On February 20, 2019 DelMar Pharmaceuticals, Inc. (Nasdaq: DMPI) ("DelMar" or the "Company"), a biopharmaceutical company focused on the development and commercialization of new cancer therapies, reported that its Phase 2 study testing VAL-083 in patients with newly diagnosed glioblastoma multiforme (GBM) has achieved its halfway enrollment point (Press release, DelMar Pharmaceuticals, FEB 20, 2019, View Source [SID1234533467]). This trial, targeted to enroll up to thirty patients, is a single-arm, open-label study testing VAL-083 in combination with standard radiotherapy in GBM patients who have an unmethylated promoter of the methylguanine DNA-methyltransferase (MGMT) gene. An estimated 60% of GBM patients possess an unmethylated MGMT gene, which confers a more limited response to current standard of care treatment as well as a lower survival probability. This clinical trial was initiated in February 2017 and is being conducted at the Sun Yat-sen University Cancer Center (SYSUCC) in Guangzhou, China in collaboration with Guangxi Wuzhou Pharmaceutical Company.

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The Company is pleased to report that for the 15 patients enrolled to date, 11 have completed their prospectively planned Magnetic Resonance Imaging (MRI) scans and have had their initial assessment for tumor progression. Tumor progression is based on the trial investigator’s clinical and radiologic assessment, according to the Response Assessment in NeuroOncology (RANO) criteria. Of these 11 patients, five were assessed by the Principal Investigator as having a "Complete Response", three of whom were based on significant tumor shrinkage, and two of whom were based on their tumors continuing to remain "below measurable level" from post-surgery baseline MRI to post-cycle 3 MRI. Additionally, six patients were assessed as having "Stable Disease." Of the remaining four patients, one died prior to their post-cycle 3 MRI and three have not been on study long enough to reach their planned post-cycle 3 MRI. As of the February 14, 2019 data cutoff, 12 of the 15 enrolled patients are still alive. Similar to prior experience, myelosuppression has been the most common adverse event observed. Two dose-limiting toxicities have been reported (thrombocytopenia) – one at the 40 mg/m2/day dose and one at the 30 mg/m2/day dose.

"GBM is a cancer with a very high unmet medical need, especially for patients with an MGMT-unmethylated biomarker who are provided with limited existing treatment options," stated Saiid Zarrabian, President and Chief Executive Officer of DelMar Pharmaceuticals. "We are encouraged that we have completed the dose escalation stage of this study and that 30 mg/m2/day of VAL-083 in combination with radiation therapy was generally safe and well-tolerated in this trial. And while these results are preliminary, we are also enthusiastic that five of the first twelve patients available for efficacy measurements have initially been assessed as having a Complete Response. With the clinical trial rapidly enrolling into its expansion phase, we look forward to providing a final data update once the study is completed."

The Company will be providing further details and an update on this trial at the annual meeting of the American Association for Cancer Research (AACR) (Free AACR Whitepaper) being held March 29 to April 3, 2019.

Professor Zhong-ping Chen, Founder Chairman of the Department of Neurosurgery/Neuro-oncology at Sun Yat-sen University Cancer Center, and who is also the study’s Principal Investigator, stated that "treating glioblastoma patients with an unmethylated MGMT promoter is particularly challenging. While the clinical trial is still early, and we are only at the halfway point in enrollment, we are highly encouraged at the enhanced levels of tumor shrinkage and the complete responses we are observing after treatment with VAL-083 in combination with radiation. This preliminary data appears to support the premise that VAL-083 has the potential to provide a valuable treatment option for these patients."

The clinical trial in newly diagnosed GBM is designed to enroll up to 30 patients to determine if first-line treatment with VAL-083 plus radiotherapy can provide improvements over the historical efficacy of standard of care temozolomide (TMZ) plus radiotherapy. Efficacy will be measured based on tumor response to treatment, progression-free survival, progression-free survival at six months, and overall survival compared to historical results in the target population.

The clinical trial consists of two parts:

Part 1 is a dose-escalation and induction format to confirm the recommended dose of VAL-083 when administered concurrently with radiation therapy based on safety and tolerability. The patients received VAL-083 at 20 mg/m2/day, 30 mg/m2/day or 40 mg/m2/day along with standard radiation treatment. The dose escalation phase of the study was concluded in October 2018.
Part 2 comprises an expansion phase whereby VAL-083 will be studied in up to 20 additional patients. Based on the best balance of efficacy and tolerability, the dose of VAL-083 chosen for the expansion phase of the study was 30 mg/m2/day. This phase of the study is ongoing and is continuing to enroll patients.
This phase 2 clinical trial (ClinicalTrials.gov Identifier: NCT03050736) is expected to provide the scientific basis for larger studies to support submission of marketing applications. Ideally, data from these larger studies will result in approval of VAL-083 as first line therapy for all newly-diagnosed patients with an unmethylated MGMT gene promoter.

