On December 12, 2016 Loxo Oncology, Inc. (Nasdaq:LOXO), a biopharmaceutical company innovating the development of highly selective medicines for patients with genetically defined cancers, reported that the abstract titled "Clinical safety and activity from a phase 1 study of LOXO-101, a selective TRKA/B/C inhibitor, in solid-tumor patients with NTRK gene fusions" has been accepted for oral presentation at the European Society for Medical Oncology (ESMO) (Free ESMO Whitepaper) Asia Congress, taking place December 16-19, 2016 in Singapore (Press release, Loxo Oncology, DEC 12, 2016, View Source [SID1234517040]). Data from this trial were last presented at the American Association for Cancer Research (AACR) (Free AACR Whitepaper) Annual Meeting in April 2016. The presentation will include an efficacy and durability update for enrolled patients with TRK fusions.

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The schedule for the presentation is as follows:

Presentation Session Date & Time: December 18, 2016, 4:30 p.m. to 6:00 p.m. SGT
Title: Clinical safety and activity from a phase 1 study of LOXO-101, a selective
TRKA/B/C inhibitor, in solid-tumor patients with NTRK gene fusions
Abstract Number: 150O
Session: Developmental Therapeutics, Proffered Paper Session (oral presentation)
Presenter: Todd Bauer, M.D., Associate Director, Drug Development; Principal Investigator, Sarah Cannon Research Institute

On December 12, 2016 NanoString Technologies, Inc. (NASDAQ:NSTG), a provider of life science tools for translational research and molecular diagnostic products, reported study findings relating to the prognostic value of the PAM50-based Prosigna Breast Cancer Gene Signature Assay in treating breast cancer that were presented at the 2016 CTRC-AACR San Antonio Breast Cancer Symposium (SABCS) (Press release, NanoString Technologies, DEC 12, 2016, View Source [SID1234517041]). Investigators retrospectively evaluated and compared the performance of four multigene expression profiles to predict the risk of Distant Recurrence (DR) in the same large dataset of more than 800 patients from the TransATAC study. These signatures included Prosigna, Oncotype DX, EndoPredict and Breast Cancer IndexSM.

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For post-menopausal women with node-negative, hormone receptor-positive, HER2-negative early stage breast cancer, the study found that Prosigna provided the most accurate prognostic information of all four multigene expression profiles tested as measured by the statistical measure known as the likelihood ratio. The study further found that Prosigna also provided the most accurate differentiation between low and high risk patients as compared to the other genomic tests. Low-risk women as identified by Prosigna had a 3% risk of DR over 10 years, the lowest rates of DR for all genomic tests that were studied. In contrast, high-risk women as identified by Prosigna had on average a 33% chance of distant recurrence by 10 years.

These results support the conclusions of the 2016 evidence-based ASCO (Free ASCO Whitepaper) guidelines that multi-gene expression signatures provide clinical utility for selection of low risk patients who may be spared adjuvant chemotherapy based upon their outcomes when treated with hormone therapy alone. Those guidelines gave a strong recommendation for Prosigna, equivalent to the recommendation given for Oncotype Dx and stronger than other tests evaluated by the guideline committee.

Additional results from the study demonstrated the potential clinical utility of Prosigna for informing the duration of endocrine therapy by accurately assessing the risk of a patient’s cancer recurring between five and 10 years after diagnosis. In node-negative patients, Prosigna provided the most prognostic information between 5 and 10 years after diagnosis as measured by the likelihood ratio. Low-risk women as identified by Prosigna had a 1.4% risk between years 5 and 10, the lowest rates of DR for all genomic tests that were studied.

"This important data demonstrates the ability of Prosigna to identify a low risk group of women for whom adjuvant chemotherapy following surgery and extended endocrine therapy in years 5-10 following diagnosis may be of limited benefit," said Dr. Aleix Prat, MD, Ph.D., from Hospital Clinic in Barcelona, Spain, who was not an investigator on the study.

"These results further validate the clinical utility of Prosigna as a superior second generation breast cancer assay that provides oncologists and patients the critical information they need to make informed decisions about their treatment options," stated Brad Gray, president and chief executive officer of NanoString Technologies.

Results of the TransATAC analysis were presented on Friday December 9th by Ivana Sestak Ph.D. in SABCS abstract S6-05, titled Comprehensive comparison of prognostic signatures for breast cancer in TransATAC. Prosigna’s performance as part of the TransATAC study has been previously published in the Journal of Clinical Oncology (View Source) and the Journal of the National Cancer Institute (View Source).

