Maria Vilenchik scite author profile

Notch signaling is an area of great interest in oncology. RO4929097 is a potent and selective inhibitor of γ-secretase, producing inhibitory activity of Notch signaling in tumor cells. The RO4929097 IC50 in cell-free and cellular assays is in the low nanomolar range with >100-fold selectivity with respect to 75 other proteins of various types (receptors, ion channels, and enzymes). RO4929097 inhibits Notch processing in tumor cells as measured by the reduction of intracellular Notch expression by Western blot. This leads to reduced expression of the Notch transcriptional target gene Hes1. RO4929097 does not block tumor cell proliferation or induce apoptosis but instead produces a less transformed, flattened, slower-growing phenotype. RO4929097 is active following oral dosing. Antitumor activity was shown in 7 of 8 xenografts tested on an intermittent or daily schedule in the absence of body weight loss or Notch-related toxicities. Importantly, efficacy is maintained after dosing is terminated. Angiogenesis reverse transcription-PCR array data show reduced expression of several key angiogenic genes. In addition, comparative microarray analysis suggests tumor cell differentiation as an additional mode of action. These preclinical results support evaluation of RO4929097 in clinical studies using an intermittent dosing schedule. A multicenter phase I dose escalation study in oncology is under way.

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Targeting Wide-Range Oncogenic Transformation via PU24FCl, a Specific Inhibitor of Tumor Hsp90

Vilenchik

Solit

Basso

et al. 2004

Chemistry & Biology

168

153

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Agents that inhibit Hsp90 function hold significant promise in cancer therapy. Here we present PU24FCl, a representative of the first class of designed Hsp90 inhibitors. By specifically and potently inhibiting tumor Hsp90, PU24FCl exhibits wide-ranging anti-cancer activities that occur at similar doses in all tested tumor types. Normal cells are 10- to 50-fold more resistant to these effects. Its Hsp90 inhibition results in multiple anti-tumor-specific effects, such as degradation of Hsp90-client proteins involved in cell growth, survival, and specific transformation, inhibition of cancer cell growth, delay of cell cycle progression, induction of morphological and functional changes, and apoptosis. In concordance with its higher affinity for tumor Hsp90, in vivo PU24FCl accumulates in tumors while being rapidly cleared from normal tissue. Concentrations achieved in vivo in tumors lead to single-agent anti-tumor activity at non-toxic doses.

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Selective compounds define Hsp90 as a major inhibitor of apoptosis in small-cell lung cancer

et al. 2007

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The heat shock protein 90 (Hsp90) has a critical role in malignant transformation. Whereas its ability to maintain the functional conformations of mutant and aberrant oncoproteins is established, a transformation-specific regulation of the antiapoptotic phenotype by Hsp90 is poorly understood. By using selective compounds, we have discovered that small-cell lung carcinoma is a distinctive cellular system in which apoptosis is mainly regulated by Hsp90. Unlike the well-characterized antiapoptotic chaperone Hsp70, Hsp90 is not a general inhibitor of apoptosis, but it assumes this role in systems such as small-cell lung carcinoma, in which apoptosis is uniquely dependent on and effected through the intrinsic pathway, without involvement of caspase elements upstream of mitochondria or alternate pathways that are not apoptosome-channeled. These results provide important evidence for a transformation-specific interplay between chaperones in regulating apoptosis in malignant cells.

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Maria Vilenchik

Hsp90: the vulnerable chaperone

Preclinical Profile of a Potent γ-Secretase Inhibitor Targeting Notch Signaling with In vivo Efficacy and Pharmacodynamic Properties

Targeting Wide-Range Oncogenic Transformation via PU24FCl, a Specific Inhibitor of Tumor Hsp90

Selective compounds define Hsp90 as a major inhibitor of apoptosis in small-cell lung cancer

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