We describe the characterisation of a series of 4,4'-biphenylsulfonamides as selective inhibitors of matrix metalloproteases MMP-2 and -13, two enzymes involved in cell invasion and angiogenesis. Double-inhibitor studies in the presence of acetohydroxamic acid show that these molecules do not bind the catalytic zinc. Moreover, two of the characterised inhibitors (11 and 19) act as non-competitive inhibitors, whereas the para-methyl ester derivative 13 behaves as a competitive inhibitor. This finding suggests that this class of molecules binds to a catalytic subsite, possibly the S1'-pocket. Moreover, since these compounds also act as inhibitors of carbonic anhydrases (CAs), another family of enzymes involved in cell invasion, they could be potentially useful as CA/MMP dual target inhibitors with increased efficacy as anticancer agents.
Kinetic characterization of 4,4′-biphenylsulfonamides as selective non-zinc binding MMP inhibitors / Santamaria, Salvatore; Nuti, Elisa; Cercignani, Giovanni; La Regina, Giuseppe; Silvestri, Romano; Supuran, Claudiu T.; Rossello, Armando. - In: JOURNAL OF ENZYME INHIBITION AND MEDICINAL CHEMISTRY. - ISSN 1475-6366. - STAMPA. - 30:(2015), pp. 947-954. [10.3109/14756366.2014.1000889]
Kinetic characterization of 4,4′-biphenylsulfonamides as selective non-zinc binding MMP inhibitors
SUPURAN, CLAUDIU TRANDAFIR;
2015
Abstract
We describe the characterisation of a series of 4,4'-biphenylsulfonamides as selective inhibitors of matrix metalloproteases MMP-2 and -13, two enzymes involved in cell invasion and angiogenesis. Double-inhibitor studies in the presence of acetohydroxamic acid show that these molecules do not bind the catalytic zinc. Moreover, two of the characterised inhibitors (11 and 19) act as non-competitive inhibitors, whereas the para-methyl ester derivative 13 behaves as a competitive inhibitor. This finding suggests that this class of molecules binds to a catalytic subsite, possibly the S1'-pocket. Moreover, since these compounds also act as inhibitors of carbonic anhydrases (CAs), another family of enzymes involved in cell invasion, they could be potentially useful as CA/MMP dual target inhibitors with increased efficacy as anticancer agents.
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