CD4+ T Cells Are Required for the Priming of CD8+ T Cells following Infection with Herpes Simplex Virus Type 1

The role of CD4⁺ helper T cells in modulating the acquired immune response to herpes simplex virus type 1 (HSV-1) remains ill defined; in particular, it is unclear whether CD4⁺ T cells are needed for the generation of the protective HSV-1-specific CD8⁺-T-cell response. This study examined the contribution of CD4⁺ T cells in the generation of the primary CD8⁺-T-cell responses following acute infection with HSV-1. The results demonstrate that the CD8⁺-T-cell response generated in the draining lymph nodes of CD4⁺-T-cell-depleted C57BL/6 mice and B6-MHC-II^−/− mice is quantitatively and qualitatively distinct from the CD8⁺ T cells generated in normal C57BL/6 mice. Phenotypic analyses show that virus-specific CD8⁺ T cells express comparable levels of the activation marker CD44 in mice lacking CD4⁺ T cells and normal mice. In contrast, CD8⁺ T cells generated in the absence of CD4⁺ T cells express the interleukin 2 receptor α-chain (CD25) at lower levels. Importantly, the CD8⁺ T cells in the CD4⁺-T-cell-deficient environment are functionally active with respect to the expression of cytolytic activity in vivo but exhibit a diminished capacity to produce gamma interferon and tumor necrosis factor alpha. Furthermore, the primary expansion of HSV-1-specific CD8⁺ T cells is diminished in the absence of CD4⁺-T-cell help. These results suggest that CD4⁺-T-cell help is essential for the generation of fully functional CD8⁺ T cells during the primary response to HSV-1 infection.Infection due to herpes simplex virus type 1 (HSV-1) results in a wide spectrum of clinical presentations depending on the host''s age, the host''s immune status, and the route of inoculation (47). HSV-1 typically causes mild and self-limited lesions on the orofacial areas or genital sites. However, the disease can be life-threatening, as in the case of neonatal and central nervous system infections (18). The host''s immune responses, particularly CD8⁺ T cells, play an important role in determining the outcome of HSV infections in both the natural human host (18, 19, 28) and experimental murine models (11, 43). Immunodepletion and adoptive transfer studies have demonstrated the role of CD8⁺ T cells in reducing viral replication, resolving cutaneous disease, and providing overall protection upon rechallenge (6, 25, 26). CD8⁺ T cells play a particularly important role in preventing infection of the peripheral nervous system (PNS) and the reactivation of latent virus from neurons in the sensory ganglia of infected mice (21, 24, 36). The mechanisms that CD8⁺ T cells employ include gamma interferon (IFN-γ) production and functions associated with cytolytic granule content at the sites of primary infection (23, 31, 38). In the PNS of infected mice, the mechanisms primarily involve IFN-γ secretion (16, 20, 29), particularly against infected neurons expressing surface Qa-1 (41). Histopathological evidence from HSV-1-infected human ganglion sections show a large CD8⁺-T-cell infiltrate and the presence of inflammatory cytokines, suggesting that the presence of activated, effector memory cells within the PNS is important for maintaining HSV-1 latency in the natural human host (10, 42).The generation of a robust CD8⁺-T-cell response is essential for the control of various infectious pathogens. Some studies suggest that a brief interaction with antigen-presenting cells (APCs) is sufficient for CD8⁺-T-cell activation and expansion into functional effectors (44). However, the magnitude and quality of the overall CD8⁺-T-cell response generated may be dependent on additional factors (49). Recent evidence suggests that CD4⁺ T cells facilitate the activation and development of CD8⁺-T-cell responses either directly through the provision of cytokines or indirectly by the conditioning of dendritic cells (DC) (8, 48, 51). Those studies suggested that the latter mechanism is the dominant pathway, wherein CD4⁺ T cells assist