Synthesis and biological activities of marine terpene-adenine hybrids and synthetic analogs

Marine sponges (Agelas sp., Raspailia sp.) produce bioactive metabolites, which can be regarded as hybrids between a terpenoid and an adenine derivative. Three sub classes are known: Agelasines, agelasimines and asmarines. Currently 19 agelasines or closely related structures, two agelasimines and 11 asmarines are published. The two agelasimines have been prepared by total synthesis, the same is true for some of the agelasines, but none of the asmarines have been synthesized so far. Agelasines are associated with antimicrobial and antineoplastic activities. Several analogs have been prepared, which are even more potent than the naturally occurring compounds, and interesting leads for treatment of for instance tuberculosis, Chagas disease and leishmaniasis have been identified. Also antifouling agents and biofilm inhibitors have been found among agelasines and analogs. Agelasines inhibits Na,K-ATPase and other ATPases, but how relevant this is for their mechanism of action, as antimicrobial and antineoplastic agents, are currently poorly understood. Agelasimines A and B display antineoplastic activity and they have the ability to inhibit smooth muscle contraction. Synthetic analogs with both antimicrobial and anticancer activities are known. Biological activities of asmarines are far less studied than those of agelasines and agelasimines, but some of them are claimed to be cytotoxic compounds.