Discovery of a potent and orally active hedgehog pathway antagonist (IPI-926).

Recent evidence suggests that blocking aberrant hedgehog pathway signaling may be a promising therapeutic strategy for the treatment of several types of cancer. Cyclopamine, a plant Veratrum alkaloid, is a natural product antagonist of the hedgehog pathway. In a previous report, a seven-membered D-ring semisynthetic analogue of cyclopamine, IPI-269609 (2), was shown to have greater acid stability and better aqueous solubility compared to cyclopamine. Further modifications of the A-ring system generated three series of analogues with improved potency and/or solubility. Lead compounds from each series were characterized in vitro and evaluated in vivo for biological activity and pharmacokinetic properties. These studies led to the discovery of IPI-926 (compound 28), a novel semisynthetic cyclopamine analogue with substantially improved pharmaceutical properties and potency and a favorable pharmacokinetic profile relative to cyclopamine and compound 2. As a result, complete tumor regression was observed in a Hh-dependent medulloblastoma allograft model after daily oral administration of 40 mg/kg of compound 28.

[1]  Stuart L. Schreiber,et al.  A small molecule that binds Hedgehog and blocks its signaling in human cells , 2009, Nature chemical biology.

[2]  S. Peukert,et al.  Identification and structure-activity relationships of ortho-biphenyl carboxamides as potent Smoothened antagonists inhibiting the Hedgehog signaling pathway. , 2009, Bioorganic & medicinal chemistry letters.

[3]  T. Koyano,et al.  Hedgehog/GLI-mediated transcriptional inhibitors from Zizyphus cambodiana. , 2008, Bioorganic & medicinal chemistry.

[4]  James R. Porter,et al.  Semisynthetic cyclopamine analogues as potent and orally bioavailable hedgehog pathway antagonists. , 2008, Journal of medicinal chemistry.

[5]  J. Sydor,et al.  570 POSTER Activity of IPI-926, a novel inhibitor of the HH pathway, in subcutaneous and orthotopically implanted xenograft tumors that express SHH ligand , 2008 .

[6]  M. Mullendore,et al.  An orally bioavailable small-molecule inhibitor of Hedgehog signaling inhibits tumor initiation and metastasis in pancreatic cancer , 2008, Molecular Cancer Therapeutics.

[7]  Hua Tian,et al.  A paracrine requirement for hedgehog signalling in cancer , 2008, Nature.

[8]  Chuo Chen Potent inhibitors of the hedgehog signaling pathway , 2008 .

[9]  A. Maitra,et al.  Targeted inhibition of hedgehog signaling by cyclopamine prodrugs for advanced prostate cancer. , 2008, Bioorganic & medicinal chemistry.

[10]  S. Baylin,et al.  Cooperation between the Hic1 and Ptch1 tumor suppressors in medulloblastoma. , 2008, Genes & development.

[11]  Young‐Tae Chang,et al.  Synthesis and anticancer activity studies of cyclopamine derivatives. , 2008, Bioorganic & medicinal chemistry letters.

[12]  D. Živković,et al.  Chapter 2 . \ Repression of Smoothened by Patched-Dependent ( Pro-) Vitamin D 3 Secretion . , 2008 .

[13]  P. Schultz,et al.  A Small‐Molecule Antagonist of the Hedgehog Signaling Pathway , 2007, Chembiochem : a European journal of chemical biology.

[14]  M. Dean,et al.  Structural analogues of smoothened intracellular loops as potent inhibitors of Hedgehog pathway and cancer cell growth. , 2007, Journal of medicinal chemistry.

[15]  T. Shimokawa,et al.  Inhibition of GLI-mediated transcription and tumor cell growth by small-molecule antagonists , 2007, Proceedings of the National Academy of Sciences.

[16]  S. Nelson,et al.  Oxysterols Are Novel Activators of the Hedgehog Signaling Pathway in Pluripotent Mesenchymal Cells* , 2007, Journal of Biological Chemistry.

[17]  R. Govindan,et al.  Hedgehog signaling pathway and lung cancer. , 2007, Journal of thoracic oncology : official publication of the International Association for the Study of Lung Cancer.

[18]  Lee L. Rubin,et al.  Targeting the Hedgehog pathway in cancer , 2006, Nature Reviews Drug Discovery.

[19]  Z. Tümer,et al.  Hedgehog signaling in small-cell lung cancer: frequent in vivo but a rare event in vitro. , 2006, Lung cancer.

[20]  T. Curran,et al.  Shh pathway activity is down-regulated in cultured medulloblastoma cells: implications for preclinical studies. , 2006, Cancer research.

[21]  A. R. I. Altaba Hedgehog-gli signaling in human disease , 2006 .

[22]  P. Walsh Hedgehog signalling in prostate regeneration, neoplasia and metastasis. , 2005, The Journal of urology.

