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Chair of Children’s Oncology Group (COG) discusses career, drug development

Host Dr Tim Cripe of  ”This Week in Pediatric Oncology” podcast interviews Dr Peter Adamson, new COG Chair. Co-hosts for this episode are Dr Jim Geller, Dr Raj Nagarajan, and Dr Lionel Chow. This conversation includes Dr Adamson’s background and interest in pediatric oncology, and openly addresses the much-needed advances in drug development for pediatric tumors that are distinct from adult tumors.  On the heels of the remarkable ch14.18 development story in neuroblastoma, Dr Adamson explains the need for a “virtual” drug company that consists of a public-private partnership to develop drugs in a similar narrow venue, which is underway.

Reference:

Making Better Drugs for Children with Cancer. Institute of Medicine Consensus Report. Peter C. Adamson, Susan L. Weiner, Joseph V. Simone, and Hellen Gelband, Editors. April 18, 2005

Background:

Dr Adamson was elected by principal investigators of more than 200 Children’s Oncology Group sites. COG includes more than 5,000 experts in childhood cancer at leading children’s hospitals, universities and cancer centers across North America, Australia, New Zealand and Europe.

In 1999 Dr. Adamson came to The Children’s Hospital of Philadelphia (CHOP) from the National Cancer Institute (NCI), and is the director of Clinical and Translational Research and chief of the Division of Clinical Pharmacology and Therapeutics at Children’s Hospital. He also is a professor of Pediatrics and Pharmacology at the University of Pennsylvania School of Medicine. He remains on the staff of Children’s Hospital and on the Penn faculty while serving as Children’s Oncology Group chair.

Dr. Adamson’s previous roles at COG include leading the 21-site phase 1 consortium. During the eight years that Dr. Adamson led this effort, the collaborating sites conducted more than 25 studies designed to test the safety of novel anticancer drugs.

Says Dr Adamson, “I hope to fully leverage the emerging discoveries being made at a rapid pace by transforming how research moves from the bench to the bedside in a very large collaboration.”

Dr. Adamson received his MD from Cornell University and completed his residency at CHOP in 1987. He then spent 10 years at the NCI where he finished his fellowship in Pediatric Hematology/Oncology and Biotechnology, and worked as an investigator and an attending physicians before coming to CHOP.

Please send questions or comments to twipo@solvingkidscancer.org

The American Association for Cancer Research (AACR) is the oldest and largest scientific organization in the world focused on every facet of cancer research. AACR was founded in 1907 by 11 physicians and scientists interested in research with the goal to “to further the investigation and spread the knowledge of cancer.” Since then, the AACR has grown to 33,000 members and publishes seven peer-reviewed journals: Cancer Research; Clinical Cancer Research; Molecular Cancer Therapeutics; Molecular Cancer Research; Cancer Epidemiology, Biomarkers & Prevention; and Cancer Prevention Research, and launched a new journal in 2010, Cancer Discovery.

AACR’s mission is to accelerates progress toward the prevention and cure of cancer by promoting research, education, communication, and collaboration.

The 102nd Annual Meeting 2011 begins April 2 in Orlando FL and will feature over 6000 abstracts presented by basic science, translational, and clinical researchers. Over 17,000 attendees and presenters will learn in a variety of settings: plenary lectures, symposia, minisymposia, workshops, poster sessions, and other formats.

A selection of neuroblastoma-related presentations

Several presentations and posters on neuroblastoma are of interest. Click on the title to see the abstract on AACR site.

4336/4 – Oncolytic reovirus as a novel therapy for neuroblastoma Amelia Kellar, Nicole Redding, Karen Blote, Qiao Shi, Jason Spurrell, Paul Beaudry, Don Morris. University of Calgary, Calgary, AB, Canada Poster Session

4340/8 – Sorafenib induces growth arrest and apoptosis in neuroblastoma cells via inhibition of JAK2/STAT3 and MEK1/2/MAPK (p44/42) signaling pathways Fan Yang¹, Veronica Jove¹, Ralf Buettner¹, Hong Xin¹, Sangkil Nam¹, Tasnim Ara², Yves A. DeClerck², Robert C. Seeger², Hua Yu¹, Richard Jove¹. ¹City of Hope, Duarte, CA; ²The Saban Research Institute of Children’s Hospital Los Angeles, Los Angeles, CA Poster Session

4346/14 – Differential response of a novel protein kinase C-iota inhibitor (ICA-1) on neuroblastoma cells Prajit P. Pillai, Mildred Acevedo-Duncan. Univ. of South Florida, Tampa, FL Poster Session

954 – ABCC/MRP multidrug transporters contribute to neuroblastoma biology, pathogenesis and clinical outcome, independently of any role in cytotoxic drug efflux Murray D. Norris¹, Michelle J. Henderson¹, Antonio Porro², Marcia Munoz¹, Nunzio Iraci², Chengyuan Xue¹, Jayne Murray¹, Claudia Flemming¹, Jamie Fletcher¹, Samuele Gherardi², Alan Kwek¹, Amanda Russell¹, Wendy B. London³, Allen B. Buxton³, Lesley Ashton¹, Alan C. Sartorelli⁴, Susan L. Cohn⁵, Manfred Schwab⁶, Glenn M. Marshall¹, Giovanni Perini², Michelle Haber¹. ¹Children’s Cancer Institute Australia, Sydney, Australia; ²University of Bologna, Bologna, Italy; ³University of Florida and Children’s Oncology Group Statistics and Data Center, Gainesville, FL; ⁴Yale University School of Medicine, New Haven, CT; ⁵University of Chicago, Chicago, IL; ⁶German Cancer Research Center, Heidelberg, Germany Minisymposium

4758 – Inhibition of checkpoint kinase 1 (Chk1) as a potential therapeutic for pediatric neuroblastoma Mike R. Russell, Kristina A. Cole, John M. Maris. Children’s Hospital of Philadelphia, Philadelphia, PA Minisymposium