About VAL-083

VAL-083 (Dianhydrogalactitol) is a novel bi-functional DNA targeting agent that rapidly induces interstrand cross-links at N7-guanine, leading to DNA double-strand breaks and ultimately cell death. VAL-083’s unique cytotoxic mechanism circumvents MGMT mediated chemoresistance and differentiates it from other therapies used in the treatment of GBM, including TMZ. This makes VAL-083 an ideal candidate to explore treating patients who are unlikely to respond to TMZ due to MGMT expression in their GBM as per the 2017 National Comprehensive Cancer Network guidelines.

VAL-083 has been granted orphan drug designations by the U.S. FDA Office of Orphan Products for the treatment of glioma, medulloblastoma and ovarian cancer, and in Europe for the treatment of malignant gliomas. VAL-083 has been granted fast-track status for the treatment of recurrent GBM by the US FDA.

On February 19, 2019 Zetagen Therapeutics, Inc., a private, US-based biopharmaceutical company dedicated to driving breakthrough innovation in the treatment of metastatic bone cancers and orthopedic interventions, reported that the U.S. Patent and Trademark Office ("USPTO") has issued U.S. Patent No. 10208306 and the South African Patent Office issued PCT. 2017/00029 to the Company (Press release, Zetagen Therapeutics, FEB 19, 2019, View Source [SID1234643687]). These patents, entitled Composition and Methods to Promote Bone Formation, include claims covering the use of methods for stimulating bone growth using its novel molecular pathway, ZetaMet (Zeta-BC-003). ZetaMet (Zeta-BC-003) is a synthetic, small molecule, inductive biologic, delivered via a drug-eluting implant on an osteopromotive carrier.

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"These new patent issuances are an important step forward towards our ultimate goal of obtaining the global, commercial rights for our treatments," said Joe C. Loy, CEO of Zetagen Therapeutics, Inc. "We believe in the potential our therapies hold for patients around the world who live with debilitating metastatic bone cancers."

The new patent is part of an expanding and comprehensive portfolio of patents, patent applications and other intellectual property covering the composition, synthesis, manufacturing, formulations and uses for the treatment of a variety of metastatic bone lesions and osteologic interventions. Zetagen exclusively licensed its platform technology from the State University of New York in 2016.

On February 19, 2019 Apexigen, Inc., a clinical-stage biopharmaceutical company, reported that Xiaodong Yang, M.D., Ph.D., President and Chief Executive Officer, will present at the following upcoming investor conferences (Press release, Apexigen, FEB 19, 2019, View Source [SID1234590998]):

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Citi’s 7th Annual Immuno-oncology Leadership Summit
New York, NY
Tuesday, February 19, 2019 at 3:30 pm ET

SVB Leerink’s 8th Annual Global Healthcare Conference
New York, NY
Wednesday, February 27, 2019 at 2:10 pm ET

Cowen’s 39th Annual Healthcare Conference
Boston, MA
Tuesday, March 12, 2019 at 4:00 pm ET

William Blair’s IO Conference
New York, NY
Thursday, March 21, 2019 at 2:05 pm ET

On February 19, 2019 National Brain Tumor Society (NBTS), a leading nonprofit dedicated to the brain tumor community in the United States, reported a new partnership with the Brain Science Foundation (BSF) (Press release, National Brain Tumor Society, FEB 19, 2019, View Source [SID1234553933]). Under terms of the partnership, the organizations have established the Meningioma Research Fund to raise and grant funds specifically for meningioma research poised to identify and advance treatments aimed at dramatically improving survival and quality of life.

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Meningioma is the most common primary brain tumor, accounting for 37 percent of all brain tumor diagnoses and approximately 30,000 new cases every year in the United States. There are fifteen types of meningiomas presenting a wide range of physical, emotional, and occupational challenges – and can ultimately be life-threatening.

"Given the legacy of the Brain Science Foundation and its association with meningioma, and our shared goals with the National Brain Tumor Society to fund research aimed to advance the development of treatments, it quickly became evident that the community of patients, advocates, and healthcare providers could benefit from a formal collaboration between our respective organizations," says Steven Haley, founder of the Brain Science Foundation. "We believe NBTS’s depth and breadth of assistance, combined with the continuity of the BSF mission on a larger platform will be compelling and welcomed in the community we serve."

The Meningioma Research Fund creates an opportunity for donors specifically interested in supporting research on this tumor type to join together to scale up the impact of their philanthropy.

"Medical research directed toward meningioma is disproportionately small compared to other brain tumor types," says David Arons, Chief Executive Officer, National Brain Tumor Society. "Yet, meningiomas can be life-altering and cause lasting deficits to patients, as the only treatment option for many is invasive brain surgery. This partnership with the Brain Science Foundation and the creation of the Meningioma Research Fund will allow us to invest in best-in-class science and accelerate research that is aimed at advancing better treatment options for these patients."

