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Malaria parasites both repress host CXCL10 and use it as a cue for growth acceleration.

Ofir-Birin, Yifat; Ben Ami Pilo, Hila; Cruz Camacho, Abel; Rudik, Ariel; Rivkin, Anna; Revach, Or-Yam; Nir, Netta; Block Tamin, Tal; Abou Karam, Paula; Kiper, Edo; Peleg, Yoav; Nevo, Reinat; Solomon, Aryeh; Havkin-Solomon, Tal; Rojas, Alicia; Rotkopf, Ron; Porat, Ziv; Avni, Dror; Schwartz, Eli; Zillinger, Thomas; Hartmann, Gunther; Di Pizio, Antonella; Quashie, Neils Ben; Dikstein, Rivka; Gerlic, Motti; Torrecilhas, Ana Claudia; Levy, Carmit; Nolte-'t Hoen, Esther N M; Bowie, Andrew G; Regev-Rudzki, Neta.

Nat Commun ; 12(1): 4851, 2021 08 11.

Article in English | MEDLINE | ID: mdl-34381047

ABSTRACT

Pathogens are thought to use host molecular cues to control when to initiate life-cycle transitions, but these signals are mostly unknown, particularly for the parasitic disease malaria caused by Plasmodium falciparum. The chemokine CXCL10 is present at high levels in fatal cases of cerebral malaria patients, but is reduced in patients who survive and do not have complications. Here we show a Pf 'decision-sensing-system' controlled by CXCL10 concentration. High CXCL10 expression prompts P. falciparum to initiate a survival strategy via growth acceleration. Remarkably, P. falciparum inhibits CXCL10 synthesis in monocytes by disrupting the association of host ribosomes with CXCL10 transcripts. The underlying inhibition cascade involves RNA cargo delivery into monocytes that triggers RIG-I, which leads to HUR1 binding to an AU-rich domain of the CXCL10 3'UTR. These data indicate that when the parasite can no longer keep CXCL10 at low levels, it can exploit the chemokine as a cue to shift tactics and escape.

Subject(s)

Chemokine CXCL10/metabolism , Malaria, Falciparum/parasitology , Plasmodium falciparum/physiology , 3' Untranslated Regions , Chemokine CXCL10/genetics , DEAD Box Protein 58/metabolism , ELAV-Like Protein 1/metabolism , Extracellular Vesicles/metabolism , Host-Parasite Interactions , Humans , Life Cycle Stages , Malaria, Falciparum/immunology , Monocytes/metabolism , Plasmodium falciparum/growth & development , Plasmodium falciparum/metabolism , Protein Biosynthesis , RNA, Protozoan/metabolism , Receptors, Immunologic/metabolism , Ribosomes/metabolism , THP-1 Cells

ABSTRACT

Subject(s)

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