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Pathogens Manipulating Tick Behavior—Through a Glass, Darkly

by Benelli, Giovanni

in Adaptiveness / Anaplasma / antifreeze proteins / Arachnids / Babesia / Bacteria / Bartonella / Behavior / behavior change / blood / Borrelia / Cold resistance / Cold shock / Cold shock proteins / Culicidae / Desiccation / Encephalitis / Engorgement / glass / Glycoproteins / Heat shock proteins / hosts / infection / Infections / insect vectors / Insects / Ixodes / knowledge / Laboratories / Leishmania / Low temperature resistance / Lyme disease / Mosquitoes / Parasites / Pathogens / phenotype / Phlebotominae / Physiology / Plasmodium / Review / Rickettsia / Studies / Synthesis / tick ecology and evolution / Tick-borne encephalitis / Tick-borne encephalitis virus / Ticks / Trypanosoma / Vectors / Viruses / walking

2020

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Pathogens Manipulating Tick Behavior—Through a Glass, Darkly

by Benelli, Giovanni

2020

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Pathogens Manipulating Tick Behavior—Through a Glass, Darkly

by Benelli, Giovanni

2020

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Journal Article

Pathogens Manipulating Tick Behavior—Through a Glass, Darkly

Benelli, Giovanni

2020

Overview

Pathogens can manipulate the phenotypic traits of their hosts and vectors, maximizing their own fitness. Among the phenotypic traits that can be modified, manipulating vector behavior represents one of the most fascinating facets. How pathogens infection affects behavioral traits of key insect vectors has been extensively investigated. Major examples include Plasmodium, Leishmania and Trypanosoma spp. manipulating the behavior of mosquitoes, sand flies and kissing bugs, respectively. However, research on how pathogens can modify tick behavior is patchy. This review focuses on current knowledge about the behavioral changes triggered by Anaplasma, Borrelia, Babesia, Bartonella, Rickettsia and tick-borne encephalitis virus (TBEV) infection in tick vectors, analyzing their potential adaptive significance. As a general trend, being infected by Borrelia and TBEV boosts tick mobility (both questing and walking activity). Borrelia and Anaplasma infection magnifies Ixodes desiccation resistance, triggering physiological changes (Borrelia: higher fat reserves; Anaplasma: synthesis of heat shock proteins). Anaplasma infection also improves cold resistance in infected ticks through synthesis of an antifreeze glycoprotein. Being infected by Anaplasma, Borrelia and Babesia leads to increased tick survival. Borrelia, Babesia and Bartonella infection facilitates blood engorgement. In the last section, current challenges for future studies are outlined.

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Publisher

MDPI AG,MDPI

Subject

Adaptiveness

/ Anaplasma

/ antifreeze proteins

/ Arachnids

/ Babesia

/ Bacteria

/ Bartonella