The Brain Science Foundation was established in 2002 and has gone on to fund nearly $1 million annually in support of outstanding physician-scientists in brain tumor research, with a particular focus on meningioma. To date, BSF-funded researchers have impacted lives through a variety of research programs that have included the creation of advanced diagnostic tools, surgical instruments and techniques, post-operative care protocols and therapies that are less invasive but more effective.

About Meningioma

Meningioma is the most common primary brain tumor, accounting for 37.1 percent of all brain tumor diagnoses. It is estimated that 31,990 individuals will be diagnosed with a meningioma in the United States in 2019. Meningioma is most commonly diagnosed in adults, with an average age at diagnosis of 66, and is more common in women than men. African Americans are significantly more likely than Caucasians to develop meningioma. The 10-year relative survival rate for all meningioma patients is 81.5 percent, but only 53.5 percent for those with a malignant meningioma.

On February 19, 2019 Autolus Therapeutics plc (Nasdaq: AUTL), a clinical-stage biopharmaceutical company developing next-generation programmed T cell therapies for the treatment of cancer, reported that Professor Persis Amrolia, Consultant in Bone Marrow Transplant at Great Ormond Street Hospital (GOSH) and NIHR Research Professor of Transplantation Immunology at University College London (UCL) Great Ormond Street Institute of Child Health, presented updated data from the ongoing Phase 1 CARPALL trial of AUTO1 in a poster presentation at the European Hematology Association (EHA) (Free EHA Whitepaper) 1st European CAR T Cell Meeting held in Paris, France, February 14-16, 2019 (Press release, Autolus, FEB 19, 2019, View Source [SID1234550832]).

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Enrolled patients had a median age of 9 years with a median of 4 lines of prior treatment. Seventeen patients were enrolled, and 14 patients received an infusion of CAR T cells. Ten of 14 patients had relapsed post allogeneic stem cell transplant. Eight patients were treated in second relapse, 5 in >second relapse and 3 had relapsed after prior blinatumomab or inotuzumab therapy. Two patients had ongoing CNS disease at enrollment.

Updated safety results
This data set confirms that AUTO 1 induces no severe cytokine release syndrome (CRS) (Grade 3-5). Nine patients experienced Grade 1 CRS, and 4 patients experienced Grade 2 CRS. No patients required tociluzumab or steroids. As previously reported, one patient experienced Grade 4 neurotoxicity; there were no other reports of severe neurotoxicity (Grade 3-5). The mean cumulative exposure to AUTO1 CAR T cells in the first 28 days as assessed by AUC was 1,721,355 copies/µg DNA. Eleven patients experienced cytopenia that was not resolved by day 28 or recurring after day 28: 3 patients Grades 1-3 and 8 patients Grade 4. Two patients developed significant infections, and 1 patient died from sepsis while in molecular complete response (CR).

Updated efficacy results
With a single dose of CAR T cells at 1 million cells/kg dose, 12/14 (86%) achieved molecular CR. Five patients relapsed with CD19 negative disease. Event free survival (EFS) based on morphological relapse was 67% (CI 34-86%) and 46% (CI 16-72%) and overall survival (OS) was 84% (CI 50-96%) and 63% (CI 27-85%) at 6 and 12 months, respectively.

CAR T cell expansion was observed in all responding patients (N=12), with CAR T cells comprising up to 84% of circulating T cells at the point of maximal expansion. The median persistence of CAR T was 215 days.

The median duration of remission in responding patients was 7.3 months with a median follow-up of 14 months. Five of 14 patients (37%) remain in CR with ongoing persistence of CAR T cells and associated B cell aplasia.

"AUTO1 combines a high molecular CR rate with excellent persistence and a good safety profile in pediatric acute B cell leukemia patients," said Professor Amrolia.

About AUTO1
AUTO1 is a CD19 CAR T cell investigational therapy designed to overcome the limitations in safety – while maintaining similar levels of efficacy – compared to current CD19 CAR T cell therapies. Designed to have a fast target binding off-rate to minimize excessive activation of the programmed T cells, AUTO1 may reduce toxicity and be less prone to T cell exhaustion, which could enhance persistence and improve the T cells’ abilities to engage in serial killing of target cancer cells. In 2018, Autolus signed a license agreement under which Autolus acquired global rights from UCL Business plc (UCLB), the technology-transfer company of UCL, to develop and commercialize AUTO1 for the treatment of B cell malignancies. AUTO1 is currently being evaluated in two Phase 1 studies, one in pediatric ALL and one in adult ALL.

For information about the CARPALL trial, visit View Source

About Pediatric Acute Lymphoblastic Leukemia (ALL)
According to the American Cancer Society, ALL is the most common cancer diagnosed in children, with approximately 3,400 new cases diagnosed in the United States each year. Pediatric ALL occurs when the bone marrow makes too many immature lymphocytes, which are a type of white blood cell. The current standard of care for pediatric ALL patients is combination chemotherapy. Although pediatric patients typically respond well to first-line treatment, 10 to 20% of total patients relapse with chemotherapy-resistant disease, leading to a significant unmet need in pediatric patients with high-risk relapsed or refractory ALL.