Ignyta Receives Approval of Nonproprietary Name Entrectinib for Lead Product Candidate, RXDX-101

On December 9, 2014 Ignyta reported that the World Health Organization (WHO) has approved the international nonproprietary name (INN) "entrectinib" for the company’s lead product candidate, RXDX-101 (Press release Ignyta, DEC 9, 2014, View Source [SID:1234501138]). INNs facilitate the identification of active pharmaceutical ingredients, and each INN is a globally recognized unique name.

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About Entrectinib (formerly RXDX-101)

As a novel, orally available, selective tyrosine kinase inhibitor of the Trk family of tyrosine kinase receptors (TrkA, TrkB and TrkC), ROS1 and ALK proteins, entrectinib is designed as a targeted therapeutic candidate to treat patients with cancers that harbor activating alterations to TrkA, TrkB, TrkC, ROS1 or ALK. Entrectinib has demonstrated in vivo antitumor activity against various TrkA, ROS1 or ALK-driven mouse xenograft models of different human cancers, and has demonstrated oral bioavailability and been observed to efficiently cross the blood brain barrier in three animal species.

Entrectinib is currently in two Phase I/II clinical trials, the STARTRK-1 trial and the ALKA-372-001 trial. The company presented interim results from the ALKA-372-001 study in September 2014 at the ESMO (Free ESMO Whitepaper) annual meeting. The interim findings at such date showed:

No dose-limiting toxicities were observed, and only one Grade 3 or higher possibly drug-related adverse event was observed (Grade 3 fatigue, which subsided with dose reduction);
Eight patients remained on active treatment across the three dosing schedules, with four patients having received 9 to 21 cycles of treatment;
Entrectinib demonstrated a complete response in a patient with ROS1-positive non-small cell lung cancer (NSCLC);
Entrectinib demonstrated five partial responses, in patients with three different cancer histologies (colorectal cancer, NSCLC and neuroblastoma) and in patients with each of TrkA, ROS1 and ALK alterations; and
Entrectinib demonstrated prolonged stable disease in two patients: one with ALK-positive NSCLC and one with ROS1-positive pancreatic cancer.

iTeos Therapeutics Announces License and Collaboration with Pfizer Inc. for Discovery and Development of Cancer Immunosuppression Targets

On December 8, 2014 iTeos Therapeutics SA reported a strategic collaboration with Pfizer Inc. pursuant to which iTeos will license to Pfizer rights to iTeos’ pre-clinical compounds targeting Indoleamine 2,3-dioxygenase (IDO1) and Tryptophan 2,3-dioxygenase (TDO2) (Press release, iTeos Therapeutics, DEC 8, 2014, View Source [SID:1234512318]). Pfizer will be responsible for the development and commercialization of IDO1 and TDO2 drug candidates. Additionally, the parties will collaborate to discover and validate new targets that play key roles in the ability of tumors to evade immune responses. These new targets will be shared by iTeos and Pfizer for further independent or collaborative development.

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"This strategic collaboration is a transformative opportunity for iTeos," said Michel Detheux, Ph.D., chief executive officer of iTeos. "The oncologic expertise of Pfizer will help enable the acceleration and expansion of the scope of iTeos’ IDO1 and TDO2 programs. Furthermore, by working with Pfizer, we aim to produce a series of new targets that have the potential to be further developed by iTeos or Pfizer. This expansion of our drug discovery programs is expected to provide additional, novel immunomodulators for future treatment of cancer patients. The successful integration of Ludwig Cancer Research science into iTeos’ preclinical discovery platform in just two years following inception of the company made this collaboration possible."

"This collaboration with iTeos is another important step for Pfizer as we continue to build an industry-leading pipeline of cancer immunotherapeutics, a critical facet of which is the promising class of small molecule immunomodulators," said Robert Abraham, Ph.D., Senior Vice President and Chief Scientific Officer, Oncology Research Unit, Pfizer. "With iTeos’ strong expertise and experience in tumor immunology, this collaboration is well-positioned to help us deliver on our commitment to help bring new therapies to patients."

iTeos will receive from Pfizer an up-front payment of € 24 million, plus an equity investment, licensing fees and collaborative funding. Further, iTeos will be eligible to earn potential milestone payments from Pfizer based on the achievement of specific development, regulatory and commercial milestones across the IDO1 and TDO2 programs, in addition to royalties on sales. iTeos also has the opportunity to earn additional milestone and royalty payments for any of the new target programs that are advanced by Pfizer.

