On March 20, 2019 Trizell Ltd (Trizell) reported that it has opened a Phase 3 Study of its novel gene therapy TR002, an adenovirus-mediated interferon alfa 2b, in patients with malignant pleural mesothelioma (MPM) who have failed first-line standard of care chemotherapy (Press release, Trizell, MAR 20, 2019, View Source [SID1234561809]). TR002 is given to trigger the pleiotropic anti-tumour effects of interferon, a naturally occurring protein the body uses to fight cancer, and is followed by gemcitabine chemotherapy. This study will include sites in the United States, Europe, Australia, and Russia.

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Malignant pleural mesothelioma is an aggressive and devastating form of cancer affecting the outer (pleural) membrane of the lungs. The disease is usually triggered by inhalation of asbestos fibres that slowly make their way from the alveoli to the outer surface of the lung in the pleural cavity. The fibres then induce a cancer which grows on the outside of the lung into the pleural space, eventually invading surrounding thoracic tissues leading to death. There is a clear association between occupational or environmental asbestos and mineral fibre exposure and MPM development.
A previous Phase 2 study of TR002 at the Abramson Cancer Center included 40 MPM patients who were newly diagnosed or failed standard chemotherapy (Pemetrexed/ Platin) showed an overall disease control rate of 87.5%. The second line treatment cohort showed an almost doubling of median survival time compared to historical study controls (17 months vs. 9 months) with approximately 25% of patients living at least 2 years and approximately 20% at least 3 years.

MPM prognosis is poor and following failure of standard of care first line treatment, median life expectancy is around 9 months, with very few cases surviving past 18 months. With a prevalence of around 200,000 cases worldwide, there are around 3000 and 5000 new cases diagnosed every year in the EU and US alone. Dust from the September 11th attacks in New York is predicted to cause a rise in the number of future cases in the US, although the extent of the future rise is currently unclear.
"This is an exciting trial. The results that we noted in our previous study showed significant prolongation of life expectancy and particularly so for about 25 percent of these refractory patients who have gone on to live two and in some cases three years and more," said Daniel H. Sterman, MD, Director of the Multidisciplinary Pulmonary Oncology Program at NYU Langone Health. "We will work hard to get this potentially ground-breaking clinical trial completed."

The Phase 3 study is an open-label, randomized, parallel group study in up to approximately 300 patients who have failed chemotherapy. TR002 is given by catheter directly into the pleural cavity as a single dose of 3 x 1011 viral particles. Gemcitabine chemotherapy commences 14 days later and continues until disease progression.

"It is very exciting to see a therapeutic approach developed at the University of Pennsylvania being moved to an international, randomized trial, as it is a career milestone for any academic researcher to see their work tested in this way," said Steven M. Albelda, MD, William Maul Measey Professor of Medicine, Perelman School of Medicine, University of Pennsylvania.

TR002 was pioneered by Drs. Albelda and Sterman, and by Dr. Evan W. Alley, MD, PhD, whose current appointment is at Cleveland Clinic Florida but who was involved in the trial during his time at Penn.

About TR002
TR002 (nadofaragene firadenovec) is an investigational gene therapy consisting of an adenovirus containing the gene interferon alfa-2b. It is administered by catheter into the pleural cavity, where the virus enters the cells lining the pleural cavity. Inside the cells, the virus breaks down leaving the active gene to do its work. The internal gene/DNA machinery of the cells picks up the gene and translates its DNA sequence, resulting in the cells secreting high quantities of interferon alfa-2b protein, a naturally occurring protein the body uses to fight cancer. This novel gene therapy approach turns the patient’s own pleural cavity cells into multiple interferon microfactories, enhancing the body’s natural defences against the cancer.

About Malignant Pleural Mesothelioma
Malignant pleural mesothelioma is usually triggered by inhalation of asbestos fibres. These slowly make their way from the alveoli to the outer surface of the lung in the pleural cavity where they induce a cancer which grows on the outside of the lung into the pleural space, eventually invading surrounding thoracic tissues leading to death. Prognosis is poor and following failure of standard of care first-line treatment, median life expectancy is around 9 months, with very few cases surviving past 18 months.

WHO estimates that 43,000 people die of MPM each year; annually in North America, Western Europe, Japan, and Australia, there are 10,000 cases each year1. With the passage of the Clean Air Act, asbestos use was banned in the US in 19702, and the incidence of mesothelioma in the US was predicted to steadily decline. However, dust from the September 11th attacks in New York is predicted to cause a rise in the number of future cases although the extent of the future rise is currently unclear3. In contrast, asbestos use continued in Australia until 2003 and in Europe until 2005. As a result, the incidence of mesothelioma in European countries continues to rise and is projected to peak in 2020 and may account for as many as 250,000 European deaths in the next 35 years. In 2020, it is estimated over 18,000 Australian cases will be diagnosed4.

