HDAC inhibitors and NO donors have already revealed independently their broad therapeutic potential in pathologic contexts. Here we further investigated the power of their combination in a single hybrid molecule. Nitrooxy groups or substituted furoxan derivatives were joined to the α-position of the pyridine ring of the selective class I HDAC inhibitor MS-275. Biochemical analysis showed that the association with the dinitrooxy compound 31 or the furoxan derivative 16 gives hybrid compounds the ability to preserve the single moiety activities. The two new hybrid molecules were then tested in a muscle differentiation assay. The hybrid compound bearing the moiety 31 promoted the formation of large myotubes characterized by highly multinucleated fibers, possibly due to a stimulation of myoblast fusion, as implicated by the strong induction of myomaker expression. Thanks to their unique biological features, these compounds may represent new therapeutic tools for cardiovascular, neuromuscular and inflammatory diseases.
Structural and biological characterization of new hybrid drugs joining an HDAC inhibitor to different NO-donors / Atlante, Sandra; Chegaev, Konstantin; Cencioni, Chiara; Guglielmo, Stefano; Marini, Elisabetta; Borretto, Emily; Gaetano, Carlo; Fruttero, Roberta; Spallotta, Francesco; Lazzarato, Loretta. - In: EUROPEAN JOURNAL OF MEDICINAL CHEMISTRY. - ISSN 1768-3254. - 144:(2018), pp. 612-625. [10.1016/j.ejmech.2017.12.047]
Structural and biological characterization of new hybrid drugs joining an HDAC inhibitor to different NO-donors
Francesco Spallotta
Penultimo
;
2018
Abstract
HDAC inhibitors and NO donors have already revealed independently their broad therapeutic potential in pathologic contexts. Here we further investigated the power of their combination in a single hybrid molecule. Nitrooxy groups or substituted furoxan derivatives were joined to the α-position of the pyridine ring of the selective class I HDAC inhibitor MS-275. Biochemical analysis showed that the association with the dinitrooxy compound 31 or the furoxan derivative 16 gives hybrid compounds the ability to preserve the single moiety activities. The two new hybrid molecules were then tested in a muscle differentiation assay. The hybrid compound bearing the moiety 31 promoted the formation of large myotubes characterized by highly multinucleated fibers, possibly due to a stimulation of myoblast fusion, as implicated by the strong induction of myomaker expression. Thanks to their unique biological features, these compounds may represent new therapeutic tools for cardiovascular, neuromuscular and inflammatory diseases.| File | Dimensione | Formato | |
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