Expression of CD300lf by microglia contributes to resistance to cerebral malaria by impeding the neuroinflammation.

Tarun Keswani, Jacques Roland, Fabien Herbert, Delphine Delcroix-Genete, Hélène Bauderlique-Le Roy, Lobna Gaayeb, Pierre-André Cazenave, Sylviane Pied

Genes and immunity 2020 Jan

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Genetic mapping and genome-wide studies provide evidence for the association of several genetic polymorphisms with malaria, a complex pathological disease with multiple severity degrees. We have previously described Berr1and Berr2 as candidate genes identified in the WLA/Pas inbreed mouse strain predisposing to resistance to cerebral malaria (CM) induced by P. berghei ANKA. We report in this study the phenotypic and functional characteristics of a congenic strain we have derived for Berr2WLA allele on the C57BL/6JR (B6) background. B6.WLA-Berr2 was found highly resistant to CM compared to C57BL/6JR susceptible mice. The mechanisms associated with CM resistance were analyzed by combining genotype, transcriptomic and immune response studies. We found that B6.WLA-Berr2 mice showed a reduced parasite sequestration and blood-brain barrier disruption with low CXCR3+ T cell infiltration in the brain along with altered glial cell response upon P. berghei ANKA infection compared to B6. In addition, we have identified the CD300f, belonging to a family of Ig-like encoding genes, as a potential candidate associated with CM resistance. Microglia cells isolated from the brain of infected B6.WLA-Berr2 mice significantly expressed higher level of CD300f compared to CMS mice and were associated with inhibition of inflammatory response.

Citation

Tarun Keswani, Jacques Roland, Fabien Herbert, Delphine Delcroix-Genete, Hélène Bauderlique-Le Roy, Lobna Gaayeb, Pierre-André Cazenave, Sylviane Pied. Expression of CD300lf by microglia contributes to resistance to cerebral malaria by impeding the neuroinflammation. Genes and immunity. 2020 Jan;21(1):45-62