this receptor, CXCL9, was systemically elevated in RhCMV-seropositive animals. RhCMV+ RMs also exhibited higher peak SIV viremia. CCR5 target memory CD4 T cells in the gut of RhCMV+ RMs were maintained during acute SIV and this was associated with greater seeding of SIV DNA in the intestine. Overall, our data suggests the ability of RhCMV to regulate chemotactic axes that direct lymphocyte trafficking and promote seeding of SIV in a diverse, polyclonal pool of memory CD4+ T cells.

Ageing of the immune system is characterized by decreased lymphopoiesis and adaptive immunity, and increased inflammation and myeloid pathologies1,2. Age-related changes in populations of self-renewing haematopoietic stem cells (HSCs) are thought to underlie these phenomena3. During youth, HSCs with balanced output of lymphoid and myeloid cells (bal-HSCs) predominate over HSCs with myeloid-biased output (my-HSCs), thereby promoting the lymphopoiesis required for initiating adaptive immune responses, while limiting the production of myeloid cells, which can be pro-inflammatory4. Ageing is associated with increased proportions of my-HSCs, resulting in decreased lymphopoiesis and increased myelopoiesis3,5,6. Transfer of bal-HSCs results in abundant lymphoid and myeloid cells, a stable phenotype that is retained after secondary transfer; my-HSCs also retain their patterns of production after secondary transfer5. The origin and potential interconversion of these two subsets is still unclear. If they are separate subsets postnatally, it might be possible to reverse the ageing phenotype by eliminating my-HSCs in aged mice. Here we demonstrate that antibody-mediated depletion of my-HSCs in aged mice restores characteristic features of a more youthful immune system, including increasing common lymphocyte progenitors, naive T cells and B cells, while decreasing age-related markers of immune decline. Depletion of my-HSCs in aged mice improves primary and secondary adaptive immune responses to viral infection. These findings may have relevance to the understanding and intervention of diseases exacerbated or caused by dominance of the haematopoietic system by my-HSCs.
© 2024. The Author(s), under exclusive licence to Springer Nature Limited.

The 2022 mpox virus outbreak was sustained by efficient human-to-human transmission and spread predominantly through sexual networks of men who have sex with men (MSM). It is currently unclear what combination of factors resulted in the enhanced transmission. To investigate this, we established the peridomestic African rodent Mastomys natalensis as a new rodent model susceptible to infection after intraperitoneal, rectal, vaginal, and transdermal inoculation with an early 2022 human outbreak isolate (Clade IIb). Route-dependent shedding and tissue replication occurred in the presence of self-resolving localized skin, reproductive tract, or rectal lesions. Mucosal inoculation via both the rectal and vaginal route led to increased shedding compared to skin inoculation, and increased replication and a proinflammatory T-cell profile. Contact transmission was higher in rectally inoculated animals. This suggests that the spread in MSM communities may have been enhanced by increased susceptibility of the anal and genital mucosae for infection and subsequent virus release.