On October 2, 2020 University of California San Francisco reported that Though cancer immunotherapy has become a promising standard-of-care treatment – and in some cases, perhaps a cure – for a wide variety of different cancers, it doesn’t work for everyone, and researchers have increasingly turned their attention to understanding why (Press release, University of California San Francisco, OCT 2, 2020, View Source [SID1234568068]).

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For example, doctors have noticed that patients who initially respond well to the immunotherapy drugs known as checkpoint inhibitors, such as those that target a protein called PD-1, can develop resistance to these therapies if their cancer has metastasized from its initial location to form additional tumors in the liver – even if their primary cancer is quite distant from the liver.

In a new study published Oct. 2 in Science Immunology, a UC San Francisco research team led by Hematology and Oncology Clinical Fellow James Lee, MD, MHS, used a unique mouse model to figure out how this happens.

Then, the researchers, including senior author Jeffrey Bluestone, PhD, adjunct professor of microbiology and immunology and the A.W. and Mary Margaret Clausen Distinguished Professor of Metabolism and Endocrinology, showed that adding a second type of checkpoint inhibitor in a combination therapy can overcome this resistance, and might significantly increase the effectiveness of immunotherapy in patients with liver metastases.

"The liver actually triggers differences in immune cells at distant sites," Lee said. And what’s more, he added, "the liver can choose its enemy – what it wants to protect or not protect."

Cancers are sometimes able to avoid detection within the body by cloaking themselves from the immune system. They can produce large quantities of proteins like PD-L1, which "switch off" cells called regulatory T cells (Tregs; pronounced "tee-regs"), in turn tamping down the immune response of other T cells that attack cancer. Some checkpoint inhibitors counteract this cloaking process by preventing PD-L1 from binding to the PD-1 off-switches on T cells, allowing a normal defensive immune response against cancer cells.

The liver, which is tasked with filtering large quantities of blood directly from the digestive system and the rest of the body, plays an unexpectedly large role in regulating the immune system – specifically, by signaling which of the scavenged proteins it encounters as it does its job are from hostile invaders and which should be ignored.

In work supported by the Parker Institute for Cancer Immunotherapy, the scientists simulated metastasis by implanting mice with cancer cells in two separate locations, first under the skin and in then either the liver or the lung. They found evidence that when cancer takes hold in the liver it is "uniquely suppressive," said Lee – able to harness the liver’s powers to retrain the immune system and exert its influence on the immune response to related cancers that are distant in the body.

Compared to mice with secondary cancers implanted in the lung, survival rates were significantly worse in mice with secondary liver cancers after anti-PD-1 treatment: the immune system did not learn to recognize the liver tumor or, notably, the related tumor implanted under the skin.

That level of immune-system discernment clued the team in on a possible mechanism, because "only a few types of cells can be that specific in regulating the immune system," Lee said, including Tregs. Bluestone has spent decades studying these cells, and that’s where the researchers looked for an explanation. Could a liver tumor change the response of Tregs, and thus other T cells, to a separate, but related, tumor?

Using single-cell analyses, the team showed that, in mice with liver tumors, T cells associated with the related "primary" tumor were not as highly activated. Finally, the researchers showed that liver tumors change which genes are expressed in Tregs and, through those cells, a host of other immune-system cells as well. "It turned out that there wasn’t a difference in the quantity of Tregs between the skin tumors of mice with liver cancers and the mice without liver cancers. It was a difference in quality," Lee said.

Since liver tumors caused Tregs to suppress the T cell response against tumors, the researchers tested two drugs to see if they could override the effect of the Tregs. The first was a drug that blocks the T cell checkpoint inhibitor CTLA-4, which unleashes these cells to attack cancer; in the 1990s, Bluestone did pioneering research on CTLA-4 that helped lay the foundations for cancer immunotherapy. The second drug, another anti-CTLA-4 compound, targets Tregs directly and depletes their numbers. Both restored the effectiveness of anti-PD-1 therapy, though the anti-CTLA-4 drug that depletes Tregs was more effective.

The researchers hope to apply this combination therapy in the future to patients whom they know ahead of time are less likely to respond to treatment.

"We’ve never had this kind of precision in immunotherapy in the past," Lee said. "What if, right from the start, you could use a drug that depletes Tregs as a complement to immunotherapy in patients with liver metastasis?"

