On December 3, 2019 RAPT Therapeutics, Inc. (Nasdaq: RAPT), a clinical-stage immunology-based biopharmaceutical company focused on discovering, developing and commercializing oral small molecule therapies for patients with significant unmet needs in oncology and inflammatory diseases, and Hanmi Pharmaceutical Co., LTD reported a license and collaboration agreement for FLX475 in Asia (Press release, RAPT Therapeutics, DEC 3, 2019, View Source [SID1234570684]). FLX475 is an oral, small molecule CCR4 antagonist in development for the treatment of multiple cancers.

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"We are actively building our immuno-oncology portfolio, and see FLX475 as a potential keystone in our effort to deliver new safe and effective cancer therapeutics to patients who need them," said Hanmi CEO Se-Chang Kwon, Ph.D. "This compound complements our current product portfolio and has the potential to address a large and growing population of patients suffering from cancers that are prevalent in Asian countries. We look forward to partnering with RAPT to advance FLX475 through the clinic efficiently."

Under the terms of the agreement, RAPT will receive $10 million in an upfront payment and near-term milestone payment. Additionally, RAPT will receive up to $48 million in success-based development milestones and up to $60 million in potential sales milestones, as well as double-digit royalties on any future sales of FLX475 in the specified territories. In return, Hanmi will receive an exclusive license to develop, in parallel with RAPT, and commercialize FLX475 for the treatment of cancer in South Korea and China, including Taiwan and Hong Kong. In addition to leveraging its clinical trial infrastructure in Korea and China to augment RAPT’s ongoing Phase 1/2 clinical study of FLX475, Hanmi will also conduct a Phase 2 clinical trial in Korea and China to evaluate FLX475 in patients with gastric cancer.

"FLX475 targets "charged" tumors including virally-associated cancers, gastric cancer, non-small cell lung cancer, triple negative breast cancer and head and neck cancers, which are predicted to have high levels of CCR4 ligands, regulatory T cells and CD8+ effector T cells," said Yung-Jue Bang, M.D., Ph.D., professor of Medical Oncology at Seoul National University Hospital. "I believe FLX475 has the potential to offer patients a new therapeutic option that is desperately needed, particularly in Korea, which has the highest rate of gastric cancer in the world."

"This collaboration with Hanmi can provide us an entry point into the Asian market, allowing us to potentially expand our geographic footprint in a region with high prevalence of patients with "charged" tumors who we believe are most likely to respond to FLX475," said Brian Wong, M.D., Ph.D., president and CEO of RAPT Therapeutics. "Hanmi, with its fully integrated R&D infrastructure and nimble execution efficiency, has accumulated clinical development experiences and an extensive network of key opinion leaders. We believe Hanmi is a perfect partner for the development of FLX475."

FLX475 is a small molecule CCR4 antagonist designed to block the migration of regulatory T cells (Treg) specifically into tumors, but not healthy tissues. Treg represent a dominant pathway for downregulating the immune response, and may limit the effectiveness of currently available therapies such as checkpoint inhibitors. RAPT is developing FLX475 for the treatment of a broad range of "charged" tumors, which represent cancer types the company believes are most likely to respond to FLX475, where a large quantity of Treg cells are likely to be the cause of immune suppression within the tumor. FLX475 blocks the migration of Treg to the tumor, which may restore naturally occurring antitumor immunity and synergizing with a variety of both conventional and immune-based therapies, such as radiation, chemotherapy, checkpoint inhibitors, immune stimulators and adoptive T cell therapy.

RAPT is currently enrolling patients in a Phase 1/2 study of FLX475 as a monotherapy, and in combination with pembrolizumab, in patients with "charged" tumors and expect results from the Phase 2 portion of the trial in the first half of 2020.

On December 3, 2019, Aeglea BioTherapeutics presented the corporate presentation (Presentation, Aeglea BioTherapeutics, DEC 3, 2019, View Source [SID1234554280]).

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On December 3, 2019 Genomic Testing Cooperative, LCA (GTC) reported that they will be presenting data on their proprietary AI-based algorithms and RNA and DNA testing at the American Association of Hematology (ASH) (Free ASH Whitepaper) annual meeting (Press release, Genomic Testing Cooperative, DEC 3, 2019, View Source [SID1234553223]). In collaboration with multiple academic centers, GTC developed new approaches for the classification of diseases and prediction of response to combination therapy.

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Dr. Maher Albitar, GTC Chief Executive Officer and Chief Medical Officer, stated "Cancer is complex disease and requires complex biomarkers for predicting its behavior. RNA Sequencing provides a wealth of information that can be used for predicting clinical course and response to combination therapy. RNA sequencing data, when combined with mathematical algorithms, can provide reliable means to manage and treat cancer. GTC is committed to be the leader in innovation in developing molecular biomarkers to help physicians select the proper combination therapy for their patients."

Highlights of GTC presentations include:
-Targeted next generation sequencing (NGS) of RNA is reliable and practical for routine clinical testing.

-RNA sequencing data when used with AI or Bayesian statistics can provide powerful means for predicting clinical behavior and response to combination therapy

-Testing for mutations using RNA may provide a new paradigm for better characterizing and monitoring of cancers

-Liquid biopsy provides important clinical information in patients with acute myeloid leukemia.

