It is reported that Ga(OTf)(3) catalyzes the direct displacement of alcohols with sulfur nucleophiles. The products are versatile intermediates that can be utilized in carbon-carbon, carbon-sulfur bond formation or used in modified Julia olefination reactions. The only byproduct generated is water.
The deubiquitinase USP7 regulates the levels of multiple proteins with roles in cancer progression and immune response. Thus, USP7 inhibition may decrease oncogene function, increase tumor suppressor function, and sensitize tumors to DNA-damaging agents. We have discovered a novel chemical series that potently and selectively inhibits USP7 in biochemical and cellular assays. Our inhibitors reduce the viability of multiple TP53 wild-type cell lines, including several hematologic cancer and MYCN-amplified neuroblastoma cell lines, as well as a subset of TP53-mutant cell lines in vitro. Our work suggests that USP7 inhibitors upregulate transcription of genes normally silenced by the epigenetic repressor complex, polycomb repressive complex 2 (PRC2), and potentiate the activity of PIM and PI3K inhibitors as well as DNA-damaging agents. Furthermore, oral administration of USP7 inhibitors inhibits MM.1S (multiple myeloma; TP53 wild type) and H526 (small cell lung cancer; TP53 mutant) tumor growth in vivo. Our work confirms that USP7 is a promising, pharmacologically tractable target for the treatment of cancer.
USP7
is a promising target for cancer therapy as its inhibition
is expected to decrease function of oncogenes, increase tumor suppressor
function, and enhance immune function. Using a structure-based drug
design strategy, a new class of reversible USP7 inhibitors has been
identified that is highly potent in biochemical and cellular assays
and extremely selective for USP7 over other deubiquitinases. The succinimide
was identified as a key potency-driving motif, forming two strong
hydrogen bonds to the allosteric pocket of USP7. Redesign of an initial
benzofuran-amide scaffold
yielded a simplified ether series of inhibitors, utilizing acyclic
conformational control to achieve proper amine placement. Further
improvements were realized upon replacing the ether-linked amines
with carbon-linked morpholines, a modification motivated by free energy
perturbation (FEP+) calculations. This led to the discovery of compound 41, a highly potent, selective, and orally bioavailable USP7
inhibitor. In xenograft studies, compound 41 demonstrated
tumor growth inhibition in both p53 wildtype and p53 mutant cancer
cell lines, demonstrating that USP7 inhibitors can suppress tumor
growth through multiple different pathways.
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