LB-312/3 – Methylated RASSF1a is the first specific DNA marker for minimal residual disease testing in neuroblastoma Janine Stutterheim, Fatima Ait Ichou, Emmy Den Ouden, Rogier Versteeg, Huib N. Caron, Godelieve A.M. Tytgat, C. Ellen Van der Schoot. Sanquin, Amsterdam, Netherlands, Academic Medical Center, Amsterdam, Netherlands

4563/5 – Antibody targeting of anaplastic lymphoma kinase induces cytotoxicity of human neuroblastoma Erica L. Carpenter¹, Elizabeth A. Haglund¹, Adrian K. Chow¹, Andrew C. Wood¹, Lili T. Belcastro¹, James G. Christensen², Marc Vigny³, John M. Maris¹, Mark A. Lemmon⁴, Yael P. Mosse¹. ¹Children’s Hospital of Philadelphia, Philadelphia, PA; ²Pfizer Global Research and Development, La Jolla, CA; ³INSERM, Paris, France; ⁴University of Pennsylvania, Philadelphia, PA Poster Session

LB-366/11 – Patient-derived EBV-immortalized B-lymphocytes are a dominant contaminant of in vitro cultured human neuroblastoma tumor-initiating cells isolated from bone marrow. Sven Påhlman, Sofie A. Johnsson, Alexander Pietras, Caroline Wigerup, Ingrid Øra, Michael Andäng, Kenneth Nilsson, Tor Olofsson, David Gisselsson. Lund Univ., Malmö, Sweden, Lund Univ., Lund, Sweden, Karolinska Institute, Stockholm, Sweden, Uppsala Univ., Uppsala, Sweden Late-Breaking Poster Session

742/26 – Mechanisms of resistance to small molecule inhibition of anaplastic lymphoma kinase in human neuroblastoma Erica L. Carpenter¹, Elizabeth A. Haglund¹, Adrian K. Chow¹, James G. Christensen², John M. Maris¹, Yael P. Mosse¹. ¹Children’s Hospital of Philadelphia, Philadelphia, PA; ²Pfizer Global Research and Development, La Jolla, CA Poster Session

3942/29 – A pilot trial testing the feasibility of using molecular-guided therapy in patients with refractory or recurrent neuroblastoma Giselle L. Saulnier Sholler¹, Javed Kahn², William Ferguson³, Genvieve Bergendahl¹, Erika Currier¹, Shannon Lenox¹, Jeffrey Bond¹, William Roberts⁴, Deanna Mitchell⁵, Don Eslin⁶, Jacqueline Kraveka⁷, Joel Kaplan⁸, Nehal Parikh⁹, Suman Malempati¹⁰, Gina Hanna¹¹, Barton Kamen¹², Craig Webb¹³. ¹University of Vermont, Burlington, VT; ²National Institute of Health, Bethesda, MD; ³St. Louis University School of Medicine, St. Louis, MO; ⁴University of California San Diego School of Medicine, San Diego, CA; ⁵Michigan State University, Grand Rapids, MI; ⁶MD Anderson Cancer Center Orlando, Orlando, FL; ⁷Medical University of South Carolina, Charleston, SC; ⁸Levine Children’s Hospital, Charlotte, NC; ⁹Connecticut Children’s Medical Center, Hartford, CT; ¹⁰Oregon Health & Science University, Portland, OR; ¹¹Inova Fairfax Hospital for Children and Women, Falls Church, VA; ¹²Cancer Institute of New Jersey, New Brunswick, NJ; ¹³Van Andel Research Institute, Grand Rapids, MI Poster Session

1558/6 – Paracrine signaling through Mycn enhances tumor-vascular microenvironment in neuroblastoma Yvan H. Chanthery, W. Clay Gustafson, William A. Weiss. UCSF, San Francisco, CA Poster Session

4350/18 – Translating diagnostic gene expression profiles for pediatric solid tumors Daniel H. Wai¹, Michele R. Wing², Kelley Kneile², Yvonne Moyer², Jonathan D. Buckley³, Robert C. Seeger⁴, Douglas S. Hawkins⁵, Stephen X. Skapek⁶, Timothy J. Triche⁴. ¹Center for Personalized Medicine, Los Angeles, CA; ²The Research Institute at Nationwide Children’s Hospital, Columbus, OH; ³University of Southern California, Los Angeles, CA; ⁴Children’s Hospital Los Angeles, Los Angeles, CA; ⁵Seattle Children’s Hospital, Seattle, WA; ⁶University of Chicago, Chicago, IL Poster Session

5237/25 – Development of organ-selective neuroblastoma cell lines to identify genes mediating bone marrow and liver colonization Zillan Neiron¹, Kacper Jankowski¹, Jayne Murray¹, Sophia Champion², Murray D. Norris¹, Michelle Haber¹, Jamie I. Fletcher¹. ¹Children’s Cancer Institute Australia, Randwick, NSW, Australia; ²University of New South Wales, Kensington, NSW, Australia Poster Session

130/14 – MiR-204 acts as a tumor suppressor in neuroblastoma through down-regulation of the neurotrophic receptor TrkB Jacqueline M. Ryan¹, Amanda Tivnan¹, Isabella Bray¹, Joanna Fay¹, Andrew M. Davidoff², Lorraine Tracey², Raymond Stallings¹. ¹Royal College of Surgeons in Ireland & National Children’s Research Centre, Dublin, Ireland; ²St. Jude Children’s Research Hospital, Memphis, TN Poster Session

4685 – Mechanistic guidance of ALK inhibition for the treatment of neuroblastoma Scott C. Bresler¹, Andrew Wood², Elizabeth Haglund², James Christensen³, John M. Maris², Mark A. Lemmon¹, Yael P. Mosse². ¹University of Pennsylvania School of Medicine, Philadelphia, PA; ²Children’s Hospital of Philadelphia, Philadelphia, PA; ³Pfizer Inc., La Jolla, CA Minisymposium

