Joseph F. Kelleher

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

Resistance of medulloblastoma to Smo antagonists can be delayed or prevented by specific drug combinations. An End Run Against Tumor Resistance Cancer cells are as clever as microbes. Mustering their considerable abilities to rapidly replicate and evolve, both cancer cells and bacteria quickly develop resistance to the drugs we use to fight them. Modern medicine confronts a growing population of pathogens that cannot be treated by our usual antibiotics, and oncologists must be prepared with second- and third-line therapies, because tumors that retreat from initial drug treatments often return with renewed vigor. Buonamici et al. confront this problem in their study of a new class of cancer therapeutic agents now in clinical trials—antagonists of a membrane protein called Smoothened (Smo). The Smo receptor normally regulates a developmental pathway but is abnormally activated in medulloblastoma (a malignant brain tumor) and basal cell carcinoma of the skin. Medulloblastomas in mice respond well to these Smo antagonists but soon become resistant, these authors find. If, however, an inhibitor of the phosphatidylinositol 3-kinase (PI3K) signaling pathway is added to the initial drug cocktail, resistance is delayed or even prevented. In some cancers, the Smo receptor is active even when its ligand is absent, conferring dependence of the tumor on the downstream Hedgehog signaling pathway, which ultimately regulates gene expression through the Gli transcription factors. Treatment of Smo-addicted tumors in mice with Smo antagonists ultimately leads to development of resistance, although tumor growth is inhibited for a while. The authors found that the tumors eluded the drug in several ways: The genes for the Gli transcription factors were sometimes amplified, compensating for loss of pathway stimulation. In other resistant tumors, there were point mutations in the Smo receptor itself that allowed reactivation of the pathway. In yet another group of tumors, by examining which genes were up-regulated, the authors found activation of a completely different signaling pathway—the PI3K pathway. Further experiments in medulloblastoma-bearing mice revealed that resistance could be delayed or even prevented by including a PI3K inhibitor along with the Smo antagonist in the initial treatment that tumor-bearing animals received. The PI3K inhibitor alone had no effect. By looking at resistance mechanisms to Smo antagonists before the drug is used in the clinic, the results of this study will better arm oncologists against the molecular defenses that cancers may commandeer to evade this drug. And by identifying a drug combination that delays or even combats development of resistance when used as a first-line treatment in clinical trials, these results could ultimately improve the lives of patients with medulloblastoma or other cancers that depend on Smo for their survival. The malignant brain cancer medulloblastoma is characterized by mutations in Hedgehog (Hh) signaling pathway genes, which lead to constitutive activation of the G protein (heterotrimeric guanosine triphosphate–binding protein)–coupled receptor Smoothened (Smo). The Smo antagonist NVP-LDE225 inhibits Hh signaling and induces tumor regression in animal models of medulloblastoma. However, evidence of resistance was observed during the course of treatment. Molecular analysis of resistant tumors revealed several resistance mechanisms. We noted chromosomal amplification of Gli2, a downstream effector of Hh signaling, and, more rarely, point mutations in Smo that led to reactivated Hh signaling and restored tumor growth. Analysis of pathway gene expression signatures also, unexpectedly, identified up-regulation of phosphatidylinositol 3-kinase (PI3K) signaling in resistant tumors as another potential mechanism of resistance. Probing the relevance of increased PI3K signaling, we demonstrated that addition of the PI3K inhibitor NVP-BKM120 or the dual PI3K-mTOR (mammalian target of rapamycin) inhibitor NVP-BEZ235 to the initial treatment with the Smo antagonist markedly delayed the development of resistance. Our findings may be useful in informing treatment strategies for medulloblastoma.