About the Prosigna Breast Cancer Prognostic Gene Signature Assay and nCounter Dx Analysis System
The Prosigna Assay provides a risk category and numerical score for assessment of the risk of distant recurrence of disease at 10 years in postmenopausal women with node-negative (Stage I or II) or node-positive (Stage II), hormone receptor-positive (HR+) breast cancer. Based on the PAM50 gene signature initially discovered by Charles Perou, Ph.D. and colleagues, the Prosigna Assay is an in vitro diagnostic tool that utilizes gene expression data weighted together with clinical variables to generate a risk category and numerical score to assess a patient’s risk of distant recurrence of disease. The Prosigna Assay measures gene expression levels of RNA extracted from formalin-fixed paraffin embedded (FFPE) breast tumor tissue previously diagnosed as invasive breast carcinoma.

The Prosigna Assay requires minimal hands-on time and runs on NanoString’s proprietary nCounter Dx Analysis System, which offers a reproducible and cost-effective way to profile many genes simultaneously with high sensitivity and precision.

The nCounter Dx Analysis System is a highly automated and easy-to-use platform that utilizes a novel digital barcoding chemistry to deliver high precision multiplexed assays. The system is available in the multi-mode FLEX configuration, which is designed to meet the needs of high-complexity clinical laboratories seeking a single platform with the flexibility to run the Prosigna Breast Cancer Assay and, when operated in the "Life Sciences" mode, process translational research experiments and multiplexed assays developed by the laboratory.

In the United States, the Prosigna Assay is 510(k) cleared for use on the nCounter Dx Analysis System, and is available for diagnostic use when ordered by a physician. The Prosigna Assay has been CE-marked and is available for use by healthcare professionals in the European Union and other countries that recognize the CE Mark, as well as Canada, Israel, Australia, New Zealand, Argentina, Thailand, South Africa, Turkey and Hong Kong. In the U.S., the Prosigna Assay is indicated in female breast cancer patients who have undergone surgery in conjunction with locoregional treatment consistent with standard of care, either as:

(1) a prognostic indicator for distant recurrence-free survival at 10 years in postmenopausal women with Hormone Receptor-Positive (HR+), lymph node-negative, Stage I or II breast cancer to be treated with adjuvant endocrine therapy alone, when used in conjunction with other clinicopathological factors or (2) a prognostic indicator for distant recurrence-free survival at 10 years in postmenopausal women with Hormone Receptor-Positive (HR+), lymph node-positive (1-3 nodes), Stage II breast cancer to be treated with adjuvant endocrine therapy alone, when used in conjunction with other clinicopathological factors. The device is not intended for patients with four or more positive nodes.

Other uses of Prosigna or the PAM50 panel in studies as described in this press release are for Investigational Use Only, or Research Use Only.

On December 12, 2016 Kite Pharma, Inc. (Nasdaq:KITE) reported that characterizations of T cell receptor candidates which it has licensed under the Cooperative Research and Development Agreement (CRADA) with the National Institutes of Health (NIH) have been published in the December 8, 2016 New England Journal of Medicine (NEJM) (Press release, Kite Pharma, DEC 12, 2016, View Source [SID1234517047]).

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The research, led by Steven A. Rosenberg, M.D., Ph.D., chief of the Surgery Branch at NCI’s Center for Cancer Research, and a scientific collaborator with Kite, describes a patient with KRAS mutant metastatic colorectal cancer who was successfully treated with T cells that are reactive to KRAS G12D mutation. This work follows previously reported treatment of a patient with advanced cholangiocarcinoma with T cells targeting a mutated erbb2 interacting protein.

"We are very excited to see the results of this landmark study conducted by Dr. Rosenberg and his team at the NCI. These findings represent proof of concept that T-cell technology directed against neoantigens can be utilized to treat solid tumors," said David Chang, M.D., Ph.D., Executive Vice President, Research and Development, and Chief Medical Officer of Kite.

As published in the NEJM publication, mutations in the KRAS gene are thought to drive 95 percent of all pancreatic cancers and 45 percent of all colorectal cancers. The G12D mutation is the most common KRAS mutation and is estimated to occur in more than 50,000 new cases of cancer in the United States each year.

In September 2016, Kite announced that it had entered into an exclusive, worldwide license with NIH for intellectual property related to multiple TCR-based product candidates for the treatment of tumors expressing mutated KRAS antigens. These TCR product candidates were developed in the laboratories of Steven A. Rosenberg, M.D., Ph.D., and James C. Yang, M.D., of the NCI.