1808/28 – Neuroblastoma cell lines established from progressive disease that exhibit partial or multi drug resistance are highly sensitive to chimeric receptor scFv(ch14.18)-zeta mediated NK cell killing Diana Seidel¹, Anastasia Shibina², C. Patrick Reynolds², Winfried S. Wels³, Holger N. Lode¹, Nicole Huebener¹. ¹University Medicine Greifswald, Greifswald, Germany; ²Texas Tech University Health Sciences Center, Lubbock, TX; ³Chemotherapeutisches Forschungsinstitut, Georg-Speyer-Haus, Frankfurt, Germany Poster Session

508/4 – Signal transduction and activator of transcription (STAT) 3 is necessary for environment-mediated drug resistance Tasnim Ara¹, Rie Nakata¹, Hiroyuki Shimada¹, Ralf Buettner², Robert C. Seeger¹, Hua Yu², Richard Jove², Yves A. DeClerck¹. ¹USC/Children’s Hospital Los Angeles, Los Angeles, CA; ²Beckman Research Institute/City of Hope, Duarte, CA Poster Session

926 – Whole genome and transcriptome sequencing defines the spectrum of somatic changes in high-risk neuroblastoma Olena Morozova¹, Inanc Birol¹, Richard Corbett¹, Karen Mungall¹, Edward F. Attiyeh², Shahab Asgharzadeh³, Yongjun Zhao¹, Richard A. Moore¹, Martin Hirst¹, Steven Jones¹, Michael D. Hogarty², Sharon Diskin², Yael P. Mosse², Maura Diamond², Richard Sposto³, Lingyun Ji³, Daniela S. Gerhard⁴, Malcolm A. Smith⁴, Javed Khan⁴, Robert C. Seeger³, Marco A. Marra⁵, John M. Maris², the NCI TARGET Initiative. ¹Genome Sciences Centre, BC Cancer Agency, Vancouver, BC, Canada; ²Children’s Hospital of Philadelphia and University of Pennsylvania School of Medicine, Philadelphia, PA; ³Children’s Hospital of Los Angeles and Keck School of Medicine, University of Southern California, Los Angeles, CA; ⁴National Cancer Institute, Bethesda, MD; ⁵Genome Sciences Centre, BC Cancer Agency and Department of Medical Genetics, University of British Columbia, Vancouver, BC, Canada Minisymposium

1800/20 – 4-HPR (fenretinide) sensitizes human neuroblastoma cells for antibody-independent and ch14.18-mediated NK cell killing Anastasia Shibina¹, Diana Seidel², Srinivas Somanchi³, Holger N. Lode², Dean A. Lee³, C.Patrick Reynolds¹, Nicole Huebener². ¹Texas Tech Univ. Health Sciences Ctr., Lubbock, TX; ²University Medicine Greifswald, Pediatric Hematology/Oncology, Greifswald, Germany; ³The University of Texas MD Anderson Cancer Center, Houston, TX Poster Session

1423/15 – Effects of DFMO-based combination therapy in advanced stage neuroblastoma Dana-Lynn T. Koomoa, Ingo Lange, Andre S. Bachmann. University of Hawaii, College of Pharmacy, Hilo, HI Poster Session

TARGET Project Team Highlights: Neuroblastoma Javed Khan. National Insts. of Health, Bethesda, MD NCI/NIH-Sponsored Session

NIH15. The NCI Therapeutically Applicable Research to Generate Effective Treatments (TARGET) Initiative: Using Large-Scale Genomics to Identify Novel Therapeutic Targets for Childhood Cancers

Towards a personalized approach to pediatric cancer management: Neuroblastoma as an example John M. Maris. Children’s Hospital of Philadelphia, Philadelphia, PA Major Symposium
Recent Findings from Genomic Analyses of Tumors

5359/30 – Cytotoxicity of MLN8237 and SAHA in pediatric cancer cell lines Jodi Muscal¹, Kathy Scorsone¹, Jeffrey Ecsedy², Stacey Berg¹. ¹Baylor College of Medicine, Houston, TX; ²Millenium Pharmaceuticals, Inc., Cambridge, MA Poster Session

4756 – Exome sequencing of 81 neuroblastomas identifies a wide diversity of somatic mutation Trevor J. Pugh¹, Michael Lawrence¹, Carrie Sougnez¹, Gad Getz¹, Edward Attiyeh², Michael Hogarty², Sharon Diskin², Mosse Yael², Maura Diamond², Shahab Asgharzadeh³, Richard Sposto³, Jun S. Wei⁴, Thomas Badgett⁴, Wendy B. London⁵, Julie Gastier-Foster⁶, Malcolm A. Smith⁴, Daniela S. Gerhard⁴, Robert Seeger³, Javed Khan⁴, Matthew L. Meyerson¹, John M. Maris², NCI Therapeutically Applicable Research to Generate Effective Treatments (TARGET) Initiative. ¹The Broad Institute of MIT and Harvard, Cambridge, MA; ²Children’s Hospital of Philadelphia, Philadelphia, PA; ³Children’s Hospital of Los Angeles, Los Angeles, CA; ⁴National Cancer Institute, Bethesda, MD; ⁵Dana-Farber Cancer Institute and Children’s Oncology Group Statistic and Data Center, Boston, MA; ⁶Nationwide Children’s Hospital, Columbus, OH Minisymposium

Overview of environment: Mediated drug resistance Yves A. DeClerck. USC/Children’s Hospital Los Angeles, Los Angeles, CA Educational Session

Presentations with implications for neuroblastoma

Antiangiogentic agents

Rakesh Jain, Raghu Kalluri, and Marsha Moses talked about angiogenesis and why metastases are promoted when giving antiangiogenetic agents. The agents create hypoxia in the tumor and an interesting series of experiments they performed support the theory that hypoxia drives metastases. Candidate biomarkers have been proposed SDF1-alpha and receptor CXCR4 to help determine which patients may benefit from antiangiogenetic agents and who should not get these agents. In the second presentation they showed a model of how they induced metastases in mice – providing a better understanding of mechanism so it can be blocked. They can induce metastases with both hypoxia-dependent mechanism and hypoxia-independent mechanism.

