On October 6, 2020 Affimed N.V. (Nasdaq: AFMD), a clinical-stage immuno-oncology company committed to giving patients back their innate ability to fight cancer, reported that the first patient was successfully dosed with allogeneic cord blood-derived natural killer (cbNK) cells preloaded with AFM13 and has moved on to the AFM13 monotherapy phase of the treatment cycle (Press release, Affimed, OCT 6, 2020, View Source [SID1234568154]). This therapy was developed through a research collaboration with The University of Texas MD Anderson Cancer Center.

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This is the first in human study to combine an NK cell product with an antibody whose primary mechanism is designed to specifically bind and activate NK cells and tumors cells in a bispecific fashion. This novel combination approach could lay the groundwork for future cellular therapy combinations with Affimed ICE constructs.

"Engaging the innate immune system is a novel and promising therapeutic approach in oncology and our ICE products are designed to tap into this, which, thus far, has largely remained untapped in this field," said Dr. Andreas Harstrick, Chief Medical Officer at Affimed. "Pre-loading innate immune cells with an ICE takes this idea a step further and potentially intensifies the treatment’s effect, especially in patients who have an impaired immune system or low NK cell numbers."

An NK cell armed with AFM13 is designed to direct NK cells to the tumor site in order to target cancer cells. Pursuant to the study design, after dosing with the preloaded NK cells, AFM13 is subsequently administered as monotherapy in order to maintain the activation of the infused cbNK cells and engage the patients’ own innate immune system (NK cells and macrophages), a distinct feature of Affimed’s ICE products.

Further Study Background
Although larger numbers of NK cells in patients is associated with better outcomes, the adoptive transfer of non-targeted NK cells has shown only limited clinical benefit. Target recognition of cancers by NK cells remains a substantial barrier to broad application of an NK cell therapy. In preclinical models, combining AFM13 with adoptive NK cell transfer has been shown to enhance the efficacy of NK cells. AFM13 exhibited a much longer binding to CD16A on NK cells as compared to CD30 binding monoclonal antibodies, both wildtype and ADCC enhanced, forming the basis to produce a stable AFM13 pre-loaded NK cell product. The study, which aims to enroll approximately 30 patients, is an investigator-initiated study at MD Anderson. The study is an open-label, non-randomized, single-center, dose escalation trial to evaluate the combination of AFM13 with cord blood-derived NK cells in adult patients with recurrent/refractory CD30-positive lymphomas. The primary objective of the study is to establish the safety and the recommended Phase 2 dose of AFM13-preloaded cbNK cells, followed by weekly treatment with intravenous AFM13. Secondary objectives include assessing the overall, complete and partial response rates. More details about the study can be found at www.clinicaltrials.gov using the identifier NCT04074746.

About AFM13
AFM13 is a first-in-class CD30/CD16A ROCK-derived bispecific innate cell engager (ICE) that induces specific and selective killing of CD30-positive tumor cells by engaging and activating natural killer (NK) cells and macrophages, thereby leveraging the power of the innate immune system. AFM13 is Affimed’s most advanced ICE clinical program, and it is currently being evaluated as a monotherapy in a registration-directed trial in patients with relapsed/refractory peripheral T-cell lymphoma (REDIRECT). The study is actively recruiting and can be found at www.clinicaltrials.gov using the identifier NCT04101331.

On October 6, 2020 Neurocrine Biosciences, Inc. (Nasdaq: NBIX) reported that it will report third quarter financial results after the Nasdaq market closes on Monday, November 9, 2020 (Press release, Neurocrine Biosciences, OCT 6, 2020, View Source [SID1234568152]). Neurocrine will then host a conference call and webcast to discuss its financial results and provide a company update that day at 1:30 p.m. Pacific Time (4:30 p.m. Eastern Time).

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Participants can access the live conference call by dialing 877-830-2596 (US) or 785-424-1744 (International) using the conference ID: NBIX. The webcast can also be accessed on Neurocrine’s website under Investors at www.neurocrine.com. A replay of the webcast will be available on the website approximately one hour after the conclusion of the event and will be archived for approximately one month.

On October 6, 2020 The National Institutes of Health reported that it has awarded 85 grants through its High-Risk, High-Reward Research (HRHR) Program that will fund highly innovative and unusually impactful biomedical or behavioral research proposed by extraordinarily creative scientists (Press release, US NIH, OCT 6, 2020, View Source [SID1234568151]). Examples of supported research include understanding the role of neighborhoods on urban substance abuse, brain-machine interfaces that allow learning by both brain and machine, engineering multi-organs in a dish, and exploiting latent immune pathways to treat disease. The 85 awards total approximately $251 million over five years, pending available funds.

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The High-Risk, High-Reward Research program catalyzes scientific discovery by supporting research proposals that, due to their inherent risk, may struggle in the traditional peer-review process despite their transformative potential. Program applicants are encouraged to think "outside the box" and to pursue trailblazing ideas in any area of research relevant to the NIH’s mission to advance knowledge and enhance health.