Essential role of stromally induced hedgehog signaling in B-cell malignancies

Interaction of cancer cells with their microenvironment generated by stromal cells is essential for tumor cell survival and influences the localization of tumor growth. Here we demonstrate that hedgehog ligands secreted by bone-marrow, nodal and splenic stromal cells function as survival factors for malignant lymphoma and plasmacytoma cells derived from transgenic Eμ-Myc mice or isolated from humans with these malignancies. Hedgehog pathway inhibition in lymphomas induced apoptosis through downregulation of Bcl2, but was independent of p53 or Bmi1 expression. Blockage of hedgehog signaling in vivo inhibited expansion of mouse lymphoma cells in a syngeneic mouse model and reduced tumor mass in mice with fully developed disease. Our data indicate that stromally induced hedgehog signaling may provide an important survival signal for B- and plasma-cell malignancies in vitro and in vivo. Disruption of this interaction by hedgehog pathway inhibition could provide a new strategy in lymphoma and multiple myeloma therapy.

Loss of the tumor suppressor Snf5 leads to aberrant activation of the Hedgehog-Gli pathway

Aberrant activation of the Hedgehog (Hh) pathway can drive tumorigenesis. To investigate the mechanism by which glioma-associated oncogene family zinc finger-1 (GLI1), a crucial effector of Hh signaling, regulates Hh pathway activation, we searched for GLI1-interacting proteins. We report that the chromatin remodeling protein SNF5 (encoded by SMARCB1, hereafter called SNF5), which is inactivated in human malignant rhabdoid tumors (MRTs), interacts with GLI1. We show that Snf5 localizes to Gli1-regulated promoters and that loss of Snf5 leads to activation of the Hh-Gli pathway. Conversely, re-expression of SNF5 in MRT cells represses GLI1. Consistent with this, we show the presence of a Hh-Gli–activated gene expression profile in primary MRTs and show that GLI1 drives the growth of SNF5-deficient MRT cells in vitro and in vivo. Therefore, our studies reveal that SNF5 is a key mediator of Hh signaling and that aberrant activation of GLI1 is a previously undescribed targetable mechanism contributing to the growth of MRT cells.

Topical Treatment of Basal Cell Carcinomas in Nevoid Basal Cell Carcinoma Syndrome with a Smoothened Inhibitor

Basal cell carcinoma (BCC) is a distinctive manifestation in nevoid basal cell carcinoma syndrome (NBCCS) patients. Both inherited and acquired mutations of patched 1 (PTCH1), a tumor-suppressor gene controlling the activity of Smoothened (SMO), are the primary cause of the constitutive activation of the Hedgehog (HH) pathway, leading to the emergence of BCCs in NBCCS. LDE225, a distinct, selective antagonist of SMO, showed potent inhibition of basaloid tumor nest formation and mediated regression of preformed basaloid tumors in organ cultures of skin derived from Ptch1 heterozygous knockout mice. In a double-blind, randomized, vehicle-controlled, intraindividual study, a total of 8 NBCCS patients presenting 27 BCCs were treated twice daily with 0.75% LDE225 cream or vehicle for 4 weeks. Application of 0.75% LDE225 cream was well tolerated and showed no skin irritation. Of 13 LDE225-treated BCCs, 3 showed a complete, 9 a partial, and only 1 no clinical response. Except for one partial response, the vehicle produced no clinical response in any of the 14 treated BCCs. Treatment with 0.75% LDE225 cream in NBCCS patients was very well tolerated and caused BCC regression, thus potentially offering an attractive therapeutic alternative to currently available therapies for this indication.JID JOURNAL CLUB ARTICLE: For questions, answers, and open discussion about this article, please go to http://www.nature.com/jid/journalclub.

1-Amino-4-benzylphthalazines as Orally Bioavailable Smoothened Antagonists with Antitumor Activity

Abnormal activation of the Hedgehog (Hh) signaling pathway has been linked to several types of human cancers, and the development of small-molecule inhibitors of this pathway represents a promising route toward novel anticancer therapeutics. A cell-based screen performed in our laboratories identified a new class of Hh pathway inhibitors, 1-amino-4-benzylphthalazines, that act via antagonism of the Smoothened receptor. A variety of analogues were synthesized and their structure-activity relationships determined. This optimization resulted in the discovery of high affinity Smoothened antagonists, one of which was further profiled in vivo. This compound displayed a good pharmacokinetic profile and also afforded tumor regression in a genetic mouse model of medulloblastoma.