Validation of survivin as target

Fieke Lamers (Netherlands) gave an interesting presentation on validation of survivin as therapeutic target. They have a drug YM155 by Astellas pharmaceuticals that suppresses survivin, which is highly expressed in most neuroblastomas. They had 24 NB cell lines, some were resistant to YM155 and they found that cyclosporin will sensitize NB lines that show MDR1 resistance to YM155, and then NB will undergo apoptosis in presence of YM155.

Neuroblastoma bits from November 2010

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NCI featured article on ALK inhibitor Crizotinib

While encouraging responses are being seen in lung cancer patients with ALK mutation, drug resistance is expected to be a problem.

Crizotinib Continues to Show Promise for Some Lung Tumors, Faces Challenge of Drug Resistance

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FDA discusses Crizotinib pediatric trial design

Pediatric Oncology Subcommittee of the Oncologic Drugs Advisory Committee (ODAC) Nov 30, 2010

“If the current COG Phase I/II studies evaluating crizotinib in refractory pediatric solid tumors or ALCL shows promising activity in neuroblastoma, should crizotinib be evaluated in the post-transplant relapsed/refractory setting or should a randomized trial in a less heavily treated population be considered? If the former population (i.e., post-transplant relapsed or refractory) is a more appropriate setting, please discuss whether Progression Free Survival (PFS) is an adequate endpoint.”

Committee discussion questions

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Insight Genetics Awarded Qualifying Therapeutic Discovery Program Grant

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http://www.eurojournals.com/ejsr_40_1_15.pdf

www.eurojournals.com

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Scientific American describes the recent advances in viruses that kill cancer — now available to children this year for the first time –

Cancer Therapy Goes Viral: Progress Is Made Tackling Tumors with Viruses: Scientific American

“A new generation of oncolytic viruses are entering late-stage clinical trials, repurposing smallpox and herpesvirus to take on tough tumors.”

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Search goes on for toxins to kill neuroblastoma

“Luesch is experimenting with toxins—drawn from several species of cyanobacteria—on several types of cancer, including neuroblastoma, a childhood disease that attacks nerve cells. In July 2009, he launched a four-year, $1.2 million NCI-funded study, part of which entails… largazole testing on mice.”

Why Scientists Are Searching for Cures Underwater – Newsweek

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Childhood cancer survival in Australia

“Survival outcomes using the period method for 11903 children diagnosed with cancer between 1983 and 2006 and prevalent at any time between 1997 and 2006. The overall relative survival was 90.4% after 1 year,  79.5% after 5 years and 74.7% after 20 years.”

Population-based survival estimates for childhood cancer in Australia during the period 1997–2006

www.nature.com

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Accutane (cis-retinoic acid or isotretinoin) and depression?

A child with neuroblastoma is far more more often a preschooler than a teen. So the risk of suicide and depression is unlikely with such small children. It is a concern with the few teens and young adults with neuroblastoma on this drug, especially since the dosing is 2 to 10 times higher than what is prescribed for acne, and the lower dose is the basis for all the previous studies looking at incidence of depression and suicide. This small study gives important evidence that the drug may not contribute entirely to increased risk:

Severe Acne Linked to Suicide Risk Even Before Treatment Is Started

cme.medscape.com

In a retrospective Swedish cohort, suicide attempts were associated with severe acne even before treatment with isotretinoin was started.

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New trial for neuroblastoma opens at University of North Carolina – Chapel Hill

Temsirolimus and Valproic Acid in Treating Young Patients With Relapsed Neuroblastoma, Bone Sarcoma, or Soft Tissue Sarcoma

This phase I study will enroll 20 patients age 2 to 18 to determine the maximum tolerated dose of temsirolimus in combination with valproic acid, as well as safety, pharmacokinetics, and progression-free survival. Principal investigator is Dr Julie Blatt.

Valproic acid (VPA) has been used to treat epilepsy for decades. Recent research has show VPA to be a histone deacetylase inhibitor (HDACi), cell cycle modulator, and an antiangiogenetic agent. VPA also induces tumor cell death. Czech researchers published in March 2010 :

Preclinical data suggest that the anticancer effect of chemotherapy is augmented when VPA is used in combination with cytostatics. Besides the effects of pretreatment with HDAC inhibitors, which increases the efficiency of 5-aza-2′-deoxycytidine, VP-16, ellipticine, doxorubicin and cisplatin, pre-exposure to VPA increases the cytotoxicity of topoisomerase II inhibitors. There are two suggested cell death mechanisms caused by potentiation of anticancer drugs by HDAC inhibitors that are neither exclusive nor synergistic. The first involves apoptosis and can be both p53 dependent or independent; the second involves mechanisms other than apoptosis. In resistant chronic myeloid leukemia (CML), VPA restores sensitivity to imatinib. We have demonstrated the synergistic effects of VPA and cisplatin in neuroblastoma cells. VPA can be taken orally, crosses the blood brain barrier and can be used for extended periods.[1]

There are 229 valproic acid clinical trials listed in the NIH database; 68 are recruiting and 26 are for cancer conditions. There are 88 temsirolimus trials currently open to treat cancer.

