posted on 2023-12-01, 18:34authored byManola Moretti, Maria Hountondji, Rui Ge, Abdul-Hamid Emwas, Panayiotis Bilalis, Hepi H. Susapto, Abdulelah Alrashoudi, Xinzhi Liu, Giuseppina R. Briola, Charlotte A. E. Hauser
Coral reef survival is threatened
globally. One way to
restore
this delicate ecosystem is to enhance coral growth by the controlled
propagation of coral fragments. To be sustainable, this technique
requires the use of biocompatible underwater adhesives. Hydrogels
based on rationally designed ultrashort self-assembling peptides (USP)
are of great interest for various biological and environmental applications,
due to their biocompatibility and tunable mechanical properties. Implementing
superior adhesion properties to the USP hydrogel compounds is crucial
in both water and high ionic strength solutions and is relevant in
medical and marine environmental applications such as coral regeneration.
Some marine animals secrete large quantities of the aminoacids dopa
and lysine to enhance their adhesion to wet surfaces. Therefore, the
addition of catechol moieties to the USP sequence containing lysine
(IIZK) should improve the adhesive properties of USP hydrogels. However,
it is challenging to place the catechol moiety (Do) within the USP
sequence at an optimal position without compromising the hydrogel
self-assembly process and mechanical properties. Here, we demonstrate
that, among three USP hydrogels, DoIIZK is the least adhesive and
that the adhesiveness of the IIZDoK hydrogel is compromised by its
poor mechanical properties. The best adhesion outcome was achieved
using the IIZKDo hydrogel, the only one to show equally sound adhesive
and mechanical properties. A mechanistic understanding of this outcome
is presented here. This property was confirmed by the successful gluing
of coral fragments by means of IIZKDo hydrogel that are still thriving
after more than three years since the deployment. The validated biocompatibility
of this underwater hydrogel glue suggests that it could be advantageously
implemented for other applications, such as surgical interventions.