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Article Abstract
parasites rely on host iron for survival and replication, making host iron availability a critical determinant of malaria pathogenesis. Central to iron homeostasis is the hepcidin-ferroportin regulatory axis, where hepcidin suppresses iron export by inducing ferroportin degradation, thus modulating systemic and cellular iron availability. In the infection model (), we observed a significant downregulation of hepatic expression, accompanied by an increase in hepatic expression. On the contrary, RBC-ferroportin protein level was notably suppressed upon infection. Given these findings, we aim to investigate the role of a ferroportin inhibitor in infection. In a mouse model, treatment with an oral ferroportin inhibitor, VIT-2763 (Vamifeport) increased parasitemia, accompanied by increased levels of pro-inflammatory cytokines, erythropoietin, and liver injury markers. In infected mice, VIT-2763 treatment suppressed expression and increased expression in hepatocytes, while reducing ferroportin protein levels in RBCs. VIT-2763 mediated exacerbation of infection reveals the tissue-specific regulation of ferroportin in hepatocytes and RBCs, underscoring the therapeutic potential of modulating the hepcidin-ferroportin axis as an intervention strategy in malaria.
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| http://dx.doi.org/10.3390/microorganisms13081859 | DOI Listing |
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