The development of small-molecule-based target therapy design for human disease and cancer is object of growing attention. Recently, specific microRNA (miRNA) mimicking compounds able to bind the miRNA-binding domain of Argonaute 2 protein (AGO2) to inhibit miRNA loading and its functional activity were described. Computer-aided molecular design techniques and RNA immunoprecipitation represent suitable approaches to identify and experimentally determine if a compound is able to impair the loading of miRNAs on AGO2 protein. Here, we describe these two methodologies that we recently used to select a specific compound able to interfere with the AGO2 functional activity and able to improve the retinoic acid-dependent myeloid differentiation of leukemic cells.
Bellissimo, T., Masciarelli, S., Poser, E., Genovese, I., Del Rio, A., Colotti, G., Fazi, F., Small molecules targeting the miRNA-binding domain of argonaute 2: From computer-aided molecular design to RNA immunoprecipitation, Methods in Molecular Biology, Humana Press Inc., NEW YORK -- USA 2017 1517: 211-221. 10.1007/978-1-4939-6563-2_15 [http://hdl.handle.net/10807/147518]
Small molecules targeting the miRNA-binding domain of argonaute 2: From computer-aided molecular design to RNA immunoprecipitation
Masciarelli, Silvia;
2017
Abstract
The development of small-molecule-based target therapy design for human disease and cancer is object of growing attention. Recently, specific microRNA (miRNA) mimicking compounds able to bind the miRNA-binding domain of Argonaute 2 protein (AGO2) to inhibit miRNA loading and its functional activity were described. Computer-aided molecular design techniques and RNA immunoprecipitation represent suitable approaches to identify and experimentally determine if a compound is able to impair the loading of miRNAs on AGO2 protein. Here, we describe these two methodologies that we recently used to select a specific compound able to interfere with the AGO2 functional activity and able to improve the retinoic acid-dependent myeloid differentiation of leukemic cells.
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