Coordinate activation of Shh and PI3K signaling in PTEN-deficient glioblastoma: new therapeutic opportunities

In glioblastoma, phosphatidylinositol 3-kinase (PI3K) signaling is frequently activated by loss of the tumor suppressor phosphatase and tensin homolog (PTEN). However, it is not known whether inhibiting PI3K represents a selective and effective approach for treatment. We interrogated large databases and found that sonic hedgehog (SHH) signaling is activated in PTEN-deficient glioblastoma. We demonstrate that the SHH and PI3K pathways synergize to promote tumor growth and viability in human PTEN-deficient glioblastomas. A combination of PI3K and SHH signaling inhibitors not only suppressed the activation of both pathways but also abrogated S6 kinase (S6K) signaling. Accordingly, targeting both pathways simultaneously resulted in mitotic catastrophe and tumor apoptosis and markedly reduced the growth of PTEN-deficient glioblastomas in vitro and in vivo. The drugs tested here appear to be safe in humans; therefore, this combination may provide a new targeted treatment for glioblastoma.

Discovery of NVP-LEQ506, a Second-Generation Inhibitor of Smoothened

Inhibition of the Hedgehog (Hh) pathway targeting the Smoothened receptor has proven therapeutic benefit for the treatment of Hh-dependent cancers. Lead optimization provided a novel type of Smoothened inhibitor based on a pyridazine core resulting in the clinical compound NVP-LEQ506. This new agent combines high intrinsic potency and good pharmacokinetic properties resulting in excellent efficacy in preclinical rodent tumor models of medulloblastoma. Activity against a Smo mutant conferring resistance observed in a clinical trial with a competitor compound suggests additional therapeutic potential.

RAS/MAPK activation drives resistance to Smo inhibition, metastasis and tumor evolution in Shh pathway-dependent tumors

Aberrant Shh signaling promotes tumor growth in diverse cancers. The importance of Shh signaling is particularly evident in medulloblastoma and basal cell carcinoma (BCC), where inhibitors targeting the Shh pathway component Smoothened (Smo) show great therapeutic promise. However, the emergence of drug resistance limits long-term efficacy, and the mechanisms of resistance remain poorly understood. Using new medulloblastoma models, we identify two distinct paradigms of resistance to Smo inhibition. Sufu mutations lead to maintenance of the Shh pathway in the presence of Smo inhibitors. Alternatively activation of the RAS-MAPK pathway circumvents Shh pathway dependency, drives tumor growth, and enhances metastatic behavior. Strikingly, in BCC patients treated with Smo inhibitor, squamous cell cancers with RAS/MAPK activation emerged from the antecedent BCC tumors. Together, these findings reveal a critical role of the RAS-MAPK pathway in drug resistance and tumor evolution of Shh pathway-dependent tumors.

Identification and structure–activity relationships of ortho-biphenyl carboxamides as potent Smoothened antagonists inhibiting the Hedgehog signaling pathway

Ortho-biphenyl carboxamides, originally prepared as inhibitors of microsomal triglyceride transfer protein (MTP) have been identified as novel inhibitors of the Hedgehog signaling pathway. Structure-activity relationship studies for this class of compounds reduced MTP inhibitory activity and led to low nanomolar Hedgehog inhibitors. Binding assays revealed that the compounds act as antagonists of Smoothened and show cross-reactivity for both the human and mouse receptor.

A method for estimating the risk of drug-induced phototoxicity and its application to smoothened inhibitors

The energy difference between the frontier-orbital HOMO–LUMO gaps calculated for the ground state of marketed oral drugs correlated with their observed phototoxicity. This molecular descriptor, together with their maximal molar absorptivity for UV light above 290 nm, can be used to predict phototoxicity risks. This is demonstrated for the phototoxicity mitigation of 1-piperazinyl phthalazines, a class of smoothened inhibitors.