Can Scorpion Venom Peptides Be Safely Used in Cardiovascular Therapy: A Systematic Review

Posted by
  Can Scorpion Venom Peptides Be Safely Used in Cardiovascular Therapy: A Systematic Review Abstract Scorpion venom contains numerous bioactive peptides with potent cardiovascular effects, including bradykinin-potentiating peptides (BPPs), ion channel modulators, and cardioprotective molecules. These peptides show promise for conditions such as hypertension, cardiac injury, and arrhythmias. However, concerns regarding toxicity, immunogenicity, and off-target actions have limited their clinical development. This systematic review evaluates the therapeutic potential and safety of scorpion venom peptides for cardiovascular applications. A systematic search of PubMed, Scopus, Google Scholar, and Semantic Scholar identified 1,141 articles. Screening of 463 abstracts and full-text review of 446 eligible studies resulted in 17 publications meeting the inclusion criteria. Extracted data included mechanisms, efficacy, toxicity, and translational challenges. BPPs consistently demonstrated AC...

Population genomics of adaptive radiations: Exceptionally high levels of genetic diversity and recombination in an endemic spider from the Canary Islands

Posted by

 


Population genomics of adaptive radiations: Exceptionally high levels of genetic diversity and recombination in an endemic spider from the Canary Islands

Abstract

The spider genus Dysdera has undergone a remarkable diversification in the oceanic archipelago of the Canary Islands, ~60 endemic species originated during the 20 million years since the origin of the archipelago. This evolutionary radiation has been accompanied by substantial dietary shifts, often characterized by phenotypic modifications encompassing morphological, metabolic and behavioral changes. Hence, these endemic spiders represent an excellent model for understanding the evolutionary drivers and to pinpoint the genomic determinants underlying adaptive radiations. Recently, we achieved the first chromosome-level genome assembly of one of the endemic species, D. silvatica, providing a high-quality reference sequence for evolutionary genomics studies. Here, we conducted a low-coverage based resequencing study of a natural population of D. silvatica from La Gomera island. Taking advantage of the new high-quality genome, we characterized genome-wide levels of nucleotide polymorphism, divergence, and linkage disequilibrium, and inferred the demographic history of this population. We also performed comprehensive genome-wide scans for recent positive selection. Our findings uncovered exceptionally high levels of nucleotide diversity and recombination in this geographically restricted endemic species, indicative of large historical effective population sizes. Furthermore, we identified genomic regions potentially under positive selection, shedding light on relevant biological processes, such as vision and nitrogen extraction as possible targets of adaptation and eventually, as drivers of the species diversification. This pioneering study in spiders endemic of an oceanic archipelago lays the groundwork for broader population genomics investigations aimed at understanding the genetic mechanisms driven adaptive radiations in island ecosystems.

Population genomics of adaptive radiations: Exceptionally high levels of genetic diversity and recombination in an endemic spider from the Canary Islands, Paula Escuer, Sara Guirao-Rico, Miquel A. Arnedo, Alejandro Sanchez-Gracia, Julio Rozas, bioRxiv 2024.05.13.593866; doi: https://doi.org/10.1101/2024.05.13.593866