On March 20, 2019 PDC*line Pharma reported that grants exclusive license in South Korea and exclusive option in other Asian countries to LG Chem Life Sciences Company, for the development and commercialization of PDC*lung cancer vaccine for lung cancer (Press release, PDC Line Pharma, MAR 20, 2019, View Source [SID1234554037]).

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The total deal value is 108M€ (123M$) plus significant tiered royalties on net sales in Asia.
Under the terms of the agreements, PDC*line Pharma will co-operate with LG Chem, who will have the full rights in South Korea and an exclusive option for other Asian countries, to develop and commercialize the company’s drug candidate, PDC*lung, in lung cancer. PDC*lung is constituted of a PDC*line loaded with HLA-A2 restricted peptides derived from six shared tumor antigens.
Under the terms of the agreement, PDC*line Pharma will continue developing its PDC*lung candidate in the EU, US and global markets outside of Asia, and LG Chem will be responsible for future development and commercialization in its territories.

On March 20, 2019 The National Comprehensive Cancer Network (NCCN) Oncology Research Program (ORP) and Eli Lilly and Company (NYSE: LLY) reported six projects that aim to improve the delivery of gastric and gastroesophageal junction (GEJ) cancer care in the United States (Press release, Eli Lilly, MAR 20, 2019, View Source [SID1234554022]). The quality improvement studies will focus on methods of intervention that can be implemented across a variety of different oncology practice settings. These projects are eligible to receiving funding from Lilly Oncology after completing contract negotiations. Forty-nine letters of intent were submitted in response to the RFP and subsequently 19 full proposals were requested for review.

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"As part of our mission to facilitate care that helps patients live better lives, we’re honored to support research that enhances outcomes and experiences for people with gastric and gastroesophageal junction cancers," said Wui-Jin Koh, MD, Chief Medical Officer, NCCN. "This project is intended to identify disparities in care between the community and academic setting, and define scalable, shareable solutions that will rapidly improve adherence to guidelines and quality of care."

The following studies were selected by the NCCN ORP:

Dan G. Blazer III, MD; Daniel P. Nussbaum, MD; Linda M. Sutton, MD; Duke University Health System and Duke Cancer Network Affiliates; The DCN Passport: A Novel, Patient-Centered Approach to Improve Care for Gastric/Gastroesophageal Junction Cancer Across an Academic-Community Oncology Network
Efrat Dotan, MD; Fox Chase Cancer Center; Improving the Approach to and Management of the Older Patient with Metastatic Gastric Cancer
Jae Kim, MD; City of Hope National Medical Center; Telehealth Intervention for Self-Management of Dietary Quality of Life After Gastric Cancer Surgery
Veena Shankaran MD, MS; University of Washington/Seattle Cancer Care Alliance/Fred Hutchinson Cancer Research Center; Randomized Pragmatic Trial of a Proactive Financial Navigation Intervention in Patients with Newly Diagnosed Gastric and Gastroesophageal Junction Adenocarcinoma
Qiuling Shi, PhD; Loretta A. Williams, PhD; The University of Texas MD Anderson Cancer Center; Symptom Management Through an Automated Alert System to Improve Adherence During Systemic Therapy for Patients with Gastric/Gastroesophageal Junction (GEJ) Cancer
Kuang-Yi Wen, PhD; Sidney Kimmel Cancer Center (SKCC) at Jefferson; mChemoCoping – GC: A Text Messaging System Enabling Real-Time Monitoring and Management of Chemotherapy Side Effects Among Patients with Gastric Cancer (GC)
"NCCN ORP congratulates all of the collaborators, and looks forward to their contributions to the future of gastric and GEJ cancer care," said Dr. Koh.

"Lilly is proud to work with the NCCN ORP to research better ways for delivering high-quality cancer care to patients with this aggressive disease," said Maura Dickler, MD, Vice President of Late Phase Development, Lilly Oncology. "By utilizing novel approaches and advancing technology, these studies will help us to address some of the largest disparities in care that exist for patients undergoing treatment for gastric and GEJ cancers."

The NCCN ORP was responsible for the Request-for-Proposals (RFP) process, application review and evaluation. A committee led by NCCN and including a medical representative from Lilly determined which proposals would be eligible to receive funding. Project funding will be provided directly by Lilly upon mutual agreement of project terms and conditions.

The studies will be conducted over a period of two years.