On December 12, 2016 Atreca, Inc., a biotechnology company focused on developing novel therapeutics based on a deep understanding of the human immune response, reported positive preclinical findings generated using the Company’s Immune Repertoire Capture (IRC) technology, presented at the IBC Antibody Engineering & Therapeutics Conference being held in San Diego, California, December 11-15, 2016 (Press release, Atreca, DEC 12, 2016, View Source [SID1234522960]). In a presentation entitled "Analyzing B-cell Receptor Repertoires from Human Studies," Daniel Emerling, Ph.D., Atreca’s Senior Vice President, Research, provided a summary of key findings from the Company’s preclinical programs, including:

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Atreca’s IRC technology has identified and generated antibodies from active human immune responses, including antibodies from cancer patients who have responded well to immunotherapy and other treatments, patients with autoimmune disease, vaccinated subjects, and patients with infections.
Atreca’s immuno-oncology program is advancing antibodies that selectively bind tumor tissue types beyond that of the original patient and display potent antitumor activity in vivo.
Dr. Emerling stated, "Atreca’s IRC platform has demonstrated in preclinical disease models the power of mining a patient’s own anti-tumor immunity. In one of our applications of IRC, we generate natively paired antibody heavy and light chain sequences from blood plasmablasts – activated B cells – that are critical to the body’s own immune response to cancer and pathogens. As our programs progress, we anticipate being able to advance these promising biologic agents for potential use in cancer immunotherapy, vaccines, and diverse additional therapeutic applications."

"Over the past year, Atreca has made substantial progress both in advancing our internal and partnered programs and attracting world-class experts to our leadership team and advisory group," said Tito A. Serafini, Ph.D., Atreca’s President, Chief Executive Officer, and Co-Founder. "We will continue to advance multiple programs through preclinical studies to the clinic, with a primary focus on cancer immunotherapy applications of our novel and proprietary IRC platform."

More information on the Antibody Engineering & Therapeutics Conference is available at: View Source

On December 12, 2016 NantKwest Inc. (Nasdaq:NK), a pioneering, next generation, clinical-stage immunotherapy company focused on harnessing the unique power of our immune system using natural killer (NK) cells to treat cancer, infectious diseases and inflammatory diseases, reported that the company presented results from a preclinical study on the company’s high affinity Natural Killer (haNK) cell therapy program at the San Antonio Breast Cancer Symposium (SABCS) in San Antonio, TX, which was held on December 6-10, 2016 (Press release, NantKwest, DEC 12, 2016, http://ir.nantkwest.com/phoenix.zhtml?c=254059&p=RssLanding&cat=news&id=2229036 [SID1234517050]).

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Previous studies have shown that patients with HER2 positive breast cancer who have the high-affinity CD16 receptor that have been treated with Herceptin (trastuzumab) had better clinical outcomes versus those without the high affinity receptor. In this study, in a mouse xenograft model of HER2 positive breast cancer, to enhance the activity of aNK (activated natural killer) cell therapy aNK cells were engineered to express the CD16 high affinity Fc receptor (haNK cells). Study results reported provide further supporting evidence that antibody-dependent cellular cytotoxicity (ADCC) mediated cancer cell killing can be further enhanced through the recognition of the Fc fragment of a therapeutic antibody, in this case Herceptin, and the haNK cell’s CD16 Fc receptor.

"In over 50 patients in a broad range of cancer types, NantKwest’s aNK cell therapy has demonstrated promising indications of efficacy and an excellent safety record," said Patrick Soon-Shiong, MD, Chairman and CEO of NantKwest. "In this study, haNK cell therapy in combination with Herceptin was highly synergistic, resulting in tumor regression and significantly better efficacy in comparison to either agent alone. This data, highlighting the potential benefit of combining haNK cell therapy with Herceptin in patients with HER2-positive breast cancer, provides further supportive evidence and a solid foundation to fast track this program into human clinical trials."

Collaborating on the study were research scientists from NantBiosciences, NantCell and NantKwest.

Presentation Summary

High-affinity Activated Natural Killer (haNK) Cells Augment Trastuzumab Efficacy in a Mouse Model of HER2-positive Human Metastatic Breast Cancer
Abstract #P2-04-1-466
Presenter: Shahrooz Rabizadeh, PhD, NantBiosciences Inc., Culver City, CA
Thursday, December 8, 2016, 7:30 AM, Room Hall 1
This poster reviews the potential synergistic use of haNK cell therapy in combination with Herceptin (trastuzumab) in patients with HER2-positive breast cancer.