"The breadth of innovative science put forth by the 2020 cohort of early career and seasoned investigators is impressive and inspiring," said NIH Director Francis S. Collins, M.D., Ph.D. "I am confident that their work will propel biomedical and behavioral research and lead to improvements in human health."

The High-Risk, High-Reward Research Program is part of the NIH Common Fund, which oversees programs that pursue major opportunities and gaps throughout the research enterprise that are of great importance to NIH and require collaboration across the agency to succeed. The High-Risk, High-Reward Research program manages the following four awards, including two awards aimed specifically to support researchers in the early stages of their careers:

The NIH Director’s Pioneer Award, established in 2004, challenges investigators at all career levels to pursue new research directions and develop groundbreaking, high-impact approaches to a broad area of biomedical, behavioral, or social science.
The NIH Director’s New Innovator Award, established in 2007, supports unusually innovative research from early career investigators who are within 10 years of their final degree or clinical residency and have not yet received a research project grant or equivalent NIH grant.
The NIH Director’s Transformative Research Award, established in 2009, promotes cross-cutting, interdisciplinary approaches and is open to individuals and teams of investigators who propose research that could potentially create or challenge existing paradigms.
The NIH Director’s Early Independence Award, established in 2011, provides an opportunity to support exceptional junior scientists who have recently received their doctoral degree or completed their medical residency to skip traditional post-doctoral training and move immediately into independent research positions.
NIH issued 10 Pioneer awards, 53 New Innovator awards, nine Transformative Research awards, and 13 Early Independence awards for 2020. Funding for the awards comes from the NIH Common Fund; Eunice Kennedy Shriver National Institute of Child Health and Human Development; National Cancer Institute; National Human Genome Research Institute; National Institute of Biomedical Imaging and Bioengineering; National Institute of Dental and Craniofacial Research; National Institute of General Medical Sciences; National Institute of Mental Health; National Institute of Neurological Disorders and Stroke; and National Institute on Aging.

On October 6, 2020 Integra LifeSciences Holdings Corporation (NASDAQ: IART), a leading global medical technology company,reported certain unaudited preliminary third quarter financial results (Press release, Integra LifeSciences, OCT 6, 2020, View Source [SID1234568150]). The company also announced that it will release full third quarter 2020 financial results on Wednesday, October 28, 2020 at 8:30 a.m. ET.

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Preliminary Third Quarter Revenue Results

Third quarter 2020 reported revenue is expected to be in the range of $368 million to $370 million, representing a decline of approximately 2.7% on a reported basis and approximately 1.8% on an organic basis compared to the third quarter of 2019.

These results exceeded the Company’s third quarter revenue outlook range provided in August during the second quarter conference call and represent a significant recovery from the second quarter decline of 32.6%. The sales improvement in the third quarter was broad-based across the Company’s major franchises. The preliminary results set forth above are unaudited and remain subject to completion of the Company’s financial closing procedures.

Third Quarter 2020 Financial Results Conference Call

The Company will release full third quarter 2020 financial results on Wednesday, October 28, 2020 before the market opens. In conjunction with the earnings release, Integra’s management team will host a conference call at 8:30 a.m. ET.
The live call is accessible by dialing (800) 353-6461 and using the passcode 9501226. A simultaneous webcast of the call will be available via the Company’s website at www.integralife.com.
A webcast replay of the call can be accessed through the Investor Relations homepage of Integra’s website at www.integralife.com. A replay of the call will be available until November 2, 2020 by dialing (888) 203-1112 and using the passcode 9501226.

On October 6, 2020 BioAtla, Inc., a global clinical-stage biotechnology company focused on the development of Conditionally Active Biologic (CAB) protein therapeutics, and BeiGene, Ltd. (Nasdaq: BGNE; HKEX: 06160), a commercial-stage biotechnology company, reported that the two companies have revised their previous global co-development and commercialization agreement for BioAtla’s investigational CAB CTLA-4 antibody, BA3071 (Press release, BeiGene, OCT 6, 2020, View Source [SID1234568149]). The previous agreement from April 2019 now becomes a global licensing agreement for BA3071, which was designed to be conditionally activated in the tumor microenvironment in order to reduce systemic toxicity and potentially enable safer combinations with checkpoint inhibitors, such as BeiGene’s anti-PD-1 antibody, tislelizumab.

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Under the amended terms of the agreement, BeiGene will hold an exclusive global license to BA3071 and will be solely responsible for its global clinical development and commercialization and have the right to receive all profits on any future sales net of royalty payments to BioAtla. In addition to the upfront payment BioAtla received upon execution of the original agreement, BioAtla is eligible to receive near-term development and regulatory milestone payments together with increased tiered royalties on worldwide sales. Additional terms of the amended agreement were not disclosed.

