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The roles of complement receptor 3 and Fc? receptors during Leishmania phagosome maturation.


ABSTRACT: Leishmania are intracellular parasites adapted to surviving in macrophages, whose primary function is elimination of invading pathogens. Leishmania entry into host cells is receptor-mediated. These parasites are able to engage multiple host cell-surface receptors, including MR, TLRs, CR3, and Fc?Rs. Here, we investigated the role of CR3 and Fc?R engagement on the maturation of Leishmania-containing phagosomes using CD11b-/- and Fc?R-/- macrophages, and assessing EEA1 and lysosome-associated proteins is necessary for the phagosome maturation delay, characteristic of Leishmania infection. Leishmania-containing phagosomes do not fuse with lyosomes until 5 h postinfection in WT mice. Phagolysosome fusion occurs by 1 h in CD11b and Fc?R common chain KO macrophages, although receptor deficiency does not influence Leishmania entry or viability. We also investigated the influence of serum components and their effects on phagosome maturation progression. Opsonization with normal mouse serum, complement-deficient serum, or serum from Leishmania-infected mice all influenced phagosome maturation progression. Our results indicate that opsonophagocytosis influences phagosomal trafficking of Leishmania without altering the intracellular fate.

SUBMITTER: Polando R 

PROVIDER: S-EPMC3656333 | biostudies-literature | 2013 Jun

REPOSITORIES: biostudies-literature

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The roles of complement receptor 3 and Fcγ receptors during Leishmania phagosome maturation.

Polando Rachel R   Dixit Upasna Gaur UG   Carter Cristina R CR   Jones Blake B   Whitcomb James P JP   Ballhorn Wibke W   Harintho Melissa M   Jerde Christopher L CL   Wilson Mary E ME   McDowell Mary Ann MA  

Journal of leukocyte biology 20130329 6


Leishmania are intracellular parasites adapted to surviving in macrophages, whose primary function is elimination of invading pathogens. Leishmania entry into host cells is receptor-mediated. These parasites are able to engage multiple host cell-surface receptors, including MR, TLRs, CR3, and FcγRs. Here, we investigated the role of CR3 and FcγR engagement on the maturation of Leishmania-containing phagosomes using CD11b-/- and FcγR-/- macrophages, and assessing EEA1 and lysosome-associated prot  ...[more]

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