Year: 2016

Apogenix Strengthens U.S. Patent Position for Lead Immuno-Oncology Candidate APG101

On January 14, 2016 Apogenix, a biopharmaceutical company developing next generation immuno-oncology therapeutics, reported that it has received Notices of Allowance from the U.S. Patent and Trademark Office for two key patents for lead immuno-oncology candidate APG101 (Press release, Apogenix, JAN 14, 2016, View Source [SID1234524580]). The so-called method of use patent covers the use of CD95 ligand inhibitors, such as APG101, for the treatment of glioblastoma. This patent is valid at least until 2029. The so-called composition of matter patent protects APG101 as a product as well as its manufacturing process at least until 2033.

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"Apogenix already has a broad patent portfolio covering APG101. These two patents greatly expand the protection of APG101 and its use in the treatment of glioblastoma," said Thomas Hoeger, Ph.D., CEO of Apogenix. "The prospective granting of these two patents in the most important pharmaceutical market further validates our innovative drug development approach and the therapeutic potential of CD95 ligand inhibitors for the treatment of malignant brain tumors, among other indications."

The efficacy, safety, and tolerability of APG101 were demonstrated in a controlled phase II proof-of-concept trial in patients with recurrent glioblastoma. Treatment with APG101 in combination with radiotherapy has shown clinical superiority in all study endpoints compared to treatment with radiotherapy alone, resulting in an overall survival benefit in glioblastoma patients treated with APG101. Interim data of a phase I trial with APG101 for the treatment of myelodysplastic syndromes further indicate the efficacy of APG101 in this hematological disease.

8-K – Current report

On January 14, 2016 Karyopharm Therapeutics Inc. (Nasdaq: KPTI), a clinical-stage pharmaceutical company, reported the initiation of Selinexor in Advanced Liposarcoma ("SEAL"), a new Phase 2/3 clinical trial with oral selinexor, the Company’s first-in-class, oral Selective Inhibitor of Nuclear Export (SINE) compound that inhibits exportin 1 (XPO1)(Filing, 8-K, Karyopharm, JAN 14, 2016, View Source [SID:1234508821]).

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SEAL is a multi-center, randomized, double-blind, placebo-controlled Phase 2/3 clinical trial evaluating single-agent oral selinexor in patients with advanced unresectable dedifferentiated liposarcoma. Patients will be randomized to receive either 60mg of selinexor or placebo given twice weekly per six week cycle until progression or intolerability. Fifty patients are expected to be enrolled in the Phase 2 portion of the study, with the potential to increase enrollment in the Phase 3 portion following an interim analysis. The primary endpoint of progression free survival (PFS) was acceptable to the Food and Drug Administration (FDA). Top-line data from the Phase 2 portion of this study are expected in early 2017.

"The rationale for SEAL is based on data from a Phase 1b study demonstrating durable stable disease with single-agent selinexor in patients with liposarcoma and other sarcomas," said Mrinal M. Gounder, MD, Attending Physician, Sarcoma Service and Developmental Therapeutics Service, Memorial Sloan Kettering Cancer Center, and Lead Investigator of the SEAL trial. "These data, presented at the American Society of Clinical Oncology (ASCO) (Free ASCO Whitepaper) 2015 Annual Meeting in June, showed durable responses in liposarcoma, leiomyosarcoma and other sarcomas. Patients with liposarcoma appeared to benefit the most with selinexor, showing an improvement in progression free survival compared to previous chemotherapies." In the Phase 1b study, selinexor showed longer disease control duration compared to the patient’s most recent prior therapy, with 14 of 18 liposarcoma patients (78%) achieving stable disease, including six (43%) of these fourteen patients achieving stable disease for greater than four months.

"With a less-than-5% five-year survival rate for recurrent and high-grade forms of liposarcoma, there are few effective treatment options for these uncommon, difficult to treat tumors that arise from the body’s fat tissue," said Sant P. Chawla MD, Director, Santa Monica Oncology Center, Sarcoma Oncology Center. "Extending progression free survival is an important goal for these patients, in whom the rapid progression of disease frequently translates into early mortality. I look forward to seeing how encouraging early results from selinexor in sarcomas, in which extended disease stabilization was observed, translate to this larger outcome study."