In 2008 Italian researchers reported on the mechanism of cell death from valproic acid on 2 NB cell lines:

To our knowledge, this is the first demonstration of an HDAC inhibitor-dependent activation of the p53 pathway in neuroblastoma cells known for an abnormal p53 function that is responsible for their resistance to chemotherapy. As a consequence of this ability to restore p53 function, we consider HDAC inhibitors to be a promising class of drugs for the treatment of chemoresistant neuroblastoma tumours.[2]

Temsirolimus is a specific inhibitor of mTOR (mammalian target of rapamycin) and interferes with the synthesis of proteins that regulate proliferation, growth, and survival of tumor cells. FDA approval was granted in 2007 for the treatment of advanced renal cell carcinoma. It was used previously in a frontline NB study at St Jude’s. The NIH clinical trials site currently lists 15 open trials for children with solid tumors using temsirolimus in combination with a wide range of other agents.

There is apparently no published data (or submitted meeting abstracts) in the medical literature for the preclinical work using the combination of temsirolimus and valproic acid on cancer cell lines.

References

1. Curr Drug Targets. 2010 Mar;11(3):361-79. Valproic Acid in the complex therapy of malignant tumors. PMID: 20214599

2. Br J Pharmacol. 2008 Feb;153(4):657-68. Inhibitors of histone deacetylase (HDAC) restore the p53 pathway in neuroblastoma cells. PMID: 18059320 [free fulltext]

New Approaches to Neuroblastoma Therapy (NANT) consortium offers trials for relapsed and refractory neuroblastoma

Dr Kate Matthay spoke at the Children’s Neuroblastoma Cancer Foundation CNCF parent conference in Chicago July 10, 2010, detailing the status of several NANT trials. She mentioned that these trials open and close periodically, so contacting the principal investigator is the best way for an interested parent to get the most current information about the trial.

NANT is a consortium of researchers and investigators that now includes 15 institutions in North America, lead by Dr Kate Matthay (UCSF) and Dr Judith Villablanca (CHLA). NANT was formed in 2000 as a result of National Cancer Institute (NCI) award for a proposal submitted by Dr Robert Seeger.

Current member institutions are:

• C.S. Mott Children’s Hospital, University of Michigan – Ann Arbor, MI
• Children’s Healthcare of Atlanta (CHOA) – Atlanta, Georgia
• Childrens Hospital and Regional Medical Center – Seattle, WA
• Children’s Hospital Boston, Dana-Farber Cancer Institute – Boston, MA
• Childrens Hospital Los Angeles – Los Angeles, CA
• Children’s Hospital Medical Center – Cincinnati, OH
• Childrens Hospital of Philadelphia – Philadelphia, PA
• Cook Children’s Health Care System – Fort Worth, TX
• Hospital for Sick Children – Toronto, Ontario Canada
• Lucile Packard Children’s Hospital – Palo Alto, CA
• Morgan Stanley Children’s Hospital of New York-Presbyterian (Columbia) – New York, NY
• Texas Childrens Cancer Center, Baylor College of Medicine – Houston, TX
• University of California, San Francisco – San Francisco, CA
• University of Chicago Comer Children’s Hospital – Chicago, IL
• University of Wisconsin Comprehensive Cancer Center – Madison, WI

It is significant to note that the core NANT investigators are the ones who conducted the research in the 1990s that established the current global standard of care for neuroblastoma, including the use of stem cell transplant and cis-retinoic acid. The NANT trials that are planned and conducted now for relapsed and refractory neuroblastoma provide the rationale for better future frontline therapies.

Open trials are:

• N99-02: Modulation of Intensive Melphalan (L-PAM) by Buthionine Sulfoximine (BSO) (NSC-326321) and Autologous Stem Cell Support For Recurrent High-Risk Neuroblastoma (NCI 68).
• N2004-03: A Phase I study of intravenous fenretinide in pediatric neuroblastoma.
• N2004-04: A Phase I Study of Fenretinide Lym-X-Sorb^TM (LXS) Oral Powder in Patients with Recurrent or Resistant Neuroblastoma (IND # 68,254)
• N2004-06: Irinotecan and Vincristine with ¹³¹I-MIBG Therapy for Resistant/Relapsed High-Risk Neuroblastoma
• N2007-01: A Phase 2a Study of Ultratrace^TM Iobenguane I 131 in Patients with Relapsed/Refractory High-Risk Neuroblastoma
• N2007-02: A Phase I Study Of Bevacizumab With Bolus And Metronomic Cyclophosphamide And Zoledronic Acid In Children With Recurrent Or Refractory Neuroblastoma
• N2007-03: Vorinostat and MIBG in Recurrent or Resistant Neuroblastoma Patients

Dr Matthay presented an update on NANT drug trials, and Dr Greg Yanik spoke about trials using MIBG radiotherapy.

CEP-701

In her presentation Dr Matthay noted that new NANT trials will focus on the use of approved agents to avoid the unfortunate circumstance when a company decides to drop a new drug because of lack of efficacy in other cancers. This is what happened to CEP-701, a Trk inhibitor, even though it was granted orphan drug status in 2006. In 10 dose levels given to 47 patients no MTD (maximum tolerated dose) was reached. There were 2 partial responses and 9 stable disease in the neuroblastoma relapse/refractory children.

Oral fenretinide, IV fenretinide

A new phase I trial using the oral powder formulation of fenretinide is open for relapsed or refractory children, and those in a second remission are also be eligible. An arm will include the use of the antifungal drug ketoconazole to help raise the plasma levels of fenretinide. A phase I trial using IV fenretinide has also opened, and a video consent explains the trial. The results of the first phase I oral powder was presented at ASCO in 2009, showing 4 complete responses and 6 stable disease in 30 patients.[1]

BSO/Melphalan

As of July this phase I trial accrued 18 patients with dose levels 20-64 mg/m2. The next dose level is 80 mg/m2. Total to be accrued is 30. A video consent explains this study in more detail.

