Litcius/Paper detail

Hemocyte differentiation to the megacyte lineage enhances mosquito immunity against Plasmodium

Ana Beatriz F. Barletta, Banhisikha Saha, Nathanie Trisnadi, Octávio A. C. Talyuli, Gianmarco Raddi, Carolina Barillas‐Mury

2022eLife25 citationsDOIOpen Access PDF

Abstract

Activation of Toll signaling in Anopheles gambiae by silencing Cactus , a suppressor of this pathway, enhances local release of hemocyte-derived microvesicles (HdMv), promoting activation of the mosquito complement-like system, which eliminates Plasmodium ookinetes. We uncovered the mechanism of this immune enhancement. Cactus silencing triggers a Rel1 -mediated differentiation of granulocytes to the megacyte lineage, a new subpopulation of giant cells, resulting in a dramatic increase in the proportion of circulating megacytes. Megacytes are very plastic cells that are massively recruited to the basal midgut surface in response to Plasmodium infection. We show that Toll signaling modulates hemocyte differentiation and that megacyte recruitment to the midgut greatly enhances mosquito immunity against Plasmodium .

Topics & Concepts

BiologyPlasmodium (life cycle)Immune systemAnopheles gambiaeInnate immune systemAnophelesPlasmodium yoeliiImmunityMalariaCell biologyImmunologyVirologyPlasmodium falciparumParasitemiaParasite hostingComputer scienceWorld Wide WebMosquito-borne diseases and controlInsect symbiosis and bacterial influencesInvertebrate Immune Response Mechanisms