The major drug discovery efforts in oncology have been concentrated on the development of selective molecules that are supposed to act specifically on one anticancer mechanism by modulating a single or several closely related drug targets. However, a bird's eye view on data from multiple available bioassays implies that most approved anticancer agents do, in fact, target many more proteins with different functions. Here we will review and systematize currently available information on the targets of several anticancer drugs along with revision of their potential mechanisms of action. Polypharmacology of the current antineoplastic agents suggests that drug clinical efficacy in oncology can be achieved only via modulation of multiple cellular mechanisms.

Amelio, I., Lisitsa, A., Knight, R.a., Melino, G., Antonov, A.v. (2017). Polypharmacology of Approved Anticancer Drugs. CURRENT DRUG TARGETS, 18(5), 534-543 [10.2174/1389450117666160301095233].

Polypharmacology of Approved Anticancer Drugs

Amelio, Ivano;Melino, Gennaro;
2017-01-01

Abstract

The major drug discovery efforts in oncology have been concentrated on the development of selective molecules that are supposed to act specifically on one anticancer mechanism by modulating a single or several closely related drug targets. However, a bird's eye view on data from multiple available bioassays implies that most approved anticancer agents do, in fact, target many more proteins with different functions. Here we will review and systematize currently available information on the targets of several anticancer drugs along with revision of their potential mechanisms of action. Polypharmacology of the current antineoplastic agents suggests that drug clinical efficacy in oncology can be achieved only via modulation of multiple cellular mechanisms.
2017
Pubblicato
Rilevanza internazionale
Recensione
Esperti anonimi
Settore BIO/10 - BIOCHIMICA
English
Amelio, I., Lisitsa, A., Knight, R.a., Melino, G., Antonov, A.v. (2017). Polypharmacology of Approved Anticancer Drugs. CURRENT DRUG TARGETS, 18(5), 534-543 [10.2174/1389450117666160301095233].
Amelio, I; Lisitsa, A; Knight, Ra; Melino, G; Antonov, Av
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/239332
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