Electrophysiological characterization of a schistosome transient receptor potential channel activated by praziquantel

Ion channels have proved to be productive targets for anthelmintic chemotherapy. One example is the recent discovery of a parasitic flatworm ion channel targeted by praziquantel (PZQ), the main clinical therapy used for treatment of schistosomiasis. The ion channel activated by PZQ – a transient receptor potential ion channel of the melastatin subfamily, named TRPM_PZQ – is a Ca²⁺-permeable ion channel expressed in all parasitic flatworms that are PZQ-sensitive. However, little is currently known about the electrophysiological properties of this target that mediates the deleterious action of PZQ on many trematodes and cestodes. Here, we provide a detailed biophysical characterization of the properties of Schistosoma mansoni TRPM_PZQ channel (Sm.TRPM_PZQ) in response to PZQ. Single channel electrophysiological analysis demonstrated that Sm.TRPM_PZQ when activated by PZQ is a non-selective, large conductance, voltage-insensitive cation channel that displays distinct properties from human TRPM paralogs. Sm.TRPM_PZQ is Ca²⁺-permeable but does not require Ca²⁺ for channel gating in response to PZQ. TRPM_PZQ from Schistosoma japonicum (Sj.TRPM_PZQ) and Schistosoma haematobium (Sh.TRPM_PZQ) displayed similar characteristics. Profiling Sm.TRPM_PZQ responsiveness to PZQ has established a biophysical signature for this channel that will aid future investigation of endogenous TRPM_PZQ activity, as well as analyses of endogenous and exogenous regulators of this novel, druggable antiparasitic target.