On June 28, 2018 BioAtla, LLC, a global biotechnology company focused on the development of Conditionally Active Biologic (CAB) protein therapeutics, reported the treatment of the first patient in its clinical trial BA3021-001 for BioAtla’s BA3021, a novel conditionally active ROR2-targeted antibody-drug conjugate (CAB-ROR2-ADC) (Press release, BioAtla, JUN 28, 2018, View Source [SID1234527502]). This is a multi-center, open-label, Phase 1/2 study designed to evaluate the safety, tolerability, pharmacokinetics, immunogenicity and antitumor activity of BA3021 in patients with advanced solid tumors including non-small cell lung cancer (NSCLC), triple negative breast cancer and soft tissue sarcoma. CAB-ROR2-ADC is BioAtla’s second CAB investigational product to enter clinical trials following BA3011, CAB-AXL-ADC in February of this year.

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The first patient in the BA3021 clinical study was enrolled and dosed at Sarah Cannon Research Institute at Tennessee Oncology in Nashville, TN under the direction of the principal investigator, Howard A. "Skip" Burris III, MD. Dr. Burris, a recognized leader in clinical oncology, serves as chief medical officer and president of clinical operations at Sarah Cannon. "Innovative advancements in the treatment of cancer include tumor specific activation of therapy and promoting appropriate immune response. Providing access to cutting-edge therapies in clinical trials, such as the BA3021 clinical study, further supports our mission to advance care for cancer patients," said Dr. Burris.

The ROR2 transmembrane protein tyrosine kinase is an onco-fetal protein that acts as a non-canonical Wnt 5A receptor. ROR2 is found to be highly expressed during embryonic development and in several important cancer types, and the level of expression in tumors is tightly correlated with patient prognosis. Recently, ROR2 and its ligand Wnt 5A have been shown to be induced in cancers that are resistant to treatment with immune checkpoint inhibitors such as anti-PD-1 antibody immune therapy suggesting a mechanistic role of this receptor-ligand axis in resistance to standard cancer treatments resulting in relapsing, minimal residual disease. However, low to moderate levels of expression of ROR2 in multiple normal adult tissues are predicted based on RNA expression, histological analysis and functional studies. To minimize the risk of potential disruption of normal function of ROR2 receptors on normal cells, BioAtla applies its proprietary CAB technology to develop its CAB antibody-drug conjugate (ADC) targeting ROR2 with the intent to activate binding to the ROR2 receptor only in the tumor microenvironment and deliver the toxic payload to the cancerous cells. The CAB-ROR2-ADC BA3021 is designed to maximize efficacy on ROR2 expressing tumors while minimizing toxicity, leading to better clinical outcomes.

About Conditionally Active Biologics (CABs)

Conditionally Active Biologic proteins are generated using BioAtla’s proprietary protein discovery, evolution and expression technologies. These proteins can be monoclonal antibodies, enzymes and other proteins designed with functions dependent on changes in microphysiological conditions (e.g., pH level, oxidation, temperature, pressure, presence of certain ions, hydrophobicity and combinations thereof) both outside and inside cells.

Studies have shown that cancerous tumors create highly specific conditions at their site that are not present in normal tissue. These cancerous microenvironments are primarily a result of the well understood unique glycolytic metabolism associated with cancer cells, referred to as the Warburg Effect. CAB proteins are designed to deliver their therapeutic payload and/or recruit the immune response in specific and selected locations and conditions within the body and to be active only in the presence of a particular cellular microenvironment. In addition, the activation is designed to be reversible to repeatedly switch ‘on and off’ should the CAB move from a diseased to a normal cellular microenvironment and vice versa. CABs can be developed in a variety of formats including antibodies, antibody drug conjugates (ADCs), bi-specifics, chimeric antigen receptor T-cells (CAR-Ts) and combination therapies.