Authors: Joining Lee and Bluestone, all from UCSF, were Sadaf Mehdizadeh, Jennifer Smith, PhD, Arabella Young, PhD, Ilgiz A. Mufazalov, PhD, Cody Mowery, and Adil Daud, MD.

Funding: In addition to the Parker Institute, support for this research came from an A.P. Giannini Postdoctoral Research Fellowship Award to Lee, and from the National Institutes for Health/NIAID (T32 5T32AI007334-28).

The University of California, San Francisco (UCSF) is exclusively focused on the health sciences and is dedicated to promoting health worldwide through advanced biomedical research, graduate-level education in the life sciences and health professions, and excellence in patient care. UCSF Health, which serves as UCSF’s primary academic medical center, includes top-ranked specialty hospitals and other clinical programs, and has affiliations throughout the Bay Area.

On October 1, 2020 Bicycle Therapeutics plc (Nasdaq: BCYC), a biotechnology company pioneering a new and differentiated class of therapeutics based on its proprietary bicyclic peptide (Bicycle) technology, reported that it has completed its at-the-market (ATM) offering program initiated during the third quarter, generating gross proceeds of $50.0 million (Press release, Bicycle Therapeutics, OCT 1, 2020, View Source [SID1234567869]). Cantor Fitzgerald & Co. and Oppenheimer & Co. Inc. acted as placement agents for the offering.

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In addition, Bicycle announced that it has closed a financing with Hercules Capital, Inc. (NYSE: HTGC) for a term loan of up to $40.0 million in two tranches. Under the terms of the loan and security agreement, an initial tranche of $30.0 million will be fully available at the loan closing, with a minimum draw of $15.0 million.

"I am pleased to announce the successful utilization of our ATM program and our flexible financing with Hercules, which have further strengthened our balance sheet as we prepare for multiple clinical catalysts in the coming year. Over the course of 2020, we have continued to execute on our financing strategy, generating approximately $120 million, over half of which was non-dilutive and the remainder was pursuant to our ATM program," said Lee Kalowski, President and Chief Financial Officer of Bicycle Therapeutics. "These financings allow us to continue progressing our three clinical programs, support clinical development of our lead immuno-oncology candidate BT7480, expected to start next year, and extend our cash runway well into the first half of 2023. We believe we have the financial resources to advance our clinical and pre-clinical oncology pipeline with the aim of potentially shifting the treatment paradigm for patients with cancer who have limited therapeutic options."

Bicycle plans to use the proceeds of the financings to advance its oncology pipeline of Bicycle Toxin Conjugates and immuno-oncology candidates through multiple clinical milestones expected in 2021, including interim updates from the ongoing Phase IIa trial of BT1718, Phase I/II trial of BT5528 and Phase I/II trial of BT8009, as well as the initiation of a Phase I/II trial of BT7480 and advancement of IND-enabling studies for BT7455.

The securities described above were offered by Bicycle pursuant to a shelf registration statement on Form S-3 previously filed with the Securities and Exchange Commission (the "SEC"), which the SEC declared effective on June 15, 2020. A final prospectus supplement related to the offering was filed with the SEC and is available on the SEC’s website located at View Source Additional information about the debt facility with Hercules will be contained in a future Current Report on Form 8-K to be filed by the Company with the U.S. Securities and Exchange Commission.

This press release does not constitute an offer to sell or a solicitation of an offer to buy, nor may there be any sale of Bicycle’s common stock in any state or jurisdiction in which such an offer, solicitation or sale would be unlawful prior to registration or qualification under the securities law of any state or jurisdiction.

On October 1, 2020 Biocept, Inc. (Nasdaq: BIOC), a leading commercial provider of molecular diagnostic assays, products and services designed to provide physicians with clinically actionable information to improve patient outcomes, reported the upcoming presentation of results from a prospective study using its Target Selector testing of the cerebrospinal fluid in patients with non-small lung cancer (NSCLC) (Press release, Biocept, OCT 1, 2020, View Source [SID1234567940]). The study results will be discussed in a poster presentation at the International Association for the Study of Lung Cancer (IASLC) Virtual Lung Cancer Hot Topic Meeting: Liquid Biopsy by David Berz, MD, PhD, MPH of the Beverly Hills Cancer Center, on October 2 from 2:30-3:30 p.m. Eastern time.

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Central nervous system involvement by metastasis occurs in 3% to 4% of patients with NSCLC and 9% of NSCLC patients with EGFR mutations. Involvement of the lepto-meninges, thin membranous connective tissue layers with blood vessels that surround the brain and spinal cord, accounts for deteriorating neurologic function, mental status changes and poor prognosis in these patients, but can be difficult to diagnose with current methods.