"With our pivotal clinical strategy for selinexor in hematologic malignancies moving toward several key top line readouts, initiation of the SEAL study signals an important expansion of this strategy into solid tumors," said Sharon Shacham, PhD, MBA, President and Chief Scientific Officer of Karyopharm. "We believe selinexor offers the potential to provide a still deeply underserved liposarcoma patient population with a new therapeutic option. We look forward to the advancement of this study and to the launch of additional randomized studies of selinexor in solid tumors, as well as hematologic malignancies, where high unmet medical needs persist."

FUJIFILM INITIATES A PHASE I CLINICAL TRIAL IN THE UNITED STATES OF THE ANTI-CANCER AGENT “FF-21101” IN PATIENTS WITH ADVANCED SOLID TUMORS SUCH AS LUNG CANCER

On January 14, 2016 FUJIFILM Corporation reported that it has begun a Phase I clinical trial of its anti-cancer agent FF-21101 in the United States in patients with advanced solid tumors such as lung cancers in 12 January (Press release, Fujifilm, JAN 14, 2016, View Source [SID:1234508794]). The trial is carried out at The University of Texas MD Anderson Cancer Center*, one of the world’s most distinguished facilities for cancer research and treatment.

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FF-21101 is an anti-cancer agent using a radioisotope labeled antibody (armed antibody**), with a different mechanism of action from a regular antibody. A regular antibody drug binds to specific proteins that express on the surface of cancer cells and induces the immune function to attack targeted cells. This type of drugs is less effective on patients with a compromised immune system. FF-21101, on the other hand, accumulates radiolabeled antibodies on cancer cells, and uses radiation emitted by the radioisotope to directly attack cancer cells. This is why it is expected to have a higher level of efficacy, regardless of the state of patients’ immune system. FF-21101 uses antibodies that target P-cadherin***, which is over-expressed on the surface of solid cancer cells, and accumulated in lung cancer cells, pancreatic cancer cells, etc. In animal testing using mice, it has already demonstrated a high efficacy in shrinking tumors in tissues.

Fujifilm has organized the technologies of Group companies to develop FF-21101. The bio-venture, Perseus Proteomics, has contributed to drug-discovery for the antibody, while the biopharmaceutical contract manufacturer, Fujifilm Diosynth Biotechnologies, has taken charge of antibody production. The radiopharmaceutical company, Fujifilm RI Pharma, offered its technology for developing the diagnostic and therapeutic radiopharmaceuticals.

MD Anderson is one of the world’s top general cancer centers with over 10,000 patients on therapeutic clinical trials each year and some 20,000 employees. Fujifilm is to utilize the world’s top-level clinical testing functions available at the MD Anderson to rapidly and seamlessly carry out Phase I clinical trial to gain safety and preliminary proof of activity in cancer patients at an early stage. The clinical program will be conducted in an effort to further accelerate the development of FF-21101.

Fujifilm is defining oncology as its focal area and promoting the R&D of new drugs. The Phase I clinical trial of another anti-cancer agent FF-10501 at MD Anderson have revealed that to date FF-10501 has been well tolerated in relapsed or refractory patients with blood cancer, and showed efficacy in some of the patients.

Fujifilm is working on the R&D of innovative pharmaceutical products and creation of their production processes by combining the technologies and know-how accumulated in the photographic film business including analysis technology, nanotechnology, and production technology, with the technological expertise of its core pharmaceutical affiliates such as Toyama Chemical. Defining "oncology", a field with numerous unmet medical needs as its focal area, the company will actively promote R&D to expand business deployment and supply innovative pharmaceutical products so as to contribute to resolving challenges social issues.

Geron Announces Initiation of Janssen Phase 2/3 Clinical Trial of Imetelstat in Myelodysplastic Syndromes

On January 14, 2016 Geron Corporation (Nasdaq:GERN) reported the dosing of the first patient in a Phase 2/3 clinical trial to evaluate imetelstat in patients with myelodysplastic syndromes (MDS) (Press release, Geron, JAN 14, 2016, View Source [SID:1234508792]). This clinical trial, also referred to as the IMergeTM study, is being conducted by Janssen Research & Development, LLC, and is the second study to be initiated under the terms of the exclusive worldwide imetelstat license and collaboration agreement between Geron and Janssen Biotech, Inc. (Janssen).