About IDO1 and TDO2

Indoleamine 2,3-dioxygenase (IDO1) and Tryptophan 2,3-dioxygenase (TDO2) are enzymes that break down the amino acid tryptophan. They are expressed in many cancers. Their elevated expression in tumors locally degrades tryptophan, blunting tumor surveillance by the immune system and as such preventing tumor rejection. Specific inhibitors for each enzyme might permit the treatment of a wider variety of tumors, which often express only one of the two enzymes. In tumors that express both enzymes, the combined use of IDO1 and TDO2 inhibitors could reveal complementary benefit for personalized cancer therapy.

Agios Announces New Data from Ongoing Phase 1 Trial of AG-221 Showing Robust Clinical Activity in Patients with Advanced Hematologic Malignancies

On December 7, 2014 Agios Pharmaceuticals reported new data from the ongoing Phase 1 dose escalation study of AG-221 as a single agent in patients with IDH2-mutant positive advanced hematologic malignancies (Press release Agios Pharmaceuticals, DEC 7, 2014, View Source [SID:1234501095]). With additional patient enrollment and longer follow-up, the data continue to show a favorable safety profile as well as durable clinical activity for AG-221, with an overall response rate of 56 percent (25 of 45 evaluable patients) in advanced hematologic malignancies. Eytan Stein, M.D., lead investigator and attending physician in the leukemia service at Memorial Sloan Kettering Cancer Center, will present the data in an oral presentation today at the 56th Annual American Society of Hematology (ASH) (Free ASH Whitepaper) Annual Meeting and Exposition being held in San Francisco. AG-221 is a first-in-class, oral, selective, potent inhibitor of the mutant IDH2 (isocitrate dehydrogenase-2) enzyme being developed in collaboration with Celgene.

“The durable responses observed for AG-221 with minimal toxicity being reported are impressive in this advanced disease setting,” said Dr. Stein. “These findings build upon those presented throughout the year. In addition, they continue to provide evidence that AG-221 can inhibit the IDH2 mutant protein, stop production of the oncometabolite, 2-HG, and allow for cancer cells to become mature, functioning blood cells. This approach is different from traditional chemotherapy that attempts to non-selectively kill cancer cells. I believe AG-221’s unique mechanism targeting a specific mutation is the way of the future and represents a highly specific oral therapy that may transform the treatment of a devastating group of blood cancers.”

As of the data cut-off on October 1, 2014, the ongoing Phase 1 study of AG-221 had enrolled 73 patients, with a documented IDH2 mutation, in a broad range of advanced hematologic malignancies. Patients enrolled included those with relapsed or refractory acute myeloid leukemia (AML), myelodysplastic syndrome (MDS), chronic myelomonocytic leukemia (CMML) and untreated AML who decline intensive chemotherapy. At the time of the data cut-off, 45 patients were evaluable for an analysis of clinical activity. Twelve patients had initiated therapy too recently and were therefore not evaluable and 16 patients had discontinued without an evaluable day 28 assessment. The data showed that 25 out of 45 evaluable patients achieved investigator-assessed objective responses, including six complete remissions, nine complete remissions with various degrees of hematologic recovery and ten partial remissions. An estimated 90 percent of patients who responded had responses lasting for at least three months, with durations on AG-221 for as long as eight months and ongoing. For patients who achieved a complete remission, their cancer did not progress while on therapy. AG-221 was well tolerated and the overall safety profile observed was consistent with previously reported data. A maximum tolerated dose (MTD) had not been reached. These data form the basis for the planned initiation of a global registration program in 2015.

“We are making tremendous progress for patients with our AG-221 program, as the data from the Phase 1 study have consistently shown durable activity with a favorable safety profile in patients with several types of advanced hematologic malignancies, especially AML,” said Chris Bowden, M.D., chief medical officer of Agios. “While the data we are presenting today and those recently reported for AG-120, our IDH1-mutant inhibitor, are still early, we believe they validate our approach of targeting dysregulated metabolic enzymes. Along with our partner Celgene, we expect to begin a global registration program for AG-221 in 2015 in IDH2-mutant positive hematologic malignancies followed by a global registration program for AG-120 in IDH1-mutant positive hematologic malignancies by early 2016. We feel strongly that these investigational medicines with their unique mechanisms of action have the potential to profoundly impact treatment for individuals with IDH-mutant cancers, and we are pleased to share the results of the additional data for AG-221 with the medical community.”

About the Ongoing Phase 1 Trial for AG-221

The primary goals of the Phase 1 trial are to establish the safety profile, determine the maximum tolerated dose and assess the preliminary clinical activity of AG-221 as a single agent administered orally in 28-day cycles. The study is only enrolling patients who have an IDH2-mutant hematologic malignancy. Secondary objectives include characterization of the pharmacokinetics (PK) and pharmacodynamics (PD), including inhibition of 2-hydroxyglutarate (or 2HG). The trial uses an open-label, dose-escalating design. Data reported are from patients receiving AG-221 in 10 dose escalation cohorts administered from 60 mg to 300 mg total daily doses as of October 1, 2014. Dose escalation continues, as the maximum tolerated dose has not been reached. The median age of these patients is 67 (range 33-90).

