There is a great research interest in scorpion venom these days, especially the hunt for toxins and other elements that can be used in medical research. The scorpion venom is known to contain a cocktail of peptids, enzymes and other inorganic and organic compounds, but it has been believed that the venom has been sterile venom it comes to bacteria and other microbiota.
Barbara Murdoch and co-workers recently published an article revealing the presence of several bacteria in the venom of the scorpions Paruoctonus becki (Gertsch & Allred, 1965) (Vaejovidae) and Anuroctonus phaiodactylus (Wood, 1863) (Anuroctonidae). This is the first report of microbiota in scorpion venom.
Matt Simon, who informed me about this article, noticed several interesting facts in this article. Firstly, many of the observed bacteria are known to have evolved for extreme conditions, Secondly, one of the observed genera (Nocardioides) is known to produce antimicrobial compounds. The latter is especially interesting, as it may suggest that antibiotic properties of scorpion venom may not be caused by the scorpion itself, but by bacteria in the venom.
Abstract:
With low nutrient availability and presence of numerous antimicrobial peptides, animal venoms have been traditionally considered to be harsh sterile environments that lack bacteria. Contrary to this assumption, recent studies of animal venom and venom-producing tissues have revealed the presence of diverse microbial communities, warranting further studies of potential microbiota in other venomous animals. In this study we used 16S rRNA amplicon sequencing to elucidate whether scorpion venom contained bacteria, to characterize the bacterial communities, and determine if venom microbiomes differed across geologically complex geographic locations. Our study compares the venom microbiome of two scorpion species, sampled from sites in the Mojave and Great Basin deserts, Paruoctonus becki (family of Vaejovidae) and Anuroctonus phaiodactylus (family of Anuroctonidae), and represents the first assessment of microbial diversity ever conducted using the venom secretion itself, rather than the venom-producing organ and its surrounding tissues.
Reference:
Murdoch B, Kleinschmit AJ, Santibáñez-López CE, Graham MR. Microbiota discovered in scorpion venom. PLoS One. 2026;21(1):e0328427. [Open Access]
Thanks to Matt Simon for informing me about this papers and for his comments!
No comments:
Post a Comment