The transition or transformation zone between the two has been shown to be a major effector and inductive site for cell mediated immune responses [6]. The epithelial surfaces of the female reproductive tract are covered with mucus which exhibits microbicidal activity [7]. The epithelial cells actively participate in the innate immune response [8] and [9]. In addition to their barrier function, they express pattern recognition receptors (PRRs) that mediate secretion of cytokines, chemokines,
and antimicrobial peptides. They are also involved in antigen presentation. Neutrophils are distributed throughout the female genital tract, with the highest numbers in the upper tract. They are involved in phagocytosis, and the production of cytokines MK 2206 and antimicrobial peptides [10]. Antimicrobial selleck chemicals peptides, which include defensins, chemokines, antiproteases, and enzymes play an important role in innate responses [11]. Macrophages and dendritic cells are similarly present throughout the female reproductive tract, with higher concentrations in the upper tract [12]. They are involved in phagocytosis and antigen presentation. In addition to
their role in antigen presentation, dendritic cells have been shown to be critical players in inducing homing of effector and memory lymphocytes to mucosal tissues and in activation of memory T-cells [13] and [14]. These functions highlight their role as an important bridge between the innate and adaptive immune responses. Natural killer (NK) cells are widely distributed, but have a distinct phenotype from NK cells found in the systemic circulation [15]. They produce pro-inflammatory cytokines, promote macrophage activation, and cytotoxic T-cell generation. A newly described population of innate lymphoid cells (ILCs) play a role in regulating epithelial cell responses and Ribonucleotide reductase maintaining local homeostasis. ILCs have been described in the skin,
and in the intestinal and respiratory tracts (NK cells comprise a sub-group of ILCs) [16]. Several studies have highlighted the role of commensal bacteria in regulating the development, maintenance, and function of ILCs [17]. Far less is known about ILCs in the reproductive tract. The humoral (Th2) arm of the adaptive immune response in the genital tract consists mainly of IgG as well as secretory IgA (sIgA) [18]. The ratio of these antibodies varies by site. sIgA is characterized by enhanced neutralizing activity [19] and [20] and enhanced resistance to proteolysis [21]. Unlike IgG, sIgA does not activate complement. In addition to local production, there appears to be significant contribution of IgG from the systemic circulation to genital secretions [22] and [23]. The uterus is an important source of immunoglobulins in cervicovaginal secretions. T-lymphocytes are found in the stroma of the upper and lower reproductive tract as well as within epithelial cells (intraepithelial lymphocytes) [24].