Safety Data

A safety analysis was conducted for all 73 treated patients as of October 1, 2014.
The majority of adverse events reported by investigators were mild to moderate, with the most common being nausea, pyrexia, diarrhea and fatigue.
The majority of serious adverse events (SAE) were disease related; SAE’s possibly related to study drug were reported in 13 patients.
11 deaths were reported with nine unrelated to AG-221.
Two deaths were reported as possibly related to study drug: one in a patient with sepsis and hypoxia and one with atrial flutter.

Efficacy Data

25 out of 45 efficacy evaluable patients achieved investigator accessed objective responses for an overall response rate of 56 percent as of the October 1, 2014 data cut-off date.

Of the 25 patients who achieved an objective response, there were six complete remissions, four complete remissions with incomplete platelet recovery (CRp), four marrow complete remissions (mCR), one complete remission with incomplete hematologic recovery (CRi) and 10 partial remissions (PR).
Responses were durable, with duration on study drug as long as eight months and ongoing. An estimated 90 percent of responses are three months or longer, with four responders on AG-221 beyond six months of treatment.
Ten patients with stable disease remain on AG-221, with several patients on study as long as six months and ongoing
There have been no relapses in patients with a complete remission.
Five patients were removed from the study per the protocol following decision to undergo a potentially curative bone marrow transplant.
Treatment with AG-221 showed substantial reduction in the plasma levels of 2-HG to the level observed in healthy volunteers.

“Throughout 2014, we made significant progress across our company, in particular the achievement of proof-of-concept for two distinct IDH inhibitors, AG-221 and AG-120,” said David Schenkein, M.D., chief executive officer of Agios. “Over the coming year, we expect to expand the development programs into registration studies and in combination trials to explore the potential of broader use in patients who carry an IDH mutation. We also expect to present new data from multiple studies across our two lead IDH programs to help further define the potential of these investigational medicines to make a major impact on the treatment of cancer.”

Upcoming Milestones: Cancer Metabolism Program in Collaboration with Celgene

AG-221 (IDH2 mutant inhibitor): Multiple studies of AG-221 planned for 2015 support speed and breadth in development for patients with an IDH2 mutation

Phase 1 expansion cohorts: In 2015, Agios expects to present data from the expansion cohorts in the ongoing Phase 1 study from 100 patients with IDH2-mutant hematologic malignancies, including AML.
Global registration program: The company expects that a global registration program in hematologic malignances will start in 2015.
Frontline therapy approach: In 2015, Agios plans to initiate combination trials in patients with AML to evaluate the potential of AG-221 as a first line therapy for patients with hematologic malignancies.
Phase 1 solid tumor study: The company expects the Phase 1 trial in patients with advanced solid tumors whose cancers carry an IDH2 mutation to remain on track.

JUNO THERAPEUTICS EXECUTES LICENSE FOR PHASE I CAR T PRODUCT CANDIDATE TARGETING CD22 FOR HEMATOLOGICAL MALIGNANCIES

On December 5, 2014 Juno Therapeutics reported that it has entered into an agreement to obtain a license from Opus Bio, Inc. for a CAR-T cell product candidate targeting CD22, a protein expressed on most B cell leukemias and lymphomas (Press release Juno, DEC 5, 2014, View Source [SID:1234501086]). The CD22-targeted CAR T cell product candidate was developed by the National Cancer Institute (NCI) under cooperative research and development agreement (CRADA) with Opus Bio. The NCI has begun enrollment in a Phase I trial evaluating pediatric and young adult patients with relapsed/refractory acute lymphoblastic leukemia (ALL) or non-Hodgkin’s lymphoma (NHL).

“This fully-human CD22 directed product candidate complements our existing CD19 directed portfolio, representing another important opportunity to investigate an immunotherapy addressing B cell malignancies,” said Juno CEO, Hans Bishop.

The NCI-sponsored trial is designed to enroll patients with CD22 positive cancers, with both CD19 positive and CD19 negative patients eligible for treatment.

CAR T cell therapy has the potential to address an important unmet need, according to Crystal Mackall, M.D., Chief, Pediatric Oncology Branch, National Cancer Institute, National Institutes of Health. There is still much to learn about these immunotherapies, but the early results are hopeful.

Financial terms were not disclosed. The license will not become effective until certain closing conditions are satisfied, including obtaining consent from the NCI.