The NCCN ORP fosters innovation and knowledge discovery that improves the lives of people with cancer by supporting investigator-initiated trials at NCCN Member Institutions and their affiliates. To date, it has supported more than 140 studies, with numerous publications in peer-reviewed journals. To learn more about the NCCN ORP and ongoing clinical trials, visit NCCN.org/ORP.

On March 20, 2019 Petra Pharma Corporation ("Petra"), a leader in phosphoinositide (PI) signaling pathway inhibition, reported it has secured a global license from Takeda Pharmaceutical Company Limited ("Takeda") to develop, manufacture and commercialize serabelisib and two additional PI3Kα-specific inhibitors (Press release, Petra Pharma, MAR 20, 2019, View Source [SID1234554009]). The agreement grants Petra a license for all human therapeutic uses, except for a subset of undisclosed rare-disease indications, which Takeda had previously out-licensed.

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Petra plans to initiate a Phase 1b/2 study with serabelisib in late 2019 to advance pioneering research and insights in PI signaling pathways with a focus on PIK3CA-mutated solid tumors. The PI3K signaling pathway is a frequently mutated pathway in human cancer.

"Today marks a transformational moment for Petra and a new era in the therapeutic use of PI3K inhibitors. We are pioneering new approaches that have the potential to increase tumor responses with PI3K inhibitors and minimize side effects, with profound clinical implications for patients diagnosed with a PIK3CA-mutated tumor," said President and CEO, Brian O’Callaghan.

Petra’s leading-edge research builds on the recent work of Scientific Co-Founder, Lewis Cantley, Ph.D. (Weill Cornell Medical Center) and his collaborators, whose paper in the August 2018 issue of Nature* identified strategies to disrupt the glucose/insulin feedback loop with the potential to dramatically improve the anti-tumor response.

"Current treatment modalities have been challenging due to an on-target effect of PI3Kα inhibitors causing hyperglycemia and consequent elevation of serum insulin, which can re-activate PI3K in tumors, allowing them to survive," said Dr. Cantley. "The approach Petra is taking disrupts the glucose/insulin feedback loop, which in preclinical models significantly increases anti-tumor efficacy."

This is the first licensing agreement between Petra and Takeda. Financial terms of the agreement were not disclosed.

* Hopkins BD, Pauli C, Du X, et al. Suppression of insulin feedback enhances the efficacy of PI3K inhibitors. Nature. 2018;560(7719):499-503.

On March 20, 2019 PDC*line Pharma, a biotech company developing a new class of potent and scalable antigen presenting cell, based on a proprietary cell line of Plasmacytoid Dendritic cells (PDC*line), reported that it has signed an exclusive licensing and option agreement with LG Chem Life Sciences Company, the life sciences division of LG Chem Ltd (Press release, PDC Line Pharma, MAR 20, 2019, View Source [SID1234553824]). This agreement, which includes a development and commercialization collaboration agreement, opens new markets to PDC*line Pharma and expands the global footprint of its PDC*line-based cancer vaccine.

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Under the terms of the agreements, PDC*line Pharma will co-operate with LG Chem, who will have the full rights in South Korea and an exclusive option for other Asian countries, to develop and commercialize the company’s drug candidate, PDC*lung, in lung cancer. PDC*lung is constituted of a PDC*line loaded with HLA-A2 restricted peptides derived from six shared tumor antigens.

PDC*line Pharma is eligible for upfront and near-term milestone payments, plus longerterm clinical development and regulatory milestones totaling up to €108M ($123M). The company will also receive royalties based on net sales of the licensed product in LG Chem’s Asian markets.

Under the terms of the agreement, PDC*line Pharma will continue developing its PDC*lung candidate in the EU, US and global markets outside of Asia, and LG Chem will be responsible for future development and commercialization in its territories.

Eric Halioua, president & CEO of PDC*line Pharma, said: "We are very pleased to cooperate with LG Chem and to start the development of our PDC*lung cancer vaccine in Asia. This licensing agreement is a great opportunity for PDC*line Pharma to expand the scope of its immuno-oncology clinical programs and bring our technology to numerous patients around the world. Furthermore, the agreement with LG-Chem Life Sciences Company, a leading pharmaceutical company in Korea, is a major endorsement for our unique PDC*line approach and its potential."

Dr. Jeewoong Son, president of LG-Chem Life Sciences, said: " We are delighted to start this strategic collaboration with PDC*line Pharma, a great partnership to further expand LG Chem’s cell-based cancer immunotherapy portfolio. PDC*line Pharma’s technology is backed by cutting-edge science and we believe we can extend its reach by bringing this novel therapy to a greater number of cancer patients."