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Zootoxins affect a wide range of physiological processes and are therefore of great interest for drug research. An international study led by Björn von Reumont of Goethe University Frankfurt has identified novel toxins from the cave-dwelling underwater crustacean Xibalbanus tulumensis that inhibit various ion channels. The discovery opens up promising pharmacological applications. The species is found exclusively in the cenote caves that were once sacred to the Maya.
FRANKFURT. Many animals use venoms for self-defense or hunting. The components of such venom, known as toxins, interfere with various physiological processes – which is also the reason why they are so interesting for the development of new pharmacological agents. While the venoms of some animal groups – including snakes, spiders, scorpions and insects – have already been quite well studied, the situation is entirely different for marine animal groups. Here, data exists only for individual animal species, meaning this group still holds great untapped potential.
It was only discovered a few years ago that there also exist venomous crustaceans, i.e. remipedes that look more like centipedes and live in marine underwater caves. A multidisciplinary research team led by Dr. Björn von Reumont, who first described the venom system in remipedes in 2014 and is currently a guest researcher at Goethe University Frankfurt, has now characterized a group of toxins from the Xibalbanus tulumensis remipede.
To that end, Reumont put together a team consisting of cooperation partners from Fraunhofer Institute for Translational Medicine (ITMP) within the framework of the LOEWE Center for Translational Biodiversity, as well as colleagues from the University of Leuven, from Cologne, Berlin and Munich – all of them also part of the European Venom Network (COST Action EUVEN).
The Xibalbanus tulumensis remipede lives in the cenotes which are the underwater cave systems on the Mexican Yucatan peninsula. The cave dweller injects the venom produced in its venom gland directly into its prey. This toxin contains a variety of components, including a new type of peptide, named xibalbine, after its crustacean producer. Some of these xibalbines contain a characteristic structural element that is familiar from other toxins, especially those produced by spiders: several amino acids (cysteines) of the peptide are bound to each other in such a manner that they form a knot-like structure. This in turn makes the peptides resistant to enzymes, heat and extreme pH values. Such knottins often act as neurotoxins, interacting with ion channels and paralyzing prey – an effect that has also been proposed for some xibalbines.
The study shows that all the xibalbine peptides tested by the cooperation partners’ doctoral students – and in particular Xib1, Xib2 and Xib13 – effectively inhibit potassium channels in mammalian systems. “This inhibition is greatly important when it comes to developing drugs for a range of neurological diseases, including epilepsy,” says von Reumont. Xib1 and Xib13 also exhibit the ability to inhibit voltage-gated sodium channels, such as those found in nerve or heart muscle cells. In addition, in the sensory neurons of higher mammals, the two peptides can activate two proteins – kinases PKA-II and ERK1/2 – involved in signal transduction. The latter suggests that they are involved in pain sensitization, which opens up new approaches in pain therapy.
Although the xibalbines’ bioactivity is exemplary of the untapped potential of marine biodiversity, the production of drugs from animal venoms is a complex and time-consuming process. “Finding suitable candidates and comprehensively characterizing their effects, thus laying the foundation for safe and effective drugs, is only possible today in a large interdisciplinary team, as in the case of our study,” says von Reumont.
Making matters more difficult is the fact that time is of the essence for the remipedes. Their habitat is under serious threat from the construction of the Tren Maya intercity railroad network, which cuts straight through the Yucatan Peninsula. “The cenotes are a highly sensitive ecosystem,” explains von Reumont, who, as an experienced cave diver, has collected remipedes in Yucatan during several cave diving expeditions. “Our study highlights the importance of protecting biodiversity, not only for its ecological significance, but also for potential substances that could be of crucial importance to us humans.”
Picture download:
https://www.uni-frankfurt.de/158764609
Captions:
(Entry)
Entrance to a cenote: Cenotes were once sacred to the Maya, as the karst caves were considered the entrance to the divine underworld. Photo: Björn M. von Reumont
(Diving)
Dive in the cenotes: The researchers collect the underwater crab Xibalbanus tulumensis, which only occurs here. Photo: Björn M. von Reumont
(Xibalbanus)
Toxic underwater crustacean: Xibalbanus tulumensis contains toxins that are suitable for the development of active substances against neurological diseases. Photo: Björn M. von Reumont
Dr. rer. nat. habil. Björn M. von Reumont
Guest researcher at the Research Group for Applied Bioinformatics/Prof. Ingo Ebersberger
Goethe University Frankfurt
Tel. +49(0)151-61997924
bmvr@reumont.net
http://www.venom-evolution.de
Ernesto Lopes Pinheiro-Junior, Ehsan Alirahimi, Steve Peigneur, Jörg Isensee, Susanne Schiffmann, Pelin Erkoc, Robert Fürst, Andreas Vilcinskas, Tobias Sennoner, Ivan Koludarov, Benjamin-Florian Hempel, Jan Tytgat, Tim Hucho, Björn M von Reumont: Diversely evolved xibalbin variants from remipede venom inhibit potassium channels and activate PKA-II and Erk1/2 signaling. BMC Biology 22, 164 (2024) https://doi.org/10.1186/s12915-024-01955-5
ive in the cenotes: The researchers collect the underwater crab Xibalbanus tulumensis, which only oc ...
Björn M. von Reumont
Goethe University Frankfurt
Toxic underwater crustacean: Xibalbanus tulumensis contains toxins that are suitable for the develop ...
Björn M. von Reumont
Goethe University Frankfurt
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