This prospective study evaluated results from Biocept’s combined circulating tumor cell (CTC) and circulating tumor DNA (ctDNA) liquid biopsy testing compared to conventional cytology examination, the current standard-of-care, for confirming the diagnosis of leptomeningeal metastases in patients with EGFR-mutated NSCLC undergoing treatment with Tesevatinib, an experimental EGFR tyrosine kinase inhibitor (NCT02616393).

"Testing the cerebrospinal fluid of patients for metastases to the central nervous system is a key component of our oncology testing business," said Michael Nall, President and CEO of Biocept. "We are excited that Dr. Berz, a national thought leader in lung malignancies and personalized oncology treatment, will present these results at the IASLC conference which features the latest developments in cancer treatment including liquid biopsy clinical utility."

About the IASLC 2020 Lung Cancer Hot Topic Meeting: Liquid Biopsy

There have been numerous advances in liquid biopsy since this event’s advent in 2018, and the concept of a "blood-first" approach—superseding or replacing tissue biopsy—is a current topic of much debate and discussion. This innovative virtual conference will bring together international and multidisciplinary experts in the field of liquid biopsy in lung cancer to present and discuss current technology and best practices for clinical applications based on available data.

About the IASLC

The International Association for the Study of Lung Cancer (IASLC) is the only global organization dedicated solely to the study of lung cancer and other thoracic malignancies. Founded in 1974, the association’s membership includes nearly 9,000 lung cancer specialists across all disciplines in over 100 countries, forming a global network working together to conquer lung and thoracic cancers worldwide. The association also publishes the Journal of Thoracic Oncology, the primary educational and informational publication for topics relevant to the prevention, detection, diagnosis and treatment of all thoracic malignancies. Please visit www.iaslc.org for more information.

On October 1, 2020 CNS Pharmaceuticals, Inc. (NASDAQ: CNSP) ("CNS" or the "Company"), a biopharmaceutical company specializing in the development of novel treatments for primary and metastatic cancers of the brain and central nervous system, reported that the Company’s GMP manufacturer partner NCK A/S, received a Certificate of Analysis (CoA) for its Active Pharma Ingredient (API), clearing it for use in the production of Berubicin (Press release, CNS Pharmaceuticals, OCT 1, 2020, View Source [SID1234567943]).

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As previously announced, CNS signed a contract with NCK A/S for the large-scale production of Berubicin, its lead drug candidate for the treatment of glioma brain tumors. NCK A/S is a GMP manufacturer of complex drugs located in Farum, Denmark, and the previous producer of Berubicin for Reata Pharmaceuticals. NCK A/S production of Berubicin should ensure drug availability through the end of Phase 2 clinical trials for glioblastoma.

"We believe the execution of this critical manufacturing milestone positions the company advantageously ahead of our expected U.S. Phase 2 trial," stated John Climaco, CEO of CNS Pharmaceuticals. "Our partnerships have proven instrumental in further progressing the manufacturing process necessary to continue the clinical development of our lead candidate. We look forward to continuing the work underway and to initiating our U.S. Phase 2 trial in Q1 of 2021."

On October 1, 2020 Simbec-Orion reported a charter agreement between the Oncodistinct Network and Simbec-Orion. The agreement strengthens the relationships between Simbec-Orion and the Oncodistinct network of oncology sites, who partner in operations and scientific expertise in the design and conduct of international early phase oncology trials (Press release, Simbec-Orion, OCT 1, 2020, View Source [SID1234567953]).

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"As a full-service agile Oncology CRO, dedicated to high quality delivery, the partnership between the Oncodistinct Network and Simbec-Orion provides benefits to both sponsors and patients," says Fabrice Chartier CEO at Simbec-Orion.

The Oncodistinct network is committed to accelerating oncology drug development and innovative strategies in clinical and translational research.

"This partnership with Simbec-Orion aligns with our network’s principles and activities, and underscores our commitment to innovative clinical research" says Professor Ahmad Awada from Oncodistinct.

The benefits of this agreement will include:

Streamlining of process and communication between sites, Simbec-Orion and sponsors to drive efficiencies in the setup and delivery of trials including the reduction of administrative burden in confidentiality agreements, feasibility efforts and contract negotiation
Commitment to fast-track feasibility within five working days of receipt
Expert and strategic advice on study design, protocol review and development