Identification of the NA+/K+-ATPase α-Isoforms in Six Species of Poison Dart Frogs and their Sensitivity to Cardiotonic Steroids.

Cardiotonic steroids (CTS) are a group of compounds known to be toxic due to their ability to inhibit the Na+/K+-ATPase (NKA), which is essential to maintain the balance of ions in animal cells. An evolutionary strategy of molecular adaptation to avoid self-intoxication acquired by CTS defended organisms and their predators is the structural modification of their NKA where specific amino acid substitutions confer resistant phenotypes. Several lineages of poison dart frogs (Dendrobatidae) are well known to sequester a wide variety of lipophilic alkaloids from their arthropod diet, however there is no evidence of CTS-sequestration or dietary exposure. Interestingly this study identified the presence of α-NKA isoforms (α1 and α2) with amino acid substitutions indicative of CTS-resistant phenotypes in skeletal muscle transcriptomes obtained from six species of dendrobatids: Phyllobates aurotaenia, Oophaga anchicayensis, Epipedobates boulengeri, Andinobates bombetes, Andinobates minutus, and Leucostethus brachistriatus, collected in the Valle del Cauca (Colombia). P. aurotaenia, A. minutus, and E. boulengeri presented two variants for α1-NKA, with one of them having these substitutions. In contrast, O. anchicayensis and A. bombetes have only one α1-NKA isoform with an amino acid sequence indicative of CTS susceptibility and an α2-NKA with one substitution that could confer a reduced affinity for CTS. The α1 and α2 isoforms of L. brachistriatus do not contain substitutions imparting CTS resistance. Our findings indicate that poison dart frogs express α-NKA isoforms with different affinities for CTS and the pattern of this expression might be influenced by factors related to evolutionary, physiological, ecological, and geographical burdens.

Identification of Na+/K+-ATPase α/ß isoforms in Rhinella marina tissues by RNAseq and a molecular docking approach at the protein level to evaluate α isoform affinities for bufadienolides.

Na+/K+-ATPase (NKA) function is inhibited by Bufadienolides (BD), a group of cardiotonic steroids (CTS) primarily produced by anurans of the Bufonidae family, such as Rhinella marina. This study characterized the presence of α and ß NKA subunit isoforms in R. marina via RNAseq in four tissues: oocytes, skin, heart, and skeletal muscle. Transcripts encoding three α-like isoforms (α1, α2, α3) and three ß-like isoforms (ß1, ß2, ß4) were identified. The amino acid sequence of α1-like isoform shared 99.4% identity with the α1 isoform previously published for R. marina. Sequences for α2, α3, and ß4 from R. marina were previously unavailable. The first extracellular loop in the α2-like isoform in R. marina showed similar substitutions to those found in their susceptible homologues in other taxa (L/Q111T and S119T); in contrast, this same loop in α3-like isoform showed similar substitutions (Q111L and G120R) to those reported for toad-eating animals such as snakes, which suggests relatively lower affinity for CTS. Docking results showed that all three α-like isoforms identified in R. marina transcriptomes have low affinity to CTS compared to the susceptible α1 isoform of Sus scrofa (pig), with α1-like isoform being the most resistant. The tissue-specific RNAseq results showed the following expression of NKA α-like and ß-like subunit isoforms: Oocytes expressed α1 and ß1; skin α1, ß1, and low levels of ß2; heart α1, α3, and ß1; skeletal muscle α1, ß4, with low levels of α2, α3, and ß1. R. marina could be used as an important model for future structural, functional and pharmacological studies of NKA and its isoforms.