A Novel Calcium-Activated Potassium Channel Controls Membrane Potential and Intracellular pH in Trypanosoma cruzi

Abstract: Trypanosoma cruzi develops in environments where nutrient availability, osmolarity, ionic concentrations, and pH undergo significant changes. The ability to adapt and respond to such conditions determines the survival and successful transmission of T. cruzi. Ion channels play fundamental roles in controlling physiological parameters that ensure cell homeostasis by rapidly triggering compensatory mechanisms. Combining molecular, cellular and electrophysiological approaches we have identified and characterized t… Show more

“…This protein plays a central role in regulating intracellular pH and membrane potential in T . cruzi [ 82 ] and its ablation in epimastigotes induced hyperpolarization and cytosolic alkalinization, as well as an increase in the rate of proton extrusion. Importantly, TcCAKC knockout parasites were unable to differentiate into trypomastigotes, severely impairing their infectivity and emphasizing the role of K + homeostasis in parasite fitness.…”

Down the membrane hole: Ion channels in protozoan parasites

“…This protein plays a central role in regulating intracellular pH and membrane potential in T . cruzi [ 82 ] and its ablation in epimastigotes induced hyperpolarization and cytosolic alkalinization, as well as an increase in the rate of proton extrusion. Importantly, TcCAKC knockout parasites were unable to differentiate into trypomastigotes, severely impairing their infectivity and emphasizing the role of K + homeostasis in parasite fitness.…”

Down the membrane hole: Ion channels in protozoan parasites

Insights into Leishmania donovani potassium channel family and their biological functions

Bioenergetics impairment of Trypanosoma cruzi by the antihypertensive manidipine: A drug repurposing strategy