"BeiGene is a recognized leader in global clinical development, with broad oncology clinical programs, including tislelizumab, its anti-PD-1 antibody which is approved in China," said Scott Smith, President of BioAtla. "This amended agreement reflects both BeiGene’s commitment to BA3071 and BioAtla’s strategy of rapidly and broadly building our pipeline of innovative CAB oncology candidates. This amended agreement enhances BioAtla’s strategic execution capabilities to support the development of our product pipeline, advance compelling combination therapies, and address markets with strong growth potential and high unmet medical need. BA3071 is expected to become BioAtla’s third CAB candidate in clinical trials along with CAB-AXL-ADC and CAB-ROR2-ADC."

"BioAtla has developed a differentiated proprietary protein discovery and expression platform to generate CABs, which in turn have been applied to BA3071, a novel, investigational CTLA-4 inhibitor that is designed to be conditionally activated in the tumor microenvironment," commented Lai Wang, Ph.D., Senior Vice President, Head of Global Research, Clinical Operations & Biometrics and APAC Clinical Development at BeiGene. "The unique nature of BA3071 provides us with an exciting scientific rationale to investigate the combination of this investigational CTLA-4 antibody with our anti-PD-1 antibody, tislelizumab. We look forward to advancing the global development and commercialization of this potentially unique cancer therapy as a single agent or in combination with other therapies."

"We believe that our amended agreement with BeiGene will align and potentially accelerate the global development and potential commercialization of BA3071. BeiGene’s management of the global clinical trials of BA3071 in combination with BeiGene’s tislelizumab may advance the prospects of new combination therapies for the treatment of several cancer indications," stated Jay M. Short, Ph.D., Chairman, CEO and co-founder of BioAtla. "The expanded royalty rates also recognize the exceptional opportunity that CAB technology can provide for novel combination therapies."

About BA3071

BA3071 is a novel, investigational conditionally active CTLA-4 inhibitor. A Phase 1/2 multi-center, open-label study is planned to evaluate the safety, tolerability, pharmacokinetics, immunogenicity and antitumor activity of BA3071 alone and in combination with BeiGene’s tislelizumab, an anti-PD-1 antibody. The Investigational New Drug application for BA3071 has been cleared by the U.S. Food and Drug Administration.

Cytotoxic T-lymphocyte-associated antigen-4 (CTLA-4) is an inhibitory receptor expressed on T cells. The CTLA-4 pathway is a key immune checkpoint pathway that provides a downregulating signal to T cells. The blockade of CTLA-4 is intended to induce an antitumor immune response by promoting the activation and proliferation of tumor-specific T cells. Although inhibition of CTLA-4 has been shown to significantly improve antitumor response, it may also lead to immune attack of healthy cells. To minimize on-target off-tumor toxicity, BioAtla has applied its proprietary CAB technology with the intent to activate binding to the CTLA-4 receptor only on T cells in the tumor microenvironment.

Inhibition of immune checkpoints using anti-programmed cell death-1 (PD-1) or anti-CTLA-4 monoclonal antibodies has revolutionized the management of patients with advanced-stage melanoma and are among the most promising components of treatment approaches for many other cancers. Employing BioAtla’s proprietary CAB technology, BA3071 is designed to improve the efficacy and safety of anti-CTLA-4 therapy, as a monotherapy and in combination with other therapies, by restricting its activation and that of tumor specific T cells to the tumor microenvironment.

About Conditionally Active Biologics (CABs)

Conditionally Active Biologics are proteins 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 micro physiological 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 in aerobic cancer cells. 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), bispecifics, chimeric antigen receptor T-cells (CAR-Ts) and combination therapies.

About Tislelizumab

Tislelizumab is a humanized IgG4 anti-PD-1 monoclonal antibody specifically designed to minimize binding to FcγR on macrophages. In pre-clinical studies, binding to FcγR on macrophages has been shown to compromise the anti-tumor activity of PD-1 antibodies through activation of antibody-dependent macrophage-mediated killing of T effector cells. Tislelizumab is the first drug from BeiGene’s immuno-oncology biologics program and is being developed internationally as a monotherapy and in combination with other therapies for the treatment of a broad array of both solid tumor and hematologic cancers.

Tislelizumab is approved by the China National Medical Products Administration (NMPA) as a treatment for patients with classical Hodgkin’s lymphoma who received at least two prior therapies and for patients with locally advanced or metastatic urothelial carcinoma (UC) with PD-L1 high expression whose disease progressed during or following platinum-containing chemotherapy or within 12 months of neoadjuvant or adjuvant treatment with platinum-containing chemotherapy.

In addition, three supplemental new drug applications (sNDAs) for tislelizumab have been accepted by the Center for Drug Evaluation (CDE) of the NMPA and are under review, for first-line treatment of patients with advanced squamous non-small cell lung cancer (NSCLC) in combination with chemotherapy, for first-line treatment of patients with advanced non-squamous NSCLC in combination with chemotherapy, and for previously treated unresectable hepatocellular carcinoma.

Currently, 16 potentially registration-enabling clinical trials are being conducted in China and globally, including 12 Phase 3 trials and four pivotal Phase 2 trials.

Tislelizumab is not approved for use outside of China.