In work that could someday improve treatments for epilepsy, UT Southwestern scientists have published the first three-dimensional structure of a member of a large family of human proteins that carry charged particles — ions — across the cell membrane.
The potassium chloride cotransporter 1 (KCC1) structure solved in this study carries positively charged potassium ions (K+) and negatively charged chloride (Cl-) ions across cell membranes to help regulate the volume of the cell. The protein is one of a large family of cotransporters found in many of the body’s tissues, particularly in the kidneys and the brain.
Despite extensive study of cotransporters, the lack of high-resolution structures has hindered a deeper understanding of their actions. The scientists solved the structure using cryo-electron microscopy (cryo-EM) — an advanced technology in which samples are frozen at extremely low temperatures at speeds that prevent the formation of ice crystals.
Mutations in this family of cotransporters can lead to diseases such as hereditary epilepsy, including one form that starts in infancy, said Dr. Xiao-chen Bai, corresponding author of the Science study. Drugs that target cotransporters are currently used as diuretics to treat high blood pressure.