CD8⁺-T-cell priming via the engagement of CD40 ligand (CD154) on CD4⁺ T cells and CD40 expressed on DC (4, 30, 33). This interaction results in the activation and maturation of DC, making them competent to stimulate antigen-specific CD8⁺-T-cell responses (35, 37).The requirement for CD4⁺-T-cell help in the generation of primary and secondary CD8⁺-T-cell responses to antigen varies. Primary CD8⁺-T-cell responses to infectious pathogens, such as Listeria monocytogenes, lymphocytic choriomeningitis virus (LCMV), influenza virus, and vaccinia virus, can be mounted effectively independently of CD4⁺-T-cell help (3, 12, 22, 34). In contrast, primary CD8⁺-T-cell responses to nonmicrobial antigens display an absolute dependence on CD4⁺-T-cell help (4, 5, 30, 33, 46). This observed difference in the requirement for CD4⁺-T-cell help may ultimately be a product of the initial inflammatory stimulus generated following immunization (49). Microbial antigens trigger an inflammatory response that can lead to the direct activation and priming of APCs, such as DC, thereby bypassing the need for CD4⁺-T-cell help. Nonmicrobial antigens, however, trigger an attenuated inflammatory response that does not directly activate and prime DCs. In the absence of this inflammation, CD4⁺ T cells are thought to condition and license DC functions through CD154/CD40 interactions, which leads to the subsequent activation of antigen-specific CD8⁺-T-cell responses (5, 49). Even in the case of pathogens where primary CD8⁺-T-cell responses were independent of CD4⁺-T-cell help, the secondary responses to these pathogens were found to be defective in the absence of CD4⁺-T-cell help (3, 12, 34, 40).The requirement for CD4⁺-T-cell help in priming CD8⁺-T-cell responses against HSV-1 infection is not well defined. Earlier studies with HSV-1 suggested that CD4⁺ T cells play an important role in the generation of primary CD8⁺-T-cell responses, detected in vitro, to acute infection with HSV-1 (14), principally through the provision of interleukin 2 (IL-2) for optimal CD8⁺-T-cell differentiation and proliferation. Subsequent studies, utilizing an in vivo approach, indicated that CD4⁺ T cells were not required for CD8⁺-T-cell-mediated cytolytic function (23). CD4⁺ T cells are thought to provide help by conditioning DC in a cognate, antigen-specific manner, thereby making them competent to stimulate HSV-1-specific CD8⁺-T-cell responses (37). By contrast, findings from other studies show that CD4⁺-T-cell-depleted mice were able to fully recover from acute infection with HSV-1 (38). These studies imply that the absence of CD4⁺ T cells does not prevent priming of CD8⁺ T cells in vivo.Studies from this laboratory have identified two distinct HSV-1-specific CD8⁺-T-cell subpopulations generated during the primary response, based upon the ability to synthesize IFN-γ following antigenic stimulation in vitro (1). To better understand the need for CD4⁺-T-cell help, we examined the functional characteristics and phenotypes of these CD8⁺-T-cell populations generated during a primary response to acute infection with HSV-1 in mice lacking CD4⁺ T cells. Our findings show that primary CD8⁺-T-cell responses to HSV-1 are compromised in the absence of CD4⁺-T-cell help. Specifically, the HSV-1 gB-specific CD8⁺ T cells produced in the absence of CD4⁺ T cells were found to be active with regard to cytolysis in vivo but were functionally impaired in the production of IFN-γ and TNF-α compared with intact C57BL/6 mice. Virus-specific CD8⁺ T cells were also reduced in number in CD4-depleted mice and in B6 mice lacking major histocompatibility complex (MHC) class II expression (B6-MHC-II^−/−) compared to wild-type (WT) mice. In addition, our data showed higher virus burdens in the infectious tissues obtained from mice lacking CD4⁺ T cells than in those from intact mice. Collectively, these findings demonstrate that CD4⁺-T-cell help is essential for the generation of primary CD8⁺-T-cell responses following acute cutaneous infection with HSV-1.