Myosin 1f and Proline-rich 13 are transcriptionally upregulated yet functionally redundant in CD4+ T cells during blood-stage Plasmodium infection
Takahiro Asatsuma, Marcela L. Moreira, Hyun J. Lee, Brooke J. Wanrooy, Oliver P. Skinner, Shihan Li, Ivana Rea, Taidhgin Harkin, Saba Asad, Cameron G. Williams, Lynette Beattie, Ashraful Haque, Joseph Mattapallil, Joseph Mattapallil, Joseph Mattapallil, Joseph Mattapallil

TL;DR
The paper finds that Myo1f and Prr13 are active in CD4+ T cells during malaria but not essential for immune memory or function.
Contribution
The study identifies Myo1f and Prr13 as upregulated in CD4+ T cells during malaria but shows they are functionally redundant.
Findings
Myo1f and Prr13 are transcriptionally upregulated during CD4+ T cell differentiation in malaria.
Deficiency in Myo1f or Prr13 does not affect T cell expansion, differentiation, or memory formation.
cMaf is essential for T follicular helper cell differentiation in experimental malaria.
Abstract
Plasmodium-specific CD4+ T cells differentiate into effector and memory subsets during experimental malaria, via mechanisms that remain incompletely characterised. By mining scRNA-seq data of CD4+ T cells during Plasmodium chabaudi chabaudi AS infection in mice, we identified two genes previously uncharacterised in T helper cells, long-tailed unconventional myosin 1f (Myo1f) and proline-rich13/taxanes-resistance 1 (Prr13/Txr1), which were upregulated during effector and memory differentiation. Myo1f is reported to regulate motility and granule exocytosis in myeloid and γδ T cells. Prr13/Txr1 is reported to transcriptionally regulate sensitivity to anti-cancer drugs. To test for cell-intrinsic gene function, we generated Plasmodium-specific TCR transgenic, PbTII cells harbouring CD4-promoter driven Cre recombinase and target genes with loxP-flanked essential exons. We validated our…
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Taxonomy
TopicsMalaria Research and Control · Immune Cell Function and Interaction · T-cell and B-cell Immunology