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Phase 2/3 Clinical Trial Design

The purpose of the Phase 2/3 clinical trial is to evaluate imetelstat in transfusion dependent patients with International Prognostic Scoring System (IPSS) Low or Intermediate-1 risk MDS who have relapsed after or are refractory to prior treatment with an erythropoiesis-stimulating agent (ESA).

As designed, the trial consists of two parts, and a total of approximately 200 patients are expected to be enrolled. Part 1 of the trial is planned as a Phase 2, open-label, single-arm design to assess the efficacy and safety of imetelstat. Up to 30 patients are expected to be enrolled in Part 1, all of whom will receive imetelstat and be followed for safety, hematologic improvement and reduction in transfusion requirement. Before proceeding to Part 2, the data from Part 1 must support a positive assessment of the benefit/risk profile of imetelstat in these patients. Part 2 of the trial is planned as a Phase 3 double-blind, randomized, placebo-controlled design to compare the efficacy of imetelstat against placebo. Approximately 170 patients are expected to be enrolled in Part 2, who will be assigned randomly, in a 2:1 ratio, to receive either imetelstat or placebo. The inclusion criteria for both parts of the trial require that at the time of enrollment each patient must be red blood cell transfusion-dependent. Imetelstat (or placebo in Part 2) will be administered as an intravenous infusion. The starting dose will be 7.5 mg/kg every 4 weeks and may be escalated according to certain protocol-specified conditions. Dose reductions for adverse events may follow protocol-specified algorithms. All patients may receive supportive care, including transfusions or myeloid growth factors, as needed per investigator discretion and according to local standard practices.

The primary efficacy endpoint is designed to be the rate of red blood cell transfusion-independence lasting at least 8 weeks, defined as the proportion of patients without any red blood cell transfusion during any consecutive 8 weeks since entry to the trial. A primary efficacy analysis is planned to occur 12 months after the last patient is enrolled.

Secondary efficacy endpoints in the trial include the proportion of patients achieving red blood cell transfusion-independence lasting at least 24 weeks, the time to and duration of red blood cell transfusion-independence, the proportion of patients achieving hematologic improvement, the proportion of patients achieving complete remission (CR) or partial remission (PR) per 2006 International Working Group (IWG) criteria for MDS, the proportion of patients requiring red blood cell transfusions and the amount, the proportion of patients requiring the use of myeloid growth factors and the dose, as well as assessments of the change in the patients’ quality of life using several different validated instruments. Patients are also planned to be followed for an assessment of overall survival and time to progression to acute myeloid leukemia (AML). These secondary endpoints are expected to be assessed at the time of the primary efficacy analysis.

Safety outcomes will be monitored throughout the trial and will include enhanced data collection and reporting for adverse events of interest, including hepatobiliary-associated laboratory findings and hepatic adverse events.

Multiple medical centers across North and South America, Europe and Asia are planned to participate in the trial. For more information about the IMergeTM study being conducted by Janssen, please visit View Source

Orphan Drug Designation

On December 23, 2015, the United States Food and Drug Administration (FDA), granted orphan drug designation to imetelstat for the treatment of MDS. The FDA has previously granted orphan drug designation to imetelstat for the treatment of myelofibrosis (MF). Orphan drug designation is granted by the FDA’s Office of Orphan Drug Products in order to support development of medicines for underserved or rare diseases and patient populations that affect fewer than 200,000 people in the United States. Orphan drug designation qualifies the sponsor of the drug for various development incentives of the ODA, including, if regulatory approval is received, seven years of market exclusivity with certain limited exceptions, exemption from FDA application fees, and certain tax credits for qualified clinical testing. The granting of orphan drug designation does not alter the standard regulatory requirements and process for obtaining marketing approval. The safety and effectiveness of a drug must be established through adequate and well-controlled studies. Orphan drug exclusivity does not prevent the FDA from approving a different drug for the same disease or condition, or the same drug for a different disease or condition.

