On January 7, 2020 Genomic Testing Cooperative, LCA announced that the Medicare Administrative Contractor Palmetto GBA (MolDx) has established coverage for its solid tumor molecular profile. The GTC-Solid Tumor Profile provides a comprehensive evaluation of the abnormalities in the entire coding sequence of 434 genes in various types of solid tumors (Press release, Genomic Testing Cooperative, JAN 7, 2020, View Source [SID1234553222]). This decision of covering solid tumors along with the previous coverage decision of two GTC hematology profiles allows GTC to offer comprehensive genomic profiling with next-generation sequencing (NGS) for patients with all types of cancer including a liquid biopsy for hematologic neoplasms.
Laboratories and hospitals that are members of the cooperative group as well as non-member medical professionals will have immediate access to these Medicare-covered tumor profiling tests.

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Dr. Maher Albitar, GTC Chief Executive Officer and Chief Medical Officer, stated "We are delighted that Palmetto GBA now covers our hematology and solid tumor profiles. This full coverage along with our unique business model as a cooperative company will allow us to fulfill our mission in democratizing comprehensive molecular profiling of cancer and making it available and affordable for every patient with cancer." Dr Albitar added "We believe that this coverage by Medicare will help other Co-op member laboratories and large oncology practice groups obtain coverage when they adapt and or internalize our highly validated comprehensive molecular profiling tests. This will not only improve patient care, but also reduce costs and deliver better standardized Precision Medicine."
It is estimated that approximately 1.74 million Americans will be diagnosed with cancer every year and more than 14 million people are living with a diagnosis of cancer in the US. Cancer is currently the second leading cause of death in the US.

On January 7, 2020 The Ohio State University Comprehensive Cancer Center – Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC – James) reported how resistance to a promising targeted drug develops in patients with a rare, lethal cancer of the bile ducts called cholangiocarcinoma (Press release, The Ohio State University Comprehensive Cancer Center, JAN 7, 2020, View Source [SID1234553217]).

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The study, reported in the journal Molecular Cancer Therapeutics, also suggests that adding another drug at the time of progression might re-sensitize tumor cells to the initial drug, called an FGFR inhibitor.

"While the majority of patients with FGFR-positive cholangiocarcinoma benefit from new FGFR inhibitors in clinical trials, most patients unfortunately develop cancers resistant to the drugs," says study leader Sameek Roychowdhury, MD, PhD, a medical oncologist and researcher at the OSUCCC – James. "We believe that this study is an important step in understanding drug resistance and improving the treatment of this and other cancers caused by abnormal FGFR gene mutations."

Findings also suggest that monitoring fragments of circulating tumor DNA for acquired mutations that cause resistance to FGFR inhibitors may reveal the presence of resistance mutations and mark the time a patient should begin taking the additional drug, an mTOR inhibitor.

The successful treatment of cholangiocarcinoma is challenging because the disease is usually diagnosed at an advanced stage that has a five-year survival rate of 2%. Patients diagnosed earlier also have low, five-year survival due to high rates of disease recurrence. Abnormal activation of the FGFR gene happens in 15 to 20% of people with cholangiocarcinoma, and FGFR inhibitors show effectiveness in 70 to 80% of those patients until resistance develops. There are six studies of FGFR inhibitors in clinical trials at the OSUCCC – James.

"A better understanding of how treatment resistance develops and how to prevent it is critical for improving the treatment of cholangiocarcinoma and other cancers caused by FGFR mutations," says first author Melanie Krook, PhD, a postdoctoral fellow in Roychowdhury’s lab.

"Our findings suggest that cholangiocarcinoma patients treated with an FGFR targeted therapy could potentially benefit from combination therapies with other drugs such as mTOR inhibitors. Additional laboratory studies are needed to identify the optimal lead strategies for this combination," she adds.

For this study, Roychowdhury, Krook and colleagues examined the FGFR (fibroblast growth factor receptor) gene in the cancer cells of a cholangiocarcinoma patient who died after experiencing disease progression and developing resistance to the FGFR inhibitor infigratinib.

The researchers identified two acquired FGFR mutations in the patient’s tumor cells that conferred resistance to FGFR inhibitors. They then used cancer cell lines to learn that the mutations led to activation of the mTOR biochemical pathway. This enabled the cancer cells to grow even in the presence of FGFR inhibitors. Adding an mTOR inhibitor to the cells restored their sensitivity to FGFR inhibitors.

