Stefan Peukert scite author profile

Mutations in Hedgehog (Hh) pathway genes, leading to constitutive activation of Smoothened (Smo), occur in medulloblastoma. Antagonists of Smo induce tumor regression in mouse models of medulloblastoma and hold great promise for treating this disease. However, acquired resistance has emerged as a challenge to targeted therapeutics and may limit their anti-cancer efficacy. Here, we describe novel mechanisms of acquired resistance to Smo antagonists in medulloblastoma. NVP-LDE225, a potent and selective Smo antagonist, inhibits Hh signaling and induces tumor regressions in allograft models of medulloblastoma that are driven by mutations of Patched (Ptch), a tumor suppressor in the Hh pathway. However, evidence of resistance was observed during the course of treatment. Molecular analysis of resistant tumors revealed distinct resistance mechanisms. Chromosomal amplification of Gli2, a downstream effector of Hh signaling, or more rarely point mutations in Smo led to reactivated Hh signaling and restored tumor growth. Unexpectedly, analysis of pathway gene-expression signatures selectively deregulated in resistant tumors identified increased phosphoinositide 3-kinase (PI3K) signaling as another potential resistance mechanism. Probing the functional relevance of increased PI3K signaling, we demonstrated that the combination of NVP-LDE225 with the PI3K class I inhibitor NVP-BKM120 or the dual PI3K/mTOR inhibitor NVP-BEZ235 markedly delayed the development of resistance. Our findings have important clinical implications for future treatment strategies in medulloblastoma.

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Discovery of NVP-LDE225, a Potent and Selective Smoothened Antagonist

Pan

Jiang

et al. 2010

ACS Med. Chem. Lett.

298

236

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The blockade of aberrant hedgehog (Hh) signaling has shown promise for therapeutic intervention in cancer. A cell-based phenotypic highthroughput screen was performed, and the lead structure (1) was identified as an inhibitor of the Hh pathway via antagonism of the Smoothened receptor (Smo). Structure-activity relationship studies led to the discovery of a potent and specific Smoothened antagonist N-(6-((2S,6R)-2,6-dimethylmorpholino)pyridin-3-yl)-2-methyl-4 0 -(trifluoromethoxy)biphenyl-3-carboxamide (5m, NVP-LDE225), which is currently in clinical development.

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Small‐Molecule Inhibitors of the Hedgehog Signaling Pathway as Cancer Therapeutics

Peukert¹,

2010

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Inhibitors of the Hedgehog (Hh) molecular signaling pathway have emerged in recent years as a promising new class of potential therapeutics for cancer treatment. Numerous drug discovery efforts have resulted in the identification of a wide variety of small molecules that target different members of this pathway, including Smoothened (Smo), Sonic hedgehog protein (Shh), and Gli1. Several Smo inhibitors have now entered human clinical trials, and successful proof‐of‐concept studies have been carried out in patients with defined genetic mutations in the Hh pathway. This review provides a general overview of three main topics in this rapidly expanding area: 1) the various types of biological assays and in vivo models that have been employed for the identification and optimization of Hh pathway inhibitors; 2) Smo inhibitors reported to date, including recent clinical results where available; and 3) efforts toward the identification and characterization of inhibitors of other members of the Hh pathway.

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Discovery of LSZ102, a Potent, Orally Bioavailable Selective Estrogen Receptor Degrader (SERD) for the Treatment of Estrogen Receptor Positive Breast Cancer

Tria¹,

Abrams²,

Baird³

et al. 2018

J. Med. Chem.

115

105

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In breast cancer, estrogen receptor alpha (ERα) positive cancer accounts for approximately 74% of all diagnoses, and in these settings, it is a primary driver of cell proliferation. Treatment of ERα positive breast cancer has long relied on endocrine therapies such as selective estrogen receptor modulators, aromatase inhibitors, and selective estrogen receptor degraders (SERDs). The steroid-based anti-estrogen fulvestrant (5), the only approved SERD, is effective in patients who have not previously been treated with endocrine therapy as well as in patients who have progressed after receiving other endocrine therapies. Its efficacy, however, may be limited due to its poor physicochemical properties. We describe the design and synthesis of a series of potent benzothiophene-containing compounds that exhibit oral bioavailability and preclinical activity as SERDs. This article culminates in the identification of LSZ102 (10), a compound in clinical development for the treatment of ERα positive breast cancer.

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Design and structure–activity relationships of potent and selective inhibitors of undecaprenyl pyrophosphate synthase (UPPS): Tetramic, tetronic acids and dihydropyridin-2-ones

Peukert¹,

Sun²,

Zhang³

et al. 2008

Bioorganic & Medicinal Chemistry Letters

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Stefan Peukert

Interfering with Resistance to Smoothened Antagonists by Inhibition of the PI3K Pathway in Medulloblastoma

Discovery of NVP-LDE225, a Potent and Selective Smoothened Antagonist

Small‐Molecule Inhibitors of the Hedgehog Signaling Pathway as Cancer Therapeutics

Discovery of LSZ102, a Potent, Orally Bioavailable Selective Estrogen Receptor Degrader (SERD) for the Treatment of Estrogen Receptor Positive Breast Cancer

Design and structure–activity relationships of potent and selective inhibitors of undecaprenyl pyrophosphate synthase (UPPS): Tetramic, tetronic acids and dihydropyridin-2-ones

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