On June 21, 2022 Race Oncology Limited ("Race") reported that two peer reviewed research poster abstracts detailing new preclinical data on the anti-cancer uses of Zantrene (also known as bisantrene or CS1) have been published in the prestigious scientific journal, Cancer Research, following their recent presentation at the American Association of Cancer Research (AACR) (Free AACR Whitepaper) Annual Conference in New Orleans, from April 8 – 13, 2022 (Press release, Race Oncology, JUN 21, 2022, View Source [SID1234616227]).

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The two posters were presented by researchers from the City of Hope Hospital and Chicago University, including Race’s Scientific Advisory Board member, Professor Jianjun Chen. They describe the use of Zantrene as a potent inhibitor of FTO – the Fat Mass and Obesity-associated protein.

The first abstract describes preclinical data demonstrating Zantrene’s ability to inhibit FTO and suppress pancreatic carcinogenesis via targeting cancer stem cell maintenance. Pancreatic cancer has few effective treatment options and patients need better treatments for this devastating disease.

The second abstract explores the use of Zantrene as an adjunctive treatment able to overcome colorectal cancer resistant to 5-FU based chemotherapy via inhibition of FTO in both cell and mouse models. Resistance to 5-FU is a significant clinical issue as this drug remains a backbone of colorectal cancer treatment.

This important research exploring Zantrene utility in pancreatic cancer and colorectal cancer complements Race’s own recent findings that Zantrene can inhibit FTO in AML, melanoma and clear cell renal cell carcinoma.

On June 21, 2022 Researchers at Case Western Reserve University and the University of Washington reported that expect to gain valuable new insights into highly aggressive prostate cancer by combining Artificial Intelligence (AI)-powered diagnostic imaging with three-dimensional (3D) tissue imaging (Press release, Case Western Reserve University, JUN 21, 2022, View Source [SID1234616172]).

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This new AI-3D collaboration will provide a never-before-seen, expanded view and understanding of prostate cancer cells, made possible by a new approach called "light sheet microscopy," the researchers said. (Seen in photo above by Mark Stone/University of Washington).

Prostate cancer is the most common non-skin cancer in the United States. Doctors will diagnose one in eight men nationally with prostate cancer, and one in 40 will die from the disease, according to the Prostate Cancer Foundation.

Anant Madabhushi, director of the Center for Computational Imaging and Personalized Diagnostics at Case Western Reserve, and Jonathan Liu, a professor of mechanical engineering and bioengineering at the University of Washington (UW), are co-leaders in the new work and will split the funding. The National Cancer Institute (NCI), part of the National Institutes of Health, is supporting the research with a five-year, $3.13 million grant.

"This is an unprecedented meshing of the two most powerful technologies in this area," said Madabhushi, also the Donnell Institute Professor of Biomedical Engineering at the Case School of Engineering. "We’ll take the AI we’ve developed and, for the first time, be able to apply it to 3D tissue-imaging that the University of Washington excels in—and gain fine, granular detail."

Liu said collaboration with Madabhushi’s lab at Case Western Reserve was "an obvious and ideal choice since developing explainable AI methods will facilitate clinical adoption of a new imaging technology such as ours."

Identifying aggressive cancer
That fine detail will hopefully reveal even more information about how to identify which prostate cancer cases will be more aggressive in patients, Madabhushi said.

Knowing that could help clinicians determine who would benefit from surgery or radiation therapy—and which patients might be actively monitored instead, he said.

Researchers could also be laying the groundwork to develop what are called "pathomic-based classifiers" of disease outcome for a host of other cancers, Madabhushi said.

Pathomics refers to the application of computer vision and AI to extract a large number of features from tissue images using data-characterization algorithms. The features can then help uncover tumors and other characteristics usually invisible to the naked eye.

Madabhushi’s lab, established in 2012, has become a global leader in the field, specializing in the detection, diagnosis and characterization of various cancers and other diseases by meshing medical imaging, machine learning and AI.

Until now, researchers were using machine learning to focus entirely on two-dimensional images.

"We believe that we’ll be able to train our AI to interrogate 3D tissue images with the same success we have had with two-dimensional images," Madabhushi said. "But there are so many new possibilities for finding new information in 3D."

