Presence of Rheumatoid Factor during Chronic HCV Infection Is Associated with Expansion of Mature Activated Memory B-Cells that Are Hypo-Responsive to B-Cell Receptor Stimulation and Persist during the Early Stage of IFN Free Therapy.

Approximately half of those with chronic hepatitis C virus (HCV) infection have circulating rheumatoid factor (RF), and a portion of these individuals develop cryoglobulinemic vasculitis. B cell phenotype/function in relation to RF in serum has been unclear. We examined B cell subset distribution, activation state (CD86), cell cycle state (Ki67), and ex-vivo response to BCR, TLR9 and TLR7/8 stimulation, in chronic HCV-infected donors with or without RF, and uninfected donors. Mature-activated B-cells of HCV-infected donors had lower CD86 expression compared to uninfected donors, and in the presence of RF they also showed reduced CD86 expression in response to BCR and TLR9 stimulation. Additionally, mature activated memory B cells of HCV RF+ donors less commonly expressed Ki67+ than HCV RF- donors, and did not proliferate as well in response to BCR stimulation. Proportions of mature-activated B cells were enhanced, while naïve B-cells were lower in the peripheral blood of HCV-RF+ compared to RF- and uninfected donors. None of these parameters normalize by week 8 of IFN free direct acting antiviral (DAA) therapy in HCV RF+ donors, while in RF- donors, mature activated B cell proportions did normalize. These data indicate that while chronic HCV infection alone results in a lower state of activation in mature activated memory B cells, the presence of RF in serum is associated with a more pronounced state of unresponsiveness and an overrepresentation of these B cells in the blood. This phenotype persists at least during the early time window after removal of HCV from the host.

HBD-3 induces NK cell activation, IFN-γ secretion and mDC dependent cytolytic function.

We previously showed that human beta defensin-3 (hBD-3) activates mDC via TLR1/2. Here we investigated the effects of hBD-3 on NK cell activation state and effector functions. We observed that hBD-3 activates PBMC to secrete IFN-γ and kill K562 and HUH hepatoma target cells in an NK dependent fashion, and both TLR1/2 and CCR2 are involved. TLR1, TLR2 and CCR2 were expressed on NK cells, and in purified NK culture experiments we observed hBD-3 to directly act on NK cells, resulting in CD69 upregulation and IFNγ secretion. We also observed mDC-hBD-3 enhanced NK cytolytic activity and IFNγ production. These results implicate hBD-3 in its ability to directly activate NK cells and increase NK cell effector function, as well as promote mDC-dependent NK activity. HBD-3 may therefore act as a mediator of innate cell interactions that result in bridging of innate and adaptive immunity.

Paucity of IL-21-producing CD4(+) T cells is associated with Th17 cell depletion in SIV infection of rhesus macaques.

IL-21 regulates Th17 cell homeostasis, enhances the differentiation of memory B cells and antibody-secreting plasma cells, and promotes the maintenance of CD8(+) T-cell responses. In this study, we investigated the phenotype, function, and frequency of blood and intestinal IL-21-producing cells in nonhuman primates that are hosts of progressive (rhesus macaques [RMs]) and nonprogressive (sooty mangabeys [SMs]) SIV infection. We found that, in both species, memory CD4(+)CD95(+)CCR6(-) T cells are the main IL-21 producers, and that only a small fraction of CD4(+)IL-21(+) T cells produce IL-17. During chronic SIV infection of RMs, CD4(+)IL-21(+) T cells were significantly depleted in both blood and rectal mucosa, with the extent of this depletion correlating with the loss of Th17 cells. Furthermore, treatment with IL-21 increased the in vivo levels of Th17 cells in SIV-infected RMs. In contrast, normal levels of CD4(+)IL-21(+) T cells were found in SIV-infected SMs. Collectively, these data indicate that depletion of IL-21-producing CD4(+) T cells distinguishes progressive from nonprogressive SIV infection of RMs and SMs, and suggest that depletion of CD4(+)IL-21(+) T cells is involved in the preferential loss of Th17 cells that is associated with SIV disease progression. Further preclinical studies of IL-21 as a potential immunotherapeutic agent for HIV infection may be warranted.

Low levels of SIV infection in sooty mangabey central memory CD4⁺ T cells are associated with limited CCR5 expression.

Naturally simian immunodeficiency virus (SIV)-infected sooty mangabeys do not progress to AIDS despite high-level virus replication. We previously showed that the fraction of CD4(+)CCR5(+) T cells is lower in sooty mangabeys compared to humans and macaques. Here we found that, after in vitro stimulation, sooty mangabey CD4(+) T cells fail to upregulate CCR5 and that this phenomenon is more pronounced in CD4(+) central memory T cells (T(CM) cells). CD4(+) T cell activation was similarly uncoupled from CCR5 expression in sooty mangabeys in vivo during acute SIV infection and the homeostatic proliferation that follows antibody-mediated CD4(+) T cell depletion. Sooty mangabey CD4(+) T(CM) cells that express low amounts of CCR5 showed reduced susceptibility to SIV infection both in vivo and in vitro when compared to CD4(+) T(CM) cells of rhesus macaques. These data suggest that low CCR5 expression on sooty mangabey CD4(+) T cells favors the preservation of CD4(+) T cell homeostasis and promotes an AIDS-free status by protecting CD4(+) T(CM) cells from direct virus infection.