Calcium modulates the domain flexibility and function of an α-actinin similar to the ancestral α-actinin.
Nikos PinotsisKarolina ZielinskaMrigya BabutaJoan L ArolasJulius KostanMuhammad Bashir KhanClaudia SchreinerAnita SalmazoLuciano CiccarelliMartin PuchingerEirini A GkougkouliaEuripedes de Almeida RibeiroThomas C MarlovitsAlok BhattacharyaKristina Djinovic-CarugoPublished in: Proceedings of the National Academy of Sciences of the United States of America (2020)
The actin cytoskeleton, a dynamic network of actin filaments and associated F-actin-binding proteins, is fundamentally important in eukaryotes. α-Actinins are major F-actin bundlers that are inhibited by Ca2+ in nonmuscle cells. Here we report the mechanism of Ca2+-mediated regulation of Entamoeba histolytica α-actinin-2 (EhActn2) with features expected for the common ancestor of Entamoeba and higher eukaryotic α-actinins. Crystal structures of Ca2+-free and Ca2+-bound EhActn2 reveal a calmodulin-like domain (CaMD) uniquely inserted within the rod domain. Integrative studies reveal an exceptionally high affinity of the EhActn2 CaMD for Ca2+, binding of which can only be regulated in the presence of physiological concentrations of Mg2+ Ca2+ binding triggers an increase in protein multidomain rigidity, reducing conformational flexibility of F-actin-binding domains via interdomain cross-talk and consequently inhibiting F-actin bundling. In vivo studies uncover that EhActn2 plays an important role in phagocytic cup formation and might constitute a new drug target for amoebic dysentery.