On June 28, 2018 MolMed S.p.A. (MLMD.MI), a medical biotechnology company focusing on research, development, manufacturing, and clinical validation of cell & gene therapies to treat cancer and rare diseases and AbCheck s.r.o., a technology company focusing on the discovery and optimization of high-quality human antibodies, reported that they have entered into a three-year Master Agreement aimed at providing MolMed with selected and optimized antibodies for the development of new Chimeric Antigen Receptors (CARs), targeting both liquid and solid tumors (Press release, MolMed, JUN 28, 2018, View Source [SID1234527504]).

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Under the agreement, AbCheck will use its proprietary discovery platform to select, optimize and deliver multiple human single-chain variable fragments (scFvs), specifically recognizing each MolMed target candidate. ScFvs are the extracellular regions of the CAR responsible for antigen recognition and binding, conferring specificity to the CAR.

The new and optimized scFvs delivered by AbCheck will allow MolMed to expand its proprietary pipeline in both autologous CAR-T and future allogenic CAR-NK platforms.

Riccardo Palmisano, MolMed CEO, commented: "This new collaboration plays a key role to complete the picture of the planned and announced enlargement of our CAR pipeline. Leveraging on the unique experience that we developed on CAR T CD44v6, now close to clinical stage in acute myeloid leukemia and multiple myeloma and on the recently signed partnership with Glycostem, with this agreement with AbCheck, a company with extensive expertise in antibodies selection and boasting partnerships with relevant companies and institutions in the CAR field, MolMed is fully prepared to build a robust autologous and allogeneic original CAR T pipeline, able to target both liquid and solid tumors".

Volker Lang, Managing Director of AbCheck, added: "AbCheck is recognized for its proven capability to reliably deliver high-quality human antibodies suitable for clinical development. We are very pleased to employ our unique technology suite to support MolMed’s dedicated team in adding novel therapeutic options to its diverse pipeline. Both CAR-Ts and CAR-NKs represent promising novel immuno-oncology approaches and we are confident that AbCheck’s abilities in antibody discovery and optimization will be an important asset in developing such approaches."

On June 27, 2018 Carisma Therapeutics Inc., formerly CARMA Therapeutics, a privately-held biotechnology company focused on the development of macrophage-based immunotherapeutics, reported the close of a $53 million Series A financing to further expand its technology platform and rapidly drive its programs toward clinical development (Press release, Carisma Therapeutics, JUN 27, 2018, View Source [SID1234527485]). The financing was led by AbbVie Ventures and HealthCap and includes existing seed investors IP Group, Penn Medicine and Grazia Equity. Carisma is also proud to welcome new investors Wellington Partners, TPG Biotech, MRL Ventures Fund and Agent Capital.

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Carisma Therapeutics’ discovery and development efforts are focused on their proprietary CAR-Macrophage platform – the first technology to combine antigen recognition with the effector function of macrophages. The proposed dual mechanism of action includes the ability to directly kill targeted cells and the ability to leverage antigen-presenting cell biology to mount an adaptive immune response. Initial applications for therapeutic candidates will be in the treatment of solid tumors. Other potential applications include the disruption of protein aggregates in multiple disease states. The company anticipates initiating clinical development in 2019.

The Carisma management team is led by Steven Kelly, CEO, who brings nearly 30 years of diverse drug development and commercialization experience at a variety of biotechnology and pharmaceutical companies. The team also includes Dora Mitchell, PhD as Head of Operations and Daniel Cushing, PhD heading development. Carisma is continuing to build its team and currently recruiting a CSO and a CMO.

Founded by Saar Gill, MD, PhD, an assistant professor of Hematology-Oncology in Penn’s Abramson Cancer Center, and Michael Klichinsky, PharmD, a PhD candidate in Systems Pharmacology and Translational Therapeutics, in partnership with the UPstart Program of the Penn Center for Innovation at the University of Pennsylvania, Carisma Therapeutics raised its incubation financing and began operations last summer. The company’s founders will be joined on the Scientific Advisory Board by Drs. Carl H. June, Lisa M. Coussens, Reinhard Andreesen and S. Jane Flint.