About Juno’s Chimeric Antigen Receptor and High-affinity T Cell Receptor Platform
Juno is developing cell-based immunotherapies based on its chimeric antigen receptor, or CAR, and high-affinity T cell receptor, or TCR, platform to genetically engineer T cells to recognize and kill cancer cells. T cells are a type of white blood cell that identify and kill infected or abnormal cells, including cancer cells, in healthy individuals. Juno leverages its CAR and TCR platform to activate a patient’s own T cells so that they attack cancer cells. Through genetic engineering, a gene is inserted for a particular CAR or TCR construct into the T cell enabling it to better recognize cancer cells. The CAR technology directs T cells to recognize cancer cells based on the expression of specific proteins located on the cell surface, whereas the TCR technology provides the T cells with a specific T cell receptor to recognize protein fragments derived from either the surface or inside the cell. CAR construct typically uses a single chain variable fragment, or scFv, to recognize a protein of interest. The modified T cells can be infused into the patient or frozen and stored for later infusion.

Xenetic Biosciences Announces OncoHist™ Preclinical Data to be Featured in a Poster Presentation at the American Society of Hematology Annual Meeting

On December 4, 2014 Xenetic Biosciences, Inc. (OTCBB:XBIO), a biopharmaceutical company focused on developing next-generation biologic drugs and novel oncology therapeutics, reported that the mechanism of action of OncoHist in acute myeloid leukemia (AML) will be the subject of a poster presentation at the American Society of Hematology (ASH) (Free ASH Whitepaper) 56th ASH (Free ASH Whitepaper) Annual Meeting & Exposition (Press release, Xenetic Biosciences, DEC 4, 2014, View Source [SID1234537816]). The meeting is being held December 6-9, 2014 in San Francisco and the poster presentation will be from 6:00 p.m. to-8:00 p.m. local time on December 8. The abstract, available here, also will be published in Blood on December 5.

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Researchers from Dana-Farber Cancer Institute (DFCI), one of the world’s leading cancer institutes, will be presenting the abstract, entitled "OncoHist, an rh Histone 1.3 is cytotoxic to acute myeloid leukemia cells and results in altered downstream signaling (Suiyang Liu, Surender Kharbanda and Richard Stone)." The researchers conclude that their findings support the development of OncoHist alone and in combination with chemotherapy for the treatment of AML. Richard M. Stone, M.D., will present the poster. He is Director of the Adult Acute Leukemia Program at Dana-Farber, Professor, Department of Medicine, Harvard Medical School and, serves on the Medical Oncology Board of the American Board of Internal Medicine, and is Chair, Alliance Leukemia Committee. In February 2013, Xenetic Biosciences signed a broad research agreement for OncoHist with Dana-Farber.

"We are very encouraged by the conclusions of the Dana-Farber researchers and are planning a Phase 1 study with OncoHist in conjunction with Dana-Farber Cancer Institute ultimately to support a New Drug Application filing with the U.S. Food and Drug Administration," said M. Scott Maguire, chief executive officer of Xenetic Biosciences. "Dr. Stone and his colleagues have noted in their preclinical research that OncoHist inhibits and induces necrosis of a number of AML cell lines. We believe this research validates the continuation of the Phase 1/2 trial with OncoHist in combination with cytarabine for the treatment of AML in refractory patients, which is underway in Russia by our partner Pharmsynthez. We look forward to filing our Investigational New Drug application with the FDA during the first half of 2015 and to beginning testing OncoHist in the U.S. for the treatment of AML," added Mr. Maguire.

About OncoHist

OncoHist is a novel patent-protected platform technology that utilizes the special properties of human histone H1.3 for the development of a broad range of cancer indications. OncoHist is based on a molecule occurring naturally in the human cell nucleus, and is therefore expected to be less toxic and immunogenic than other oncology therapies. OncoHist has strong anti-proliferative properties in cancer cells of different histological origins, including hematologic malignancies such as leukemias, lymphomas and myelomas. OncoHist also has the potential to be broadly applied across a spectrum of other cancers.

About Dana Farber Cancer Institute

Dana-Farber Cancer Institute is a principal teaching affiliate of the Harvard Medical School and is among the leading cancer research and care centers in the United States. It is a founding member of the Dana-Farber/Harvard Cancer Center (DF/HCC), designated a comprehensive cancer center by the National Cancer Institute. It provides adult cancer care with Brigham and Women’s Hospital as Dana-Farber/Brigham and Women’s Cancer Center and it provides pediatric care with Boston Children’s Hospital as Dana-Farber/Children’s Hospital Cancer Center. Dana-Farber is the top ranked cancer center in New England, according to U.S. News & World Report, and one of the largest recipients among independent hospitals of National Cancer Institute and National Institutes of Health grant funding. Follow Dana-Farber on Twitter: @danafarber or Facebook: facebook.com/danafarbercancerinstitute.