Autor(es): Liu, B.; Becnel, J. J.; Zhang, Y.; Zhou, L.

Resumo: Many vertebrate and insect viruses possess antiapoptotic genes that are required for their infectivity. This led to the hypothesis that apoptosis is an innate immunoresponse important for limiting virus infections. The role of apoptosis may be especially important in insect antiviral defense because of the lack of adaptive immunity. However, the cellular mechanism that elicits apoptosis in response to viral infection in insects has not been determined. Using an in vivo infection system with the mosquito baculovirus CuniNPV (Culex nigripalpus nucleopolyhedrovirus), we demonstrated that michelob_x (mx), the mosquito ortholog of Drosophila proapoptotic gene reaper, is specifically induced in larval midgut cells following viral infection. Interestingly, the dynamics of mx induction corresponds with the outcome of the infection. In the permissive mosquito C. quinquefasciatus, a slow induction of mx failed to induce prompt apoptosis, and the infected cells eventually undergo necrosis with heavy loads of encapsulated viruses. In contrast, in the refractory mosquito Aedes aegypti, a rapid induction of mx within 30 min p.i. is followed by apoptosis within 2-6 h p.i., suggesting a possible role for apoptosis in limiting viral infection. When the execution of apoptosis was delayed by caspase inhibitors, viral gene expression became detectable in the A. aegypti larvae.

Palavras-Chave: Viral diseases; Insect larvae; Viruses; Inhibitors; Immunity; Disease detection; Public health; Nuclear polyhedrosis virus; Aedes aegypti; Culex nigripalpus; Baculovirus; Drosophila

Imprenta: Cell Death and Differentiation, v. 18, n. 8, p. 1337-1345, 2011.

Descritores: Aedes aegypti - Cell ; Aedes aegypti - Viral infections ; Aedes aegypti - Virus ; Aedes aegypti - Public health

Data de publicação: 2011

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