A cell surface transporter mediates phenanthridine resistance in African trypanosomes

African animal trypanosomosis poses a significant threat to livestock health and agricultural productivity across sub-Saharan Africa. Isometamidium chloride is the only available drug that is both prophylactic and curative. Despite sustained reports of resistance since the 1970s, a definitive molecular mechanism of resistance remains unresolved in the clinically relevant pathogen species Trypanosoma congolense . In this study, the role of a putative drug/metabolite transporter protein, TcoDMT, was validated via the analysis of in vitro -derived mutants, showing that expression levels of this protein correlated strongly with isometamidium sensitivity. Functional analyses revealed that the protein is a cell surface phenanthridine transporter and, notably, copy number variation correlates with Isometamidium sensitivity in T. congolense field isolates. This study validates, for the first time, a plasma membrane transporter with a defined role in phenanthridine action and resistance, advancing our understanding of drug resistance mechanisms in parasitic protists, and informing strategies to combat animal trypanosomosis.