A cyclic adenosine monophosphate (cAMP)-specific phosphodiesterase interacts with begomovirus capsid proteins and modulates virus retention within its vector

Author:

Ghosh Saptarshi,Mondal Banani,Jassar Ola,Ghanim Murad,Gautam Saurabh,Srinivasan Rajagopalbabu

Abstract

AbstractBegomoviruses are whitefly-transmitted ss-DNA viruses infecting dicotyledonous plants and contribute to major economic losses to global crop production. Invasion and establishment of an aggressive species ofB. tabaci, known as the B cryptic species, has severely constrained vegetable production in the southeastern and southwestern United States. Disruption of genes/pathways critical for whitefly mediated transmission can be effective for the management of begomoviruses. In this study, yeast two hybrid (Y2H)-based screening ofB. tabacicDNA library identified a cyclic adenosine monophosphate (cAMP)-specific phosphodiesterase (PDE4) of the whitefly as an interacting partner with capsid proteins (CPs) of old- and new-world begomoviruses. Interactions of PDE4 with begomovirus CPs were validated by GST-pull-down assays, co-immunoprecipitation, and co-immunolocalization in whitefly midgut. The PDE4 family of enzymes hydrolyze cAMP and regulate intracellular cAMP levels. This study revealed that elevation of cAMP within whitefly by chemically inhibiting or gene (PDE4) silencing resulted in increased retention and transmission of begomoviruses. Similarly, decreased cAMP levels resulted in reduced begomovirus retention. The results of this study demonstrate that whitefly mediated transmission of begomoviruses is regulated by intracellular cAMP by unknown mechanisms.ImportanceBegomoviruses, transmitted by the sweetpotato whitefly, (Bemisa tabaci Gennadius), are the causal agents of many economically important plant virus diseases. Lack of host plant resistance against begomoviruses, high whitefly abundance, and whitefly’s ability to develop insecticide resistance rapidly often renders commonly used management practice ineffective. This study demonstrates how begomovirus retention within whitefly and its transmission can be modulated by altering cAMP expression of its insect vector. Naturally occurring bio-pesticides that target insect cAMPs are known. Our findings can lead to alternative strategies for the management of begomoviruses by targeting whitefly cAMP using chemicals, botanicals, or RNAi-based insecticides.

Publisher

Cold Spring Harbor Laboratory

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