Key findings:

Two acquired FGFR2 mutations, p.E565A and p.L617M, were shown to drive resistance to the FGFR inhibitor infigratinib.

The p.E565A mutation upregulates the mTOR signaling pathway, which desensitizes cholangiocarcinoma cell lines to infigratinib and other FGFR inhibitors.

A drug that inhibited the mTOR pathway restored the sensitivity of the cells to infigratinib and other FGFR inhibitors.

"Overall, our findings suggest that an mTOR inhibitor administered at the time of progression may re-sensitize tumor cells to an FGFR inhibitor in patients who develop resistance to these agents," Roychowdhury says.

This study was supported by grants from the American Cancer Society (MRSG-12-194-01-TBG), the Prostate Cancer Foundation, the National Institutes of Health (HG006508, CA202971, CA216432), the American Lung Association and Pelotonia.

Other researchers involved in this study were Alexandria Lenyo, Max Wilberding, Hannah Barker, Mikayla Dantuono, Hui-Zi Chen, Julie W. Reeser, Michele R. Wing, Jharna Miya, Eric Samorodnitsky, Amy M. Smith, Thuy Dao, Dorrelyn M. Martin, John L. Hays and Aharon G. Freud, The Ohio State University; Kelly M. Bailey, University of Pittsburgh; and Kristen K. Ciombor, Vanderbilt University.

On January 7, 2020 Verastem presented the corporate presentation (Presentation, Verastem, JAN 7, 2020, View Source [SID1234553058]).

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On January 7, 2020 Replimune Group Inc. (NASDAQ: REPL), a biotechnology company developing oncolytic immuno-gene therapies derived from its Immulytic platform, reported that Robert Coffin, Ph.D., Chief Executive Officer and Director of Replimune, will present at the 38th Annual J.P. Morgan Healthcare Conference on Tuesday, January 14, 2020 at 5:00 PM PT at the Westin St. Francis Hotel in San Francisco, CA (Press release, Replimune, JAN 7, 2020, View Source [SID1234552972]).

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A simultaneous webcast will be available in the Investors section of Replimune’s website at www.replimune.com. A replay will be available for 30 days following the conference.

On January 7, 2020 Cellect Biotechnology Ltd. (Nasdaq: APOP), a developer of innovative technology which enables the functional selection of stem cells, reported it received official communication from two jurisdictions, the European Patent Office (EPO) and the Israeli Intellectual Property Office, regarding their intention to grant European Patent Application No. 14851547.1 and Israeli Patent Application No. 244982, respectively (Press release, Cellect Biotechnology, JAN 7, 2020, View Source [SID1234552828]). These patent applications include a cell-based product and a method of manufacturing a stem and progenitor cell population with enhanced activity by short incubation with an apoptotic ligand.

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"Continued recognition from global jurisdictions validates the breadth of Cellect’s technology. These latest acknowledgments are significant as they cover the ability to activate stem cells, therefore improving stem cell products and manufacturing processes," commented Dr. Shai Yarkoni, Chief Executive Officer of Cellect. "Our collaboration efforts with companies in Germany, Korea and Israel have each reported similar data using our process in various tissue sources (including fat derived cells). These added protections continue to create barriers to entry and allows us to advance our business development strategies to monetize our innovation."

The Company has previously published third-party data demonstrating improved "stemness" of stem cells. Specifically, it significantly improves both proliferation and functional capabilities of hematopoietic (HSC) and mesenchymal (MSC) stem cells originating from bone marrow, peripheral blood, umbilical cord and adipose tissue.

"We believe the combination of strong IP protection and validated business collaborations support our business model and will enable us to attract external resources to strengthen and expand our opportunities," concluded Dr. Yarkoni.

The patents applications cover an ex vivo method for obtaining an improved population of stem and progenitor cells (SPC) with enhanced engraftment characteristics by activation of TNF family receptors. The Company’s previous patents covered the negative selection exerted by the ApoGraft process and product translated into clinical safety superiority. The latest patent applications describe and protect the positive effect that the same molecules have on stem cells and translates to the efficacy of the transplanted cells and the yields of the manufacturing processes for clinical use).

Including this latest notification, the Company has 65 patent applications worldwide of which 33 are issued/allowed patents.