By contrast, LASV- and MOPV-infected macrophages activated NK cel

By contrast, LASV- and MOPV-infected macrophages activated NK cells, as shown by the upregulation of CD69, NKp30, and NKp44, the downregulation of CXCR3, and an increase in NK-cell proliferation. NK cells acquired enhanced cytotoxicity, as illustrated by the increase in granzyme B (GrzB) expression and killing of K562 targets, but did not produce IFN-γ. Contact between NK cells and infected

macrophages and type I IFNs were essential for activation; however, NK cells could not kill infected cells and control infection. Overall, these findings show that MOPV- as well as pathogenic LASV-infected macrophages mediate NK-cell activation. Lassa fever (LF) is a viral hemorrhagic fever caused by Lassa virus (LASV). It is endemic in West

Africa and causes 100,000–300,000 cases and 5000–6000 deaths each year [1]. find more The absence of a vaccine and the limited use of ribavirin, the only antiviral drug licensed, in endemic countries, render LF a public health problem. PD0325901 nmr LASV and Mopeia virus (MOPV) are very closely related Old-World Arenaviruses with a common animal reservoir, Mastomys natalensis, a peridomestic rodent [2]. Unlike LASV, MOPV is not pathogenic to nonhuman primates (NHPs), in which this virus has even shown to confer protection against challenge with LASV [3]. The immune responses to LASV and MOPV are poorly understood. The control of LASV seems to involve the induction of T cells, rather than Chloroambucil humoral responses [4]. Indeed, cellular immune responses specific for viral glycoproteins appear to protect NHPs against lethal challenge [5]. By contrast, severe LASV infections seem to be associated with immunosuppression and structural changes to secondary lymphoid organs. LASV and MOPV display tropism for APCs, such as DCs and macrophages (MΦs) [6-8]. These cells are the first targets of the viruses and they release large numbers of viral particles without cytopathic effects. APCs display only very low levels of activation or maturation after LASV infection

[6] and produce only small amounts of type I IFN [9]. By contrast, MOPV infection results in type I IFN production by MΦs and, to a lesser extent, by DCs, and triggers the early and strong activation of MΦs [8]. The different responses of APCs to LASV and MOPV infections are probably involved in the difference in pathogenicity between the two viruses. It has been shown that CD4+ and CD8+ T cells are strongly and rapidly activated in response to MOPV-infected DCs, resulting in proliferation, differentiation into effector, cytotoxic, and memory cells. By contrast, LASV-infected DCs can induce only weak and delayed T-cell responses in vitro [10]. Like APCs, NK cells are at the crossroads between the innate and adaptive responses. They have effector functions in innate immunity, through their cytotoxic properties, and also produce cytokines involved in the induction of T-cell responses.

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