10.6084/m9.figshare.4996193.v1
Gendrin M.
Gendrin
M.
Turlure F.
Turlure
F.
Rodgers F.H.
Rodgers
F.H.
Cohuet A.
Cohuet
A.
Morlais I.
Morlais
I.
Christophides G.K.
Christophides
G.K.
Supplementary Material for: The Peptidoglycan Recognition Proteins PGRPLA and PGRPLB Regulate Anopheles Immunity to Bacteria and Affect Infection by Plasmodium
Karger Publishers
2017
Peptidoglycan recognition protein
Anopheles
Drosophila
Immune-deficiency pathway
Antimicrobial peptides
Plasmodium
Microbiota
Bacteria
2017-05-11 12:45:55
Dataset
https://karger.figshare.com/articles/dataset/Supplementary_Material_for_The_Peptidoglycan_Recognition_Proteins_PGRPLA_and_PGRPLB_Regulate_Anopheles_Immunity_to_Bacteria_and_Affect_Infection_by_Plasmodium/4996193
<p>Peptidoglycan recognition proteins (PGRPs) form a family of immune
regulators that is conserved from insects to mammals. In the malaria
vector mosquito <i>Anopheles</i><i>coluzzii</i>, the peptidoglycan receptor PGRPLC activates the immune-deficiency (Imd) pathway limiting both the microbiota load and <i>Plasmodium</i> infection. Here, we carried out an RNA interference screen to examine the role of all 7 <i>Anopheles</i> PGRPs in infections with <i>Plasmodium berghei</i> and <i>P. falciparum</i>.
We show that, in addition to PGRPLC, PGRPLA and PGRPS2/PGRPS3 also
participate in antiparasitic defenses, and that PGRPLB promotes mosquito
permissiveness to <i>P. falciparum</i>. We also demonstrate that
following a mosquito blood feeding, which promotes growth of the gut
microbiota, PGRPLA and PGRPLB positively and negatively regulate the
activation of the Imd pathway, respectively. Our data demonstrate that
PGRPs are important regulators of the mosquito epithelial immunity and
vector competence.</p>