Alpha-defensins inhibit HIV infection of macrophages through upregulation of CC-chemokines.

Abstract

The possible involvement of α-defensins in CD8 T-cell-mediated anti-HIV activities has been the subject of recent investigations [1–3]. HIV host defence mechanisms are partly mediated by CD8 T-cell non-cytotoxic antiviral responses [4]. Walker et al. [5] first demonstrated that this anti-HIV activity involves a soluble factor(s) designated as CD8 cell antiviral factor (CAF) whose identity remains unknown [4]. Zhang et al. [1] proposed that α-defensins are produced by CD8 T cells and contribute to CAF-mediated anti-HIV activities. In contrast, the recent studies by Mackewicz et al. [2] and Chang et al. [3] demonstrated that the α-defensins are not produced by CD8 T cells but unexpectedly were found to be expressed by monocytes [2]. As CAF-mediated anti-HIV activity is also observed for macrophages [6,7] and monocytes express α-defensins [2], we investigated the capacity of α-defensins to suppress HIV infection of macrophages. The addition of α-defensins to peripheral blood monocyte-derived macrophage cultures markedly suppressed HIV Bal replication (Fig. 1a) [8,9]. In order to determine the mechanism(s) responsible for α-defensin-mediated HIV inhibition in macrophages, we investigated whether α-defensins regulate the expression of CC-chemokines. CC-chemokines [macrophage inflammatory protein (MIP)-1α, MIP-1β and Rantes] inhibit infection by competing with HIV M-tropic strains for the CCR5 receptor on macrophages [10,11]. Our experiments demonstrated that α-defensins dramatically enhance expression (as much as a 25-fold increase) of MIP-1α and MIP-1β messenger RNA in macrophages (Fig. 1b) [12]. This increased CC-chemokine gene expression by α-defensins was further confirmed by the demonstration of increased production (as much as a 57-fold increase) of MIP-1α and MIP-1β proteins in α-defensin-treated macrophage cultures (Fig. 1c). In addition, the antibodies to CC-chemokines completely abrogated α-defensin-mediated HIV inhibition in macrophages (Fig. 1d). Our data, therefore, indicate that the α-defensin-mediated inhibition of HIV infection of macrophages is mediated through the upregulation of CC-chemokines. This pathway is distinct from the anti-HIV activity of CAF in macrophages, because CC-chemokines are not responsible for the ability of CAF to suppress HIV infection of these cells [6,7]. Fig. 1 Effect of α-defensins on HIV infection and β-chemokine expression in macrophages The biological interaction of defensins with chemokines and chemokine receptors has been documented. Defensins functionally overlap with chemokines in microbicidal activity [13]. The treatment of dendritic cells with β-defensin-2 upregulated the expression of CC-chemokines (MIP-1α and MIP-1β) and down-regulated CCR5 expression [14]. By utilizing chemokine receptors on immune cells, defensins may contribute to the regulation of host adaptive immunity against microbial invasion [15]. Taken together, our data provide evidence that α-defensins could play a role in host defence against HIV infection of macrophages. The biological interaction of α-defensins with CC-chemokines may constitute a unique mechanism of innate immunity against HIV disease.