Abstract
Mayaro virus (MAYV) is an emergent sylvatic alphavirus in South America, related to sporadic outbreaks of a chikungunya-like human febrile illness accompanied by severe arthralgia. Despite its high potential for urban emergence, MAYV is still an obscure virus with scarce information about its infection cycle, including the corresponding early events. Even for prototypical alphaviruses, the cell entry mechanism still has some rough edges to trim: although clathrin-mediated endocytosis is quoted as the putative route, alternative paths as distinct as direct virus genome injection through the cell plasma membrane seems to be possible. Our aim was to clarify crucial details on the entry route exploited by MAYV to gain access into the host cell. Tracking the virus since its first contact with the surface of Vero cells by fluorescence microscopy, we show that its entry occurs by a fast endocytic process and relies on fusion with acidic endosomal compartments. Moreover, blocking clathrin-mediated endocytosis or depleting cholesterol from the cell membrane leads to a strong inhibition of viral infection, as assessed by plaque assays. Following this clue, we found that early endosomes and caveolae-derived vesicles are both implicated as target membranes for MAYV fusion. Our findings unravel the very first events that culminate in a productive infection by MAYV and shed light on potential targets for a rational antiviral therapy, besides providing a better comprehension of the entry routes exploited by alphaviruses to get into the cell.
Highlights
Virus entry into the host cell is a crucial step of the viral infection cycle and represents the first hijacking of some constitutive cellular function by the parasite
While SFV entry classically occurs by receptor-mediated endocytosis followed by fusion with the endosomal membrane (Helenius et al, 1980; Marsh, Bolzau & Helenius, 1983), more recent works suggest that SINV delivers its genome in the host cell through a pore-like structure formed at the plasma membrane level without the occurrence of membrane fusion—which is unusual for enveloped viruses (Paredes et al, 2004; Wang et al, 2007)
Vero cells were synchronously infected with DiD-labeled Mayaro virus (MAYV) under a high multiplicity of infection (MOI) and the fluorescent signals were imaged at different times by fluorescence microscopy after virus binding (Fig. 1)
Summary
Virus entry into the host cell is a crucial step of the viral infection cycle and represents the first hijacking of some constitutive cellular function by the parasite. The mechanism adopted by the members of the genus Alphavirus (family Togaviridae) during cell entry is well studied, there are still gaps to be filled This virus genus includes arboviruses related to either encephalitogenic or arthritogenic diseases in humans and is represented by the prototypes Sindbis (SINV) and Semliki Forest (SFV) viruses (Gould et al, 2010). While SFV entry classically occurs by receptor-mediated endocytosis followed by fusion with the endosomal membrane (Helenius et al, 1980; Marsh, Bolzau & Helenius, 1983), more recent works suggest that SINV delivers its genome in the host cell through a pore-like structure formed at the plasma membrane level without the occurrence of membrane fusion—which is unusual for enveloped viruses (Paredes et al, 2004; Wang et al, 2007)
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