Marine bioactive compounds are potential drug leads because of their diverse pharmacological effects against human diseases. The identification of their cellular targets is crucial for a rational approach to their application in medicinal chemistry. Thus, we have analyzed the cell interactome of suvanine, a sulfated tricyclic terpenoid of marine origin endowed with an interesting anti-inflammatory activity, by application of a chemical proteomic approach. Heat Shock Protein 60, a chaperone involved in the inflammatory response, is the main cellular target of suvanine, which is also able to interfere with protein chaperone activity, giving evidence for its anti-inflammatory properties.
Chemical Proteomics Reveals Heat Shock Protein 60 To Be the Main Cellular Target of the Marine Bioactive Sesterterpene Suvanine / Chiara, Cassiano; Maria Chiara, Monti; Festa, Carmen; Zampella, Angela; Raffaele, Riccio; Agostino, Casapullo. - In: CHEMBIOCHEM. - ISSN 1439-4227. - 13:13(2012), pp. 1953-1958. [10.1002/cbic.201200291]
Chemical Proteomics Reveals Heat Shock Protein 60 To Be the Main Cellular Target of the Marine Bioactive Sesterterpene Suvanine
Maria Chiara Monti;FESTA, CARMEN;ZAMPELLA, ANGELA;
2012
Abstract
Marine bioactive compounds are potential drug leads because of their diverse pharmacological effects against human diseases. The identification of their cellular targets is crucial for a rational approach to their application in medicinal chemistry. Thus, we have analyzed the cell interactome of suvanine, a sulfated tricyclic terpenoid of marine origin endowed with an interesting anti-inflammatory activity, by application of a chemical proteomic approach. Heat Shock Protein 60, a chaperone involved in the inflammatory response, is the main cellular target of suvanine, which is also able to interfere with protein chaperone activity, giving evidence for its anti-inflammatory properties.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