Zometa + Cytoxan

The phase I has been completed and responses are being evaluated. A new phase I has opened that uses intravenous and oral Cytoxan in combination with zometa and Avastin (a humanized antibody that targets VEGF-A or vascular endothelial growth factor A). Since December 2009 6 patients have enrolled.

Vorinostat (SAHA) and cis-retinoic acid

SAHA, approved for lymphoma, is a histone deacetylase inhibitor (HDACi) and slows neuroblastoma growth. It has shown preclinical synergy with cis-retinoic acid.

Aurora A kinase inhibitor

Aurora A kinase inhibitor has shown increased effectiveness against MYCN-amplified cell lines, and NANT is planning to combine this inhibitor with irinotecan and temozolomide in a new trial.

Emphasis on older patients

Neuroblastoma normally affects very young children, but the needs of the small population of adolescents and young adults also require special attention. This is becoming a new focus for NANT, first demonstrated by the raised age limits for NANT trials to 30. Some NANT investigators see a large number of teens and young adults with neuroblastoma.

References

1. J Clin Oncol 27:15s, 2009 (suppl; abstr 10009)

http://online.wsj.com/article/BT-CO-20100714-708425.html

DOW JONES NEWSWIRES

Keryx Biopharmaceuticals Inc. (KERX) said the U.S. Food and Drug Administration has given orphan-drug designation to perifosine, a treatment for cancer including neuroblastoma, or cancer of the nervous system in infants.

Shares of the biopharmaceutical company jumped 13% to $4.04 in recent trading, while U.S.-traded shares of Keryx’s Canadian partner Aeterna Zentaris Inc. (AEZ.T, AEZS) were recently up 10% to $1.20.

The designation was announced three months after the drug received fast-track status, which authorizes an expedited review for drugs that treat serious or life-threatening conditions and that demonstrate the potential to address unmet medical needs.

“The Orphan Drug designation is an important component of our development plan for perifosine in neuroblastoma, an indication where no FDA-approved therapies currently exist,” said Chief Executive Ron Bentsur.

The Orphan Drug Act provides incentives to create therapies for so-called orphan diseases–those that affect fewer than 200,000 Americans. There are about 7,000 such maladies, most of them serious, that have few or no drugs to treat them. Getting an orphan-drug designation opens the door to incentives once the FDA approves a medicine for sale in the U.S., including seven years’ marketing exclusivity and tax breaks.

Bentsur said the company is exploring the next steps for the development, which “we hope, ultimately, could provide a new treatment option for children and infants” suffering with the illnesses.

Perifosine also is in Phase 3 clinical trial for treating refractory advanced colon cancer and multiple myeloma, as well as in Phase 1 and Phase 2 trials for several other tumor types.

-By Jodi Xu, Dow Jones Newswires; 212-416-3037; jodi.xu@dowjones.com

Perifosine is currently offered to neuroblastoma patients (relapsed/refractory pediatric solid tumors) in two trials at Memorial-Sloan Kettering:

http://clinicaltrials.gov/ct2/show/NCT01049841

http://clinicaltrials.gov/ct2/show/NCT00776867

From AP:

Perifosine also has orphan drug status as a colorectal cancer treatment, and the FDA has said it will conduct a faster-than-normal review of the drug in both colorectal cancer and multiple myeloma.

Keryx has the rights to market perifosine in North America. Canadian drugmaker Aeterna Zentaris holds the rights in all other countries except South Korea.

Recap of presentations

I have so much more to report on ASCO and ANR (coming soon), but should share information about this conference first. This year’s conference was exceptional.  The presentations covered a wide range of important topics, and I am convinced the 130 parents in attendance walked away with essential information for their families. This conference is extraordinary in that no rare disease organization provides such a quality forum for education by top experts in the field—for free, including hotel, meals, children’s program, bereavement session, and even transportation costs for those with the greatest need.  I have met attendees from Australia, Turkey, and other nations. This concept is unprecedented, and CNCF president Pat Tallungan works incredibly hard at the challenge to raise funds for this conference every year. CNCF accepts and appreciates donations for this conference (see www.nbhope.org ).

Dr Yanik in particular expressed his amazement at the difficult and insightful questions posed by the parents. I was struck by the contrast I had just seen at the ASCO and ANR meetings. Attendees come in and out during presentations, and often no questions are asked so no discussion ensues. I was amazed at how many researchers travel great distances to give five minute presentations, or just show a poster. The presenters at this conference spoke for at least 30 minutes and appreciated a very attentive audience. The impact is significant in that parents learn first hand from experts about this disease, and are exposed to information about new treatments which can facilitate quick enrollment on trials.

Speakers and topics were:

Susan Cohn ~ Overview of Neuroblastoma and Intermediate Risk Study

Yael Mosse ~  ALK inhibitor, Aurora A Kinase inhibitor, and ABT-751 Update

Giselle Sholler ~  Update on NMTRC Trials

Patrick Reynolds ~ Adult Oncology Connection/Update on Fenretinide trial

Shakeel Modak ~   3F8, NK Cell Therapy, and 8H9 Update

Sandeep Soni ~  Reduced Intensity Allogeneic Transplant

Kate Matthay ~   Overview of NANT trials

Peter Zage ~  3F8/Accutane Randomized Trial (national)

Greg Yanik ~  MIBG Scoring/Ultratrace Trials

Michael Burke ~  Oncolytic Virus Trial

Melissa Alderfer ~   Post Traumatic Stress Syndrome

David Salsberg ~  Neuropsych/learning issues facing NB Children

A few presentations will be covered in each post.