About MDS

The myelodysplastic syndromes (MDS) are a group of blood disorders that arise from the proliferation of malignant progenitor cell clones in the bone marrow resulting in disordered and ineffective production of the myeloid lineage, which includes red blood cells, white blood cells and platelets. In MDS, bone marrow and peripheral blood cells may have abnormal, or dysplastic, cell morphology. MDS is frequently characterized clinically by severe anemia (low red cell counts and low hemoglobin). In addition, other peripheral cytopenias, or low numbers of white blood cells and platelets, may cause life-threatening infections and bleeding. Transformation to secondary acute myeloid leukemia (AML) occurs in up to 30% of MDS cases and results in poorer overall survival.

MDS is the most common of the myeloid malignancies. There are approximately 12,000 reported new cases in the US every year and approximately 60,000 people living with the disease. MDS is primarily a disease of the elderly, with median age at diagnosis around 70 years. The majority of patients, approximately 70%, fall into what are considered to be the lower risk groups at diagnosis, according to the IPSS that takes into account the presence of a number of disease factors, such as cytopenias and cytogenetics to assign relative risk of progression to AML and overall survival.

When initially diagnosed with MDS, approximately 80% of patients have anemia, and chronic anemia is the predominant clinical problem in lower risk disease. Many of these patients become dependent on red blood cell transfusions, which can lead to elevated levels of iron in the blood and other tissues that the body has no normal way to eliminate. Iron overload is a potentially dangerous condition. Studies in patients with MDS have shown that iron overload resulting from regular red blood cell transfusions is associated with a poorer overall survival and a higher risk of developing AML.

About Imetelstat

Imetelstat (GRN163L; JNJ-63935937) is a potent and specific inhibitor of telomerase that is administered by intravenous infusion. This first-in-class compound, discovered by Geron, is a specially designed and modified short oligonucleotide, which targets and binds directly with high affinity to the active site of telomerase. Preliminary clinical data suggest imetelstat has disease-modifying activity by inhibiting the progenitor cells of the malignant clone associated with hematologic malignancies in a relatively select manner. Most commonly reported adverse events in imetelstat clinical studies conducted to date include fatigue, gastrointestinal symptoms and cytopenias. Patients in these studies also experienced elevated liver enzymes, which resolved to normal or baseline in the majority of patients followed after imetelstat treatment was withdrawn. Imetelstat has not been approved for marketing by any regulatory authority.

About the Collaboration with Janssen

On November 13, 2014, Geron entered into an exclusive worldwide license and collaboration agreement with Janssen to develop and commercialize imetelstat for oncology, including hematologic myeloid malignancies, and all other human therapeutics uses. Under the terms of the agreement, Geron received an upfront payment of $35 million and is eligible to receive additional payments up to a potential total of $900 million for the achievement of development, regulatory and commercial milestones, as well as royalties on worldwide net sales. Certain regulatory, development, manufacturing and promotional activities are being managed through a joint governance structure, with Janssen responsible for these activities.

UroGen Pharma Strengthens Leadership Team and Expands Uro-Oncology Clinical Pipeline With Addition of TLR-7 Agonist Phase 2 Asset

On January 13, 2016 UroGen Pharma, Ltd. (formerly known as TheraCoat), a clinical-stage biopharmaceutical company developing novel, locally-administered pharmaceutical solutions for urological pathologies with a focus on uro-oncology, reported the appointment of two key executive officers: Ron Bentsur has joined the company as Chief Executive Officer and Gary Titus has joined the company as Chief Financial Officer (Press release, UroGen Pharma, JAN 13, 2016, View Source [SID1234576502]). In addition, Gil Hakim has been appointed President of Israeli Operations.

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In the fourth quarter of 2015, UroGen completed the acquisition of Vesimune, a TLR-7 agonist immunotherapy drug candidate in a novel, liquid formulation for the treatment of high grade non-muscle invasive bladder cancer, including carcinoma in situ (CIS) bladder cancer, from Telormedix SA. This purchase expands UroGen’s clinical-stage uro-oncology drug candidate pipeline and supports the company’s multi-modality approach for the potential treatment of low and high-grade bladder cancers.

