A new actinoporin Hct-S4 (molecular mass 19,414 ± 10 Da) belonging to the sphingomyelin-inhibited α-pore forming toxin (α-PFT) family was isolated from the tropical sea anemone Heteractis crispa (also called Radianthus macrodactylus) and purified by methods of protein chemistry. The N-terminal nucleotide sequence (encoding 20 amino acid residues) of actinoporin Hct-S4 was determined. Genes encoding 18 new isoforms of H. crispa actinoporins were cloned and sequenced. These genes form a multigene Hct-S family characterized by presence of N-terminal serine in the mature proteins. Highly conserved residues comprising the aromatic phosphorylcholine-binding site and significant structure-function changes in the N-terminal segment (10-27 amino acid residues) of actinoporins were established. Two expressed recombinant actinoporins (rHct-S5 and rHct-S6) were one order less hemolytically active than native actinoporins.
Sea anemones produce pore-forming toxins, actinoporins, which are interesting as tools for cytoplasmic membranes study, as well as being potential therapeutic agents for cancer therapy. This investigation is devoted to structural and functional study of the Heteractis crispa actinoporins diversity. Here, we described a multigene family consisting of 47 representatives expressed in the sea anemone tentacles as prepropeptide-coding transcripts. The phylogenetic analysis revealed that actinoporin clustering is consistent with the division of sea anemones into superfamilies and families. The transcriptomes of both H. crispa and Heteractis magnifica appear to contain a large repertoire of similar genes representing a rapid expansion of the actinoporin family due to gene duplication and sequence divergence. The presence of the most abundant specific group of actinoporins in H. crispa is the major difference between these species. The functional analysis of six recombinant actinoporins revealed that H. crispa actinoporin grouping was consistent with the different hemolytic activity of their representatives. According to molecular modeling data, we assume that the direction of the N-terminal dipole moment tightly reflects the actinoporins’ ability to possess hemolytic activity.
Several new actinoporin isoforms with molecular weights of 18995.5 to 19398.7
Da exhibiting a high hemolytic activity were isolated from the tropical sea
anemone Heteractis crispa using a combination of liquid
chromatography techniques. The actinoporins were demonstrated to occur as
mono-, di-, and trimers in aqueous solutions. The sequences of the genes
encoding actinoporins were identified, and the amino acid sequences of the new
polypeptides belonging to the Hct-A actinoporin family were obtained. The new
acinoporins differ in their isoelectric points, the number and localization of
charged amino acid residues at the functionally important N-terminal fragment
of the molecule, as well as in the charge of a tetrapeptide (amino acid
residues 74–77) involved in an electrostatic interaction with the
cytoplasmic membrane. A recombinant actinoporin, rHct-A2, with a molecular
weight of 19141 Da, pI of 9.64, and hemolytic activity of 4.0 × 104 HU/mg,
was obtained. The conductivity of the ion channels formed by rHct-A2 in the BLM
was demonstrated to be similar to that of the native actinoporin from
H. crispa. The obtained data expand knowledge on the
structural and functional relationships of actinoporins and contribute to our
understanding of the functioning mechanism of these molecules, which is the
basis for the development of compounds with a high biomedical potential.
Currently, they are considered as models for obtaining antitumor,
antibacterial, and cardiac-stimulating agents.
It is shown that, in the invasion process, the G. orientalis phenotype has changed and differs from the natural one. The invasion phenotype is more "vigorous": the total biomass of the top plant organs, the length of inflorescences, the number of flowers, and also seed productivity are increasing. A tendency toward augmentation of some morphometric features under the increase in duration of the naturalization process is noted. The study data reveal an increase in competitive ability of G. orientalis in the secondary range and sup port the EICA hypothesis (Evolution of Increased Competitive Ability).
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