Overview of neuroblastoma and intermediate risk study update

Dr Sue Cohn gave a great overview on neuroblastoma and an update on the current intermediate risk study ANBL0531 (see http://clinicaltrials.gov/ct2/show/NCT00499616 ). This study opened in 2007, is enrolling at 180 locations, and will accrue 395 children. Intermediate risk is a challenging group to design studies for. The numbers are small, with approximately 10-20% of all neuroblastomas diagnosed as intermediate risk. This means there are roughly 100 intermediate risk children diagnosed each year in the US. The past and current studies are complex, with multiple treatment arms depending on tumor characteristics and response to therapy. This study includes 2, 4, or 8 cycles of outpatient (medium dose) chemotherapy, and cis-retinoic acid (Accutane) for some children. The goal is to accurately assign children to the right treatment arm and see if reducing therapy for some children will result in the same overall high survival seen in previous studies.

ALK inhibitor, Aurora A Kinase inhibitor, and ABT-751 updates

Dr Yael Mosse spoke about the research at CHOP (Children’s Hospital of Philadelphia) on ALK mutation and the remarkable speed in which a trial (ADVL0912) was opened to treat children with a drug already available for the mutation in lung cancer. The drug PF-02341066 now has a name, crizotinib. So far 5 children with NB with ALK aberration have been enrolled, and 5 with other diseases.  Dr Mosse shared some of the same information presented at both ASCO and ANR (see previous post on ALK).

The aurora A kinase inhibitor MLN8237 trial COG-ADVL0812 is closed now that the phase I is complete. The data is under review to determine if the drug is active against neuroblastoma for those who enrolled (11 NB children) on the phase I portion of the trial.  If so, the phase II trial will open for neuroblastoma only. In mice, striking synergy is seen with this inhibitor when combined with irinotecan and temozolomide. This combination is planned for an upcoming new NANT (New Approaches to Neuroblastoma Therapy) trial N09-03 directed by Steven DuBois.

A phase II trial of ABT-751 ran from 2007 to 2009 and accrued 91 children. The response data will be released at the fall COG (Children’s Oncology Group) meeting. Right now compassionate access is open at CHOP for second remission.

Significance of abstracts submitted to ASCO

The meeting at ASCO (America Society of Clinical Oncology) provides a prime opportunity for oncologists and other researchers to present results of clinical trials and studies before publication in peer-reviewed journals.

This year ASCO had over 5000 abstracts submitted. Abstracts are reviewed for scientific and practice-changing merit and some are selected for either:

• Poster Discussion (a discussant comments for 15 minutes on up to 10 posters/abstracts)
• Oral Abstract Session (author speaks for 15 minutes on one study), with an expert in the field serving as discussant commenting 15 minutes on up to four Oral Abstracts.

The rest of the abstracts are shown in a the General Poster Session in a great hall where approximately 500 posters are displayed for a 4-hour period. The authors stand by their posters available for one-on-one discussion. This year a new session was added: Trials in Progress Poster Session.

At a higher impact level there are Education Sessions, Special Sessions, Award Lectures, Plenary Sessions, Scientific Sessions, Clinical Science Symposia, and so on for reviewing the state-of-the-art and continuing education.

Why explain this? It helps to understand the level of impact a particular study has by the assigned presentation format. The highest impact studies are the subjects of press releases by ASCO before, during, and after the meeting. Industry sponsors also produce their own press releases. For example, this year a high-impact study revealed the first-ever improvement in survival of melanoma in a phase III study. Last year the early results of the ch14.18 study was a pinnacle abstract of the 2009 meeting. These highlighted studies represent the top 0.2% of all abstracts submitted.

This year, therapy studies specifically focused on neuroblastoma did not rank quite that high, but there were results of some studies that included children with neuroblastoma. Five of the abstracts below were included in the poster discussion session (aurora a kinase inhibitor, lestaurtinib/CEP-701, pemetrexed, perifosine, and temsirolimus). There were 22 posters on the list for a one-hour presentation, so the discussants spoke somewhat generally about trial design and related issues concerning phase I and II trials, rather than specifics of the studies. Brief bits from the abstracts are included in the description, and my comments are in italics.

Results of therapies for neuroblastoma

Phase I trial MLN8237, an oral selective small molecule inhibitor of aurora a kinase. (Mosse et al) J Clin Oncol 28:7s, 2010 (suppl; abstr 9529)

37 patients were enrolled, 32 were evaluable for toxicity, recommended pediatric phase 2 dose and schedule of MLN8237 is 80 mg/m2/d administered once daily for 7 days. No response data reported.

Phase I trial of lestaurtinib for children with refractory neuroblastoma (NB): A New Approach to Neuroblastoma Therapy (NANT) Consortium study. (Minturn et al) J Clin Oncol 28:7s, 2010 (suppl; abstr 9532)

Lestaurtinib, a multi-kinase inhibitor with potent activity against Trk kinases, has demonstrated anti-tumor activity in preclinical models of human NB. 47 patients with recurrent or refractory high-risk neuroblastoma were enrolled, and 10 dose levels explored, two objective responses and 10 patients had prolonged stable disease at dose levels ≥5, (median: 12 cycles) before disease progression (pending review), recommended phase II dose of 120 mg/m²/dose BID, well tolerated in this heavily pre-treated patient group. The author said the manufacturer has no further interest in making this drug.

Phase I trial of oxaliplatin and doxorubicin in children and adolescents with recurrent solid tumors. (Mascarenhas et al) J Clin Oncol 28:7s, 2010 (suppl; abstr 9543)

Responding patients were treated for a maximum of 8 courses, 17 patients were enrolled, objective (≥partial) responses were noted in 3 neuroblastomas and 1 each of osteosarcoma, mixed germ cell tumor, neurofibrosarcoma, thymic neuroendocrine carcinoma and nasopharyngeal carcinoma, 4 patients completed all 8 courses of protocol therapy. Oxaliplatin 105 mg/m² on day 1 combined with doxorubicin 20 mg/m² days 1-3 was the MTD. Significant anti-tumor activity was noted.

