Exploring the global animal biodiversity in the search for new drugs – Spiders, scorpions, horseshoe crabs, sea spiders, centipedes, and millipedes

Abstract

Drug discovery and development programs have historically mainly focused on plants with medicinal properties and the extensive knowledge of traditional healers about these plants. More recently, the vast array of marine invertebrates and insects throughout the world have been recognized as additional sources for identifying unusual lead compounds to obtain structurally novel and mechanistically unique therapeutics. The results from these efforts are encouraging and have yielded a number of clinically useful drugs. However, many arthropods other than insects-such as spiders, scorpions, horseshoe crabs, sea spiders, centipedes, and millipedes-also produce hundreds of bioactive substances in their venom that may become useful in the clinic. Many of these chemicals are defensive and predatory weapons of these creatures and have been refined during millions of years of evolution to rapidly and with high specificity and high affinity shut down critical molecular targets in prey and predators. Exploration of these compounds may lead to the development of, among others, novel drugs for treating diseases caused by abnormalities in humans in the same (evolutionary conserved) molecular targets such as erectyle dysfunction, botulism, and autoimmune disorders, as well as the identification of novel antineoplastic, antimicrobial, and antiparasitic compounds. This paper addresses the importance of bioactive compounds from spiders, scorpions, horseshoe crabs, sea spiders, centipedes, and millipedes to these advances.