New, small molecule Hedgehog (Hh) pathway inhibitors, such as the furanoditerpenoid taepeenin D, are of high medicinal importance. To establish key structure-activity relationships (SARs) for this lead, a synthetic sequence has been developed for the expedient preparation of several derivatives and their evaluation as Hh inhibitors exploiting its structural similarity to abietic acid. While C(14) substitution is not essential for biological activity, the presence of a hydrogen bond acceptor at C(6) and an intact benzofuran moiety are.
Pegylated DOX-C60 conjugates (1:1) and (2:1) with well-defined structure were successfully synthesized and found to exhibit comparable, but with a delayed onset, antiproliferative activity with free DOX against MCF-7 cancer cells. The results obtained justify further investigation of the potential of these conjugates as anticancer nanomedicines.
The
enzyme 3-mercaptopyruvate sulfurtransferase (3-MST) is one
of the more recently identified mammalian sources of H2S. A recent study identified several novel 3-MST inhibitors with
micromolar potency. Among those, (2-[(4-hydroxy-6-methylpyrimidin-2-yl)sulfanyl]-1-(naphthalen-1-yl)ethan-1-one)
or HMPSNE was found to be the most potent and selective. We now took
the central core of this compound and modified the pyrimidone and
the arylketone sides independently. A 63-compound library was synthesized;
compounds were tested for H2S generation from recombinant
3-MST in vitro. Active compounds were subsequently tested to elucidate
their potency and selectivity. Computer modeling studies have delineated
some of the key structural features necessary for binding to the 3-MST’s
active site. Six novel 3-MST inhibitors were tested in cell-based
assays: they exerted inhibitory effects in murine MC38 and CT26 colon
cancer cell proliferation; the antiproliferative effect of the compound
with the highest potency and best cell-based activity (1b) was also confirmed on the growth of MC38 tumors in mice.
Recently the structure of BAY58-2667 bound to the Nostoc sp. H-NOX domain was published. Based on this structural information, we designed BAY58-2667 derivatives and tested their effects on soluble guanylyl cyclase (sGC) activity. Derivative 20 activated sGC 4.8-fold more than BAY 58-2667. Co-crystalization of 20 with the Ns H-NOX domain revealed that the increased conformational distortion at the C-terminal region of αF helix containing 110-114 residues contributes to the higher activation triggered by 20.
SummaryThe chemical synthesis of carbacyclopamine analog 2, a cyclopamine analog with an all-carbon E-ring, is reported. The use of C–H-functionalization logic and further metal-catalyzed transformations allows for a concise entry to this new class of acid-stable cyclopamine analogs.
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