Pilot study of the novel chemotherapy regimen of topotecan, ifosfamide, and carboplatin (TIC) in children with refractory/recurrent solid tumors. (Lee at al) J Clin Oncol 28:7s, 2010 (suppl; abstr 9545)

The combination of ifosfamide, carboplatin, and etoposide (ICE) has previously been demonstrated to be an effective regimen in children with recurrent or refractory solid tumors (Cairo et al JPHO, 2001). Substituting topotecan (a Topoisomerase I inhibitor) for etoposide (a Topoisomerase II inhibitor) may be a more efficacious regimen due to the cytotoxic activity of topotecan in pediatric solid tumor xenografts, as well as its in vitro synergistic activity with platinum and alkylating agents. 14 patients (3-18 yrs) with relapsed/refractory disease (Wilms 2; osteosarcoma 2; germ cell tumor 2; high grade glioma 1; rhabdomyosarcoma 1; sarcoma 1; non-Hodgkin’s lymphoma 1; neuroblastoma 1; medulloblastoma 1; hepatoblastoma 1; neurocytoma 1). Disease response showed 4/14 with CR, 2/14 with PR, and 1/14 with SD for an overall response rate (ORR) of 43%. These preliminary results demonstrate that the combination of topotecan, ifosfamide, and carboplatin (TIC) is feasible, induces a >40% ORR in relapsed/refractory patients, and warrants further study in children with CNS and solid tumors.

Phase II trial of pemetrexed in children with refractory solid tumors: A Children’s Oncology Group study. (Warwick et al) J Clin Oncol 28:7s, 2010 (suppl; abstr 9535)

Pemetrexed is a multi-targeted antifol that inhibits key enzymes involved in nucleotide biosynthesis. Refractory or recurrent solid tumors to estimate the response rate and further define its toxicity profile. A two-stage design (10 + 10) was employed for each of the following disease strata: osteosarcoma, Ewing sarcoma/ peripheral PNET, rhabdomyosarcoma, neuroblastoma, ependymoma, medulloblastoma/ supratentorial PNET and non-brainstem high-grade glioma. Of 72 eligible subjects, 68 were evaluable for response. No complete or partial responses were observed. Stable disease, for a median (range) of 5 (4- 8+) cycles, was observed in 5 patients: ependymoma, Ewing sarcoma, medulloblastoma, neuroblastoma, osteosarcoma (n=1 each); one patient with Ewing sarcoma is still on study after 8 cycles. Although reasonably well tolerated, pemetrexed as administered in this study has no significant activity in a broad spectrum of refractory pediatric solid tumors.

Phase II study of temsirolimus in children with high-grade glioma, neuroblastoma, and rhabdomyosarcoma. (Geoerger et al) J Clin Oncol 28:7s, 2010 (suppl; abstr 9541)

Temsirolimus (TEMSR), an mTOR inhibitor, prolongs survival in adults with advanced renal cell carcinoma. Part 2 of the study explored the safety and efficacy in children with neuroblastoma, high grade glioma or rhabdoymyosarcoma. Primary efficacy endpoint was objective response (OR; complete response + partial response [PR]) within first 12 weeks. If fewer than 2 ORs occurred after 12 evaluable pts were enrolled in one of each tumor types, then enrollment in that tumor type would be stopped for lack of efficacy. 52 pts were enrolled (17 glioma, 19 neuroblastoma, 16 rhabdomyosarcoma), at 12 weeks, 2 pts had PR (1 neuroblastoma, 1 rhabdomyosarcoma). 11 pts achieved stable disease ≥12 weeks (5 neuroblastoma and 6 glioma). Two pts with neuroblastoma remain on treatment >2 years. Temsirolimus 75 mg/m2 was well tolerated, the OR rate failed to meet the threshold level set for study continuation and efficacy. Nevertheless, observed OR and prolonged stable disease in merits further evaluation.

“Trials in progress” posters

Phase I study of single-agent perifosine for recurrent pediatric solid tumors. (Becher et al)  J Clin Oncol 28:7s, 2010 (suppl; abstr 9540)

Perifosine is a synthetic alkylphospholipid which inhibits Akt activity. Single agent trials of perifosine in adults have demonstrated responses in patients with renal cell carcinoma, advanced brain tumors, soft-tissue sarcomas, hepatocellular carcinoma, as well as in hematologic malignancies including multiple myeloma. Pediatric patients with recurrent solid tumors were enrolled and 9 pts with high-grade glioma (n=5), medulloblastoma (n=2) or neuroblastoma (n=2) have been treated to date.  Perifosine is well tolerated in children with advanced solid tumors. The poster showed 2 patients with NB had stable disease 48 weeks and 55+ weeks, and dose level 4 is open. This study opened in 2008, with planned accrual 36. Another study with perifosine and temsirolimus just opened as well. The discussant mentioned the difficulty of completing accrual for this single-agent trial when a combination trial using this drug is open at the same institution.

A phase I trial of TPI-287 as a single agent and its combination with temozolomide in relapsed neuroblastoma or medulloblastoma. (Sholler et al) J Clin Oncol 28:7s, 2010 (suppl; abstr TPS329)

A novel anti- microtubule agent, TPI 287, is synthetically manufactured from naturally occurring taxanes extracted from yew starting material. The synthesis involves modifications of the side chain to make the drug more lipophilic, and modification of the baccatin ring structure which circumvents multidrug resistance (MDR)-based resistance and allows for binding to mutant tubulin. The primary objective is to determine the safety, tolerability and maximum tolerated dose (MTD) of TPI 287. The secondary objectives are to examine the activity of TPI 287 as a single agent and in combination with temozolomide (TMZ) in these tumor types based on overall response rate (ORR), progression free survival (PFS), and median overall survival (OS) and to evaluate the pharmacokinetics (PK) of TPI 287. There are 4 dose level escalations with the MTD of single agent therapy defined as the dose level below which DLTs are seen in ≥ two of six patients dosed.