Role of the Tryptophan Residues in the Specific Interaction
of the Sea Anemone Stichodactyla helianthus’s
Actinoporin Sticholysin II with Biological Membranes
posted on 2016-11-02, 00:00authored bySara García-Linares, Terhi Maula, Esperanza Rivera-de-Torre, José G. Gavilanes, J. Peter Slotte, Álvaro Martínez-del-Pozo
Actinoporins
are pore-forming toxins from sea anemones. Upon interaction
with sphingomyelin-containing bilayers, they become integral oligomeric
membrane structures that form a pore. Sticholysin II from Stichodactyla helianthus contains five tryptophans located
at strategic positions; its role has now been studied using different
mutants. Results show that W43 and W115 play a determinant role in
maintaining the high thermostability of the protein, while W146 provides
specific interactions for protomer–protomer assembly. W110
and W114 sustain the hydrophobic effect, which is one of the major
driving forces for membrane binding in the presence of Chol. However,
in its absence, additional interactions with sphingomyelin are required.
These conclusions were confirmed with two sphingomyelin analogues,
one of which had impaired hydrogen bonding properties. The results
obtained support actinoporins’ Trp residues playing a major
role in membrane recognition and binding, but their residues have
an only minor influence on the diffusion and oligomerization steps
needed to assemble a functional pore.