Human herpesvirus 6 infection of CD4+ T-cell subsets.

The immune system includes CD4+ regulatory T (T reg) cells that play a role in self-tolerance and demonstrate functional variations that govern immune responses. HHV-6 is an important immunosuppressive virus that completely replicates in vivo and in vitro in only CD4+ T cells. However, there have been no reports of the specific T-cell subpopulation that permits the replication of this virus. Here, we evaluated the infectivity of HHV-6 to specific T-cell populations such as CD4+CD25 high, which includes the majority of T reg cells, and CD4+CD25(-). These cells were isolated from peripheral blood and then expanded. The expanded cell fractions were then infected with the HHV-6 variant B strain, and the spreads of infected cells were evaluated by immunofluorescence. Viral growth was also quantified by real-time PCR. The effects of virus infection on cytokine production from these T-cell subsets were examined using ELISA. Our results revealed that both these fractions permitted complete HHV-6 replication. Virus infection enhanced the production of both Th1- and Th2-type cytokines from CD4+CD25(-) T cells; however, only Th2-type cytokine release was augmented from viral-infected CD4+CD25 high T cells. Further, while virusinfected CD4+CD25 high T cells shift their antiviral immunity toward Th2 dominance by producing IL-10, the role of virus-infected CD4+CD25(-) T cells remains obscure.