%0 Journal Article
%T Sodium action potentials in placozoa: Insights into behavioral integration and evolution of nerveless animals.
%A Romanova DY
%A Smirnov IV
%A Nikitin MA
%A Kohn AB
%A Borman AI
%A Malyshev AY
%A Balaban PM
%A Moroz LL
%J Biochem Biophys Res Commun
%V 532
%N 1
%D 10 2020 29
%M 32828537
%F 3.322
%R 10.1016/j.bbrc.2020.08.020
%X Placozoa are small disc-shaped animals, representing the simplest known, possibly ancestral, organization of free-living animals. With only six morphological distinct cell types, without any recognized neurons or muscle, placozoans exhibit fast effector reactions and complex behaviors. However, little is known about electrogenic mechanisms in these animals. Here, we showed the presence of rapid action potentials in four species of placozoans (Trichoplax adhaerens [H1 haplotype], Trichoplax sp.[H2], Hoilungia hongkongensis [H13], and Hoilungia sp. [H4]). These action potentials are sodium-dependent and can be inducible. The molecular analysis suggests the presence of 5-7 different types of voltage-gated sodium channels, which showed substantial evolutionary radiation compared to many other metazoans. Such unexpected diversity of sodium channels in early-branched metazoan lineages reflect both duplication events and parallel evolution of unique behavioral integration in these nerveless animals.