Literature DB >> 19888758

Multidentate small-molecule inhibitors of vaccinia H1-related (VHR) phosphatase decrease proliferation of cervix cancer cells.

Shuangding Wu1, Sofie Vossius, Souad Rahmouni, Ana V Miletic, Torkel Vang, Jesus Vazquez-Rodriguez, Fabio Cerignoli, Yutaka Arimura, Scott Williams, Tikva Hayes, Michel Moutschen, Stefan Vasile, Maurizio Pellecchia, Tomas Mustelin, Lutz Tautz.   

Abstract

Loss of VHR phosphatase causes cell cycle arrest in HeLa carcinoma cells, suggesting that VHR inhibition may be a useful approach to halt the growth of cancer cells. We recently reported that VHR is upregulated in several cervix cancer cell lines as well as in carcinomas of the uterine cervix. Here we report the development of multidentate small-molecule inhibitors of VHR that inhibit its enzymatic activity at nanomolar concentrations and exhibit antiproliferative effects on cervix cancer cells. Chemical library screening was used to identify hit compounds, which were further prioritized in profiling and kinetic experiments. SAR analysis was applied in the search for analogs with improved potency and selectivity, resulting in the discovery of novel inhibitors that are able to interact with both the phosphate-binding pocket and several distinct hydrophobic regions within VHR's active site. This multidentate binding mode was confirmed by X-ray crystallography. The inhibitors decreased the proliferation of cervix cancer cells, while growth of primary normal keratinocytes was not affected. These compounds may be a starting point to develop drugs for the treatment of cervical cancer.

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Year:  2009        PMID: 19888758      PMCID: PMC2790023          DOI: 10.1021/jm901016k

Source DB:  PubMed          Journal:  J Med Chem        ISSN: 0022-2623            Impact factor:   7.446


  30 in total

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6.  Oncogenic ras provokes premature cell senescence associated with accumulation of p53 and p16INK4a.

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  17 in total

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6.  Allosteric Impact of the Variable Insert Loop in Vaccinia H1-Related (VHR) Phosphatase.

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8.  Design and NMR studies of cyclic peptides targeting the N-terminal domain of the protein tyrosine phosphatase YopH.

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9.  Structure of human dual-specificity phosphatase 7, a potential cancer drug target.

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10.  Inhibition of the Hematopoietic Protein Tyrosine Phosphatase by Phenoxyacetic Acids.

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