The following is a list of studies that will be presented by GTC and its collaborators at ASH (Free ASH Whitepaper):
1) 2891-Title: "Cell of Origin Classification of DLBCL Using Targeted NGS Expression Profiling and Deep Learning"

Collaborators: University of Texas MD Anderson Cancer Center, Houston, TX; University of California, Irvine, CA; University Hospital Basel, Basel, Switzerland; University of Verona, Verona, Italy; Columbia University Medical Center, New York, NY; Aalborg University Hospital, Aalborg, Denmark; Well Cornell Medical College, New York, NY; Cleveland Clinic, Cleveland, OH; San Raffaele Scientific Institute, Milano, Italy; San Raffaele Hospital, Milan, Italy; Odense University Hospital, Odense, Denmark; Instituto de Investigación Marqués De Valdecilla, Santander, Spain; University Hospital Nijmegen, Nijmegen, NLD; Houston Methodist Hospital, Houston, TX; Lerner Research Institute, Cleveland Clinic, Cleveland, OH.

2) 2730-Title: "Higher Stability of Mutant IDH1/2 mRNA As Compared to Wild-Type mRNA in Patients with Acute Myeloid Leukemia"

Collaborators: Departments of Leukemia, Stem Cell Transplantation, and Hematopathology, UT MD Anderson Cancer Center, Houston, TX

3) 1314-Title: "Expression Profiling of mRNA By Next Generation Sequencing and the Development of Algorithm for Predicting Response in Acute Myeloid Leukemia"

Collaborators: Department of Computer Science, Georgia Southern University, Savannah, Georgia;
Departments of Leukemia, Stem Cell Transplantation, and Hematopathology, UT MD Anderson Cancer Center, Houston, TX

4) 1499-Title: Higher Stability of Mutant mRNA As Compared to Wild-Type mRNA in Diffuse Large B-Cell Lymphoma

Collaborators: University of Texas MD Anderson Cancer Center, Houston, TX; University of California, Irvine, CA; University Hospital Basel, Basel, Switzerland; University of Verona, Verona, Italy; Columbia University Medical Center, New York, NY; Aalborg University Hospital, Aalborg, Denmark; Well Cornell Medical College, New York, NY; Cleveland Clinic, Cleveland, OH; San Raffaele Scientific Institute, Milano, Italy; San Raffaele Hospital, Milan, Italy; Odense University Hospital, Odense, Denmark; Instituto de Investigación Marqués De Valdecilla, Santander, Spain; University Hospital Nijmegen, Nijmegen, NLD; Houston Methodist Hospital, Houston, TX; Lerner Research Institute, Cleveland Clinic, Cleveland, OH.

5) 2592-Title: Sequencing of Circulating Cell-Free DNA in Patients with AML Detects Clinically Significant Mutations Not Detected in Bone Marrow: The Role for Complementary Peripheral Blood and Bone Marrow Genomic Analysis

Collaborators: Departments of Leukemia, Genomic, and Hematopathology, UT MD Anderson Cancer Center, Houston, TX.

On December 3, 2019 Luye Pharma of Yantai reported that it has acquired Shandong Boan Biological, a company developing biosimilar products, at a price unofficially reported to be $205 million (Press release, Luye Pharma, DEC 3, 2019, View Source [SID1234551907]). Luye said the acquisition includes Boan’s drug portfolio, antibody screening platform, antibody manufacturing platform and related IP. Boan currently has 8 biosimilar drugs in development, three of them in clinical trials. Previously, Luye in-licensed four biosimilars from Boan, including biosimilars to Avastin, Prolia,Xgeva and Eylea. Luye said the molecules at at the IND stage in the US and/or Europe and/or Japan.

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On December 3, 2019 QBiotics Group Limited (QGL), a life sciences company developing novel anticancer and wound healing pharmaceuticals, reported that it has dosed its first patient in a Phase I/II clinical trial evaluating the optimal dosing and safety of its lead product, tigilanol tiglate, in patients with head and neck squamous cell carcinoma (HNSCC) (Press release, QBiotics, DEC 3, 2019, View Source [SID1234551905]).

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Dr Victoria Gordon, Managing Director and CEO of QBiotics, said, "We are delighted to announce the treatment of our first patient in our multi-site clinical study, which includes trial sites in Australia and India. Cancers of the head and neck rank as the sixth most common cancer diagnosed worldwide[1] with more than 2 million[2] new cases each year. The high rate of HNSCC is largely driven by tobacco use, and increased infection with human papillomavirus (HPV)."

Dr Gordon continued, "This study marks an important advancement for QBiotics’ oncology pharmaceutical. It follows our successful first-in-man QBC46-H01 study[3] in a range of solid tumours, which demonstrated patients with squamous cell carcinoma, the most common type of head and neck cancer, had encouraging tumour responses when treated with tigilanol tiglate."

Surgery and radiotherapy are currently the primary local treatments for HNSCC. However, these treatments can come with challenges such as damage to healthy tissue and impacting a person’s ability to breathe, hear, see, smell, swallow or taste as well as adversely affecting appearance. Better local therapies are therefore needed. Direct intratumoural injection with tigilanol tiglate may offer advantages as it directly targets tumour cells and reaches infiltrating cancer cells that can be missed by surgery. This approach limits exposure and damage to surrounding healthy tissues, reducing the risk of functional or cosmetic impairment. Intratumoural injection also offers the potential for reduced toxicity due to localised (target site) treatment, compared to systemic toxicity induced by chemotherapeutic agents.

The Phase I/II open label "QBC46-H03" study, is a dose escalation study in patients with HNSCC aimed at determining the maximum tolerated dose (MTD) and recommended dose level for further studies. The study will also investigate safety, tolerability and tumour response following a single or multiple (two to three) doses of tigilanol tiglate. It will enrol up to 40 patients from the Tata Medical Centre in Kolkata, the Tata Memorial Hospital in Mumbai, the Princess Alexandra Hospital in Brisbane, and other clinical sites in Australia.