Defense Mechanisms against Viral Infection in Drosophila: RNAi and Non-RNAi

Autor:	Guy Smagghe, Jisheng Liu, Luc Swevers
Rok vydání:	2018
Předmět:	0301 basic medicine lcsh:QR1-502 Review DOUBLE-STRANDED-RNA Virus Replication SIGMA-VIRUS lcsh:Microbiology Virus defense systems 03 medical and health sciences Immune system RNA interference Virology non-RNAi MEDIATED ANTIVIRAL PROTECTION Animals IMMUNE-RESPONSE ENDOGENOUS SIRNA PATHWAY Cricket paralysis virus RNA Double-Stranded METHYLTRANSFERASE DNMT2 Genetics Innate immune system FLOCK HOUSE VIRUS biology Mechanism (biology) fungi Biology and Life Sciences biology.organism_classification antiviral Immunity Innate Drosophila melanogaster 030104 developmental biology Infectious Diseases Viral replication Virus Diseases insect pest control RNAi INNATE IMMUNITY RNA Interference insect Function (biology) CRICKET PARALYSIS VIRUS SINDBIS VIRUS
Zdroj:	Viruses, Vol 10, Iss 5, p 230 (2018) VIRUSES-BASEL Viruses
ISSN:	1999-4915
DOI:	10.3390/v10050230
Popis:	RNAi is considered a major antiviral defense mechanism in insects, but its relative importance as compared to other antiviral pathways has not been evaluated comprehensively. Here, it is attempted to give an overview of the antiviral defense mechanisms in Drosophila that involve both RNAi and non-RNAi. While RNAi is considered important in most viral infections, many other pathways can exist that confer antiviral resistance. It is noted that very few direct recognition mechanisms of virus infections have been identified in Drosophila and that the activation of immune pathways may be accomplished indirectly through cell damage incurred by viral replication. In several cases, protection against viral infection can be obtained in RNAi mutants by non-RNAi mechanisms, confirming the variability of the RNAi defense mechanism according to the type of infection and the physiological status of the host. This analysis is aimed at more systematically investigating the relative contribution of RNAi in the antiviral response and more specifically, to ask whether RNAi efficiency is affected when other defense mechanisms predominate. While Drosophila can function as a useful model, this issue may be more critical for economically important insects that are either controlled (agricultural pests and vectors of diseases) or protected from parasite infection (beneficial insects as bees) by RNAi products.
Databáze:	OpenAIRE
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