The company is focused on the development of therapeutic candidates to address medical needs across a number of urologic indications, including uro-oncology. UroGen’s uro-oncology drug candidate pipeline is comprised of MitoGel, a novel chemoablation, non-surgical treatment for low-grade Upper Tract Urothelial Carcinoma (UTUC); VesiGelTM, novel chemoablation, non-surgical treatment for low-grade bladder cancer; and Vesimune, a local immunomodulation approach for the treatment of high-grade bladder cancer, including CIS. UroGen has obtained Orphan Drug Designations for MitoGel and Vesimune from the U.S. Food and Drug Administration (FDA). UroGen expects to commence a pivotal trial of MitoGel in low-grade UTUC in the second half of 2016.

Arie Belldegrun, M.D., Chairman of UroGen’s Board of Directors, commented, "On behalf of the Board of Directors, I welcome Ron and Gary to UroGen. Ron brings two decades of biopharmaceutical experience to UroGen and a track record of taking clinical stage drug candidates through the FDA approval process. Gary is a seasoned biotech CFO with expertise in private and public companies, as well as commercial and clinical-stage companies."

Dr. Belldegrun added, "I believe that UroGen is well positioned to advance the clinical development of its exciting pipeline of urology-focused therapeutic candidates, which have the potential to be best-in-class. The prospect of treating a variety of urological cancers locally and without the use of surgery represents a potential shift in the treatment paradigm."

Mr. Bentsur commented, "I am excited to be joining UroGen as CEO at this dynamic time for the company. With no new drugs approved for bladder or upper tract cancers in close to 20 years, this patient population remains dramatically underserved. We have a robust pipeline of clinical-stage drug candidates for uro-oncology and other urologic pathologies, which provides us with an opportunity to offer meaningful improvements over current standards of care."

Mr. Bentsur is an experienced biopharmaceutical CEO and joins UroGen from Keryx Biopharmaceuticals, where he spent six years as Chief Executive Officer. Mr. Bentsur led Keryx through its transition from an early clinical-stage to a fully-integrated commercial biopharmaceutical company following the September 2014 FDA approval and launch of Auryxia for the treatment hyperphosphatemia in dialysis patients. Prior to his tenure at Keryx, Mr. Bentsur served as CEO of XTL Biopharmaceuticals. Mr. Bentsur serves as a Director of Stemline Therapeutics, Inc. and Chairman of Advanced Inhalation Technologies, Ltd.

Mr. Titus is an experienced financial professional with more than 20 years of experience in the healthcare and life sciences arena. Most recently, Mr. Titus served as the Chief Financial Officer of BioCardia, a private, cell-based regenerative medicine company. Prior to that, he served as Chief Financial Officer of SciClone Pharmaceuticals, a commercial-stage biotechnology company. Mr. Titus was previously Chief Financial Officer of Kosan Biosciences until it was acquired by Bristol Myers Squibb. Mr. Titus serves as Chairman of ImmunoCellular Therapeutics Ltd.

About Bladder Cancer and Upper Tract Urothelial Carcinoma (UTUC)

Bladder cancer is the fourth most common cancer in men and ninth in women. In 2015, an estimated 74,000 adults were diagnosed with bladder cancer in the United States. In 2012, there were an estimated 577,403 people living with bladder cancer in the United States. First line treatment of bladder cancer comprises the surgical removal of the tumor, a procedure known as Trans-Urethral Resection of a Bladder Tumor, or TURBT, followed by periodic adjuvant chemotherapy instillations. Bladder cancer is one of the most expensive cancers per patient to treat due to high recurrence rates, intensive surveillance strategies, and expensive treatment costs. The lifetime management of bladder cancer may cost as much as $187,000 per patient, or an aggregate of $3.98 billion annually, in the United States alone. UTUC comprises approximately 10% of renal neoplasms and approximately 5% of urothelial carcinomas. Minimally invasive organ-sparing endoscopic procedures have shown favorable survival data in select patients with small, low grade tumors. However, recurrence rates can reach as high as 90%. Radical nephrectomy (kidney removal) with excision of an ipsilateral bladder cuff remains the standard of care for the treatment of UTUC.