[23]  P. Sánchez,et al.  In vivo inhibition of endogenous brain tumors through systemic interference of Hedgehog signaling in mice , 2005, Mechanisms of Development.

[24]  M. Grachtchouk,et al.  Sustained Hedgehog signaling is required for basal cell carcinoma proliferation and survival: conditional skin tumorigenesis recapitulates the hair growth cycle. , 2005, Genes & development.

[25]  David M. Berman,et al.  Tissue repair and stem cell renewal in carcinogenesis , 2004, Nature.

[26]  Frank McCormick,et al.  Activation of the hedgehog pathway in advanced prostate cancer , 2004, Molecular Cancer.

[27]  Masatoshi Nomura,et al.  Hedgehog Signaling Pathway is a New Therapeutic Target for Patients with Breast Cancer , 2004, Cancer Research.

[28]  M. Datta,et al.  Inhibition of prostate cancer proliferation by interference with SONIC HEDGEHOG-GLI1 signaling. , 2004, Proceedings of the National Academy of Sciences of the United States of America.

[29]  Lawrence Lum,et al.  The Hedgehog Response Network: Sensors, Switches, and Routers , 2004, Science.

[30]  Marina Pasca di Magliano,et al.  Hedgehog signalling in cancer formation and maintenance , 2003, Nature Reviews Cancer.

[31]  Gregory Y. Lauwers,et al.  Hedgehog is an early and late mediator of pancreatic cancer tumorigenesis , 2003, Nature.

[32]  Yutaka Shimada,et al.  Widespread requirement for Hedgehog ligand stimulation in growth of digestive tract tumours , 2003, Nature.

[33]  Stephen B. Baylin,et al.  Hedgehog signalling within airway epithelial progenitors and in small-cell lung cancer , 2003, Nature.

[34]  H. Wichterle,et al.  Small-molecule modulators of Hedgehog signaling: identification and characterization of Smoothened agonists and antagonists , 2002, Journal of biology.

[35]  Jussi Taipale,et al.  Inhibition of Hedgehog signaling by direct binding of cyclopamine to Smoothened. , 2002, Genes & development.

[36]  Jussi Taipale,et al.  Small molecule modulation of Smoothened activity , 2002, Proceedings of the National Academy of Sciences of the United States of America.

[37]  James M. Olson,et al.  Medulloblastoma Growth Inhibition by Hedgehog Pathway Blockade , 2002, Science.

[38]  A. Bale,et al.  The hedgehog pathway and basal cell carcinomas. , 2001, Human molecular genetics.

[39]  M. Scott,et al.  Hedgehog and Patched in Neural Development and Disease , 1998, Neuron.

[40]  N. Dahmane,et al.  Activation of the transcription factor Gli1 and the Sonic hedgehog signalling pathway in skin tumours , 1997, Nature.

[41]  H. Bull,et al.  4,7 beta-Dimethyl-4-azacholestan-3-one (MK-386) and related 4-azasteroids as selective inhibitors of human type 1 5 alpha-reductase. , 1994, Journal of medicinal chemistry.

[42]  J. R. Brooks,et al.  Azasteroids as inhibitors of rat prostatic 5 alpha-reductase. , 1984, Journal of medicinal chemistry.

[43]  J. Suzuki,et al.  Highly stereoselective hydrogenation of 3-oxo-4-ene and -1,4-diene steroids to 5.beta. compounds with palladium catalyst , 1980 .

[44]  R. Keeler,et al.  Teratogenic compounds of veratrum californicum (durand) - VI , 1969 .

[45]  A. Shroff,et al.  3-Aza-A-homoandrostenes. , 1969, Journal of medicinal chemistry.

[46]  G. Ohta,et al.  Investigations on Steroids. XI. Synthesis of Steroidal Oxazole, Imidazole, and Triazole , 1968 .

[47]  R. Keeler,et al.  Teratogenic compounds of Veratrum californicum (Durand). V. Comparison of cyclopian effects of steroidal alkaloids from the plant and structurally related compounds from other sources. , 1968, Teratology.

[48]  I. Yamazaki,et al.  Syntheses and NMR spectra of 22,27-imino-17,23-oxidojervane derivatives , 1967 .

[49]  H. Mrozik,et al.  HETEROCYCLIC STEROIDS IN THE ANTIINFLAMMATORY SERIES. , 1964, Journal of medicinal chemistry.

[50]  R. Mazur Azasteroids. III.1 3-Aza-A-homo Androgens , 1963 .

[51]  R. L. Clarke,et al.  Steroidal Heterocycles. VI.1 Formylation of A/B-cis 3-Ketosteroids.2 Preparation of 5β-Steroidal[3,2-c]pyrazoles , 1962 .