"Carisma’s programs combine the unique effector function of macrophages with advances in CAR technology to create a revolutionary approach to adoptive cellular therapy," commented CEO, Steven Kelly. "We are thrilled about the composition of our financing syndicate, which brings varied and deep experience in cell and gene therapy to further support our research and development efforts."

The company’s Board of Directors will be comprised of Margarita Chavez, JD, Managing Director of AbbVie Ventures; Jacob Gunterberg, Partner of HealthCap; Regina Hodits, PhD, Managing Partner of Wellington Partners; Steven Kelly, CEO; Eran Nadav, PhD, Senior Advisor of TPG Biotech; Althea Stillman, PhD, Associate Director at IP Group Inc.; and Bruce Peacock, Chairman.

On June 27, 2018 Kangpu Biopharmaceuticals, Ltd., a clinical-stage company based in Shanghai, China, reported that a phase I, multi-center, open-label study to evaluate the safety, tolerability, pharmacokinetics and preliminary evidence of antitumor activity of KPG-121 in combination with Enzalutamide in adult subjects with metastatic castration-resistant prostate cancer (mCRPC) has been launched in the United States (Press release, Kangpu Biopharmaceuticals, JUN 27, 2018, View Source [SID1234527486]). The study takes place at 3 medical centers in the US; part of Accelovance’s network of HERO sites dedicated to early phase research in oncology. Specifics of the study can be found on www.clinicaltrials.gov/NCT03569280.

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About KPG-121
KPG-121 is a novel generation of Lenalidomide. Compared with Lenalidomide, KPG-121 has shown enhanced immunomodulatory activities and improved anti-angiogenic properties in the preclinical studies. Results from in vitro assays and in vivo studies of mCRPC animal xenograft models demonstrated that better efficacy was observed for KPG-121 compared to Lenalidomide, when combined with Enzalutamide, Abiraterone Acetate, Apalutamide or Darolutamide. In the combination studies with Enzalutamide, KPG-121 significantly improved anti-tumor efficacy when compared to Enzalutamide alone.

On June 28, 2018 argenx (Euronext & Nasdaq: ARGX), a clinical-stage biotechnology company developing a deep pipeline of differentiated antibody-based therapies for the treatment of severe autoimmune diseases and cancer, reported the achievement of the second of two preclinical milestones towards an investigational new drug (IND) filing for ARGX-115, triggering a further $ 10 million payment from AbbVie (Press release, argenx, JUN 28, 2018, View Source;p=RssLanding&cat=news&id=2356311 [SID1234527488]).

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In April 2016, argenx entered into a development and exclusive license option agreement with AbbVie to develop and commercialize ARGX-115. Under the terms of that agreement, argenx has been responsible for conducting and funding all ARGX-115 research and development activities up to completion of IND-enabling studies.

Over the course of the past two years, argenx has been eligible to receive two preclinical milestones of $ 10 million each. The second milestone was achieved today.

About ARGX-115
ARGX-115 employs argenx’s SIMPLE Antibody(TM) technology and binds specifically to the protein glycoprotein A repetitions predominant (GARP), which plays a key role in the regulation of production and release of active transforming growth factor beta (TGF-beta). ARGX-115 is believed to selectively limit the immunosuppressive activity of activated regulatory T-cells (Tregs), thereby stimulating the immune system to attack cancer cells. While the normal function of Tregs is to suppress certain compartments of the immune system to prevent self-directed immune responses through the release of active TGF-beta, Tregs can also prevent the immune system from recognizing and suppressing pathogenic cells including cancer cells. We believe the selective inhibition of TGF-beta release by Tregs is potentially superior to systemic inhibition of TGF-beta activity or depletion of Tregs and may give rise to therapeutic products with an improved safety profile.

ARGX-115 was discovered under argenx’s Innovative Access Program with the de Duve Institute / Université Catholique de Louvain / WELBIO and exclusively licensed under a research and option agreement in 2013.