How 3D fits in
Liu and his team have developed a new, non-destructive method that images entire 3D biopsies instead of just a slice. This technique provides full-view images of the tissue and improved predictions of whether the patient had an aggressive cancer.

Jonathan Liu
"With the success of our open-top light-sheet microscopy technologies, an obvious next challenge to overcome was processing and analyzing the massive feature-rich 3D datasets that we were generating from clinical specimens," Liu said. He said collaborating with Madabhushi’s lab at Case Western Reserve was an "obvious and ideal choice, since developing explainable AI methods will facilitate clinical adoption of a new imaging technology such as ours."

"This (grant) will help us to scale up our existing collaboration to demonstrate that computational 3D pathology can improve critical treatment decisions for diverse populations of men with prostate cancer," Liu said.

The 3D images, of course, provide more information than a 2D image. In this case, that means details about the intricate tree-like structure of the glands throughout the tissue.

The advances in 3D technology made by Liu were detailed in a paper published in December 2021 in the journal Cancer Research. Madabushi and three others at Case Western Reserve contributed to the academic paper.

The UW researchers reported in that paper that the 3D features made it easier for a computer to identify which patients were more likely to have cancer return within five years.

Liu had said in a UW news blog that this "non-destructive 3D pathology" would become increasingly valuable in clinical decision-making, such as which patients would require more aggressive treatment or respond to certain drugs.

This new NCI grant complements work supported in an ongoing U.S. Department of Defense grant led by Madabhushi, with Liu as a collaborator. That project combines AI and light sheet-based 3D tissue-imaging technology for studying health disparities in prostate cancer.

On June 21, 2022 Minneapolis-based Humanetics Corporation (Humanetics) reported that it has entered into a new $5.1 million cooperative research agreement with the U.S. Department of Defense (DOD) to continue advanced development of BIO 300, a medical countermeasure to protect military personnel and first responders from the harm caused by radiation exposure (Press release, Humanetics, JUN 21, 2022, View Source [SID1234616156]).

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The new funding will be used to create, manufacture, and test a new formulation of BIO 300 that can be self-administered using an auto injector. Auto injectors are commonly used by the military to deliver fast-acting drugs such as atropine and naloxone. This new formulation of BIO 300 will complement the existing suite of oral formulations in the Humanetics portfolio that have been tested extensively and are in phase 2 trials. It is envisioned that the DOD would have access to both oral and auto injectable forms of BIO 300, which each have a unique use case.

"With the increasing potential for use of radiological or nuclear weaponry in the current global environment, especially with events in Ukraine, it’s a strategic imperative to protect our armed forces and first responders from radiation exposure and enable them to operate in areas of concern," said Ronald Zenk, President and CEO at Humanetics.

BIO 300’s radioprotective attributes were originally discovered by researchers within the DOD at the Armed Forces Radiobiology Research Institute. The drug was licensed to Humanetics Corporation, which is leading its advanced development toward FDA approval. In parallel to the drug’s development for use as a medical countermeasure, Humanetics is evaluating the drug in clinical trials to determine its potential to reduce the toxic side effects of radiation in cancer patients and to reduce lung damage in COVID-19 long-haulers.

"We are enthused and encouraged by the DOD’s continued investment in the development of BIO 300 as a medical countermeasure," said Zenk. "We see this drug not only providing protection for our warfighters, but also for our embassy personnel around the world and civilian populations who are at risk of radiation exposure from nuclear incidents and, furthermore, to improve the lives of cancer and COVID-19 patients."

On June 21, 2022 PharmaJet, a biotech company that has developed a more effective way of administering drugs and biologics with their innovative, needle-free injection technology, reported that its partner, Nykode Therapeutics announced positive interim results from its phase 2 trial of their novel candidate, VB10.16, in combination with checkpoint inhibitor atezolizumab for treating advanced cervical cancer (Press release, Nykode Therapeutics, JUN 21, 2022, View Source [SID1234616155]). The DNA-based therapeutic cancer vaccine is delivered with the PharmaJet needle-free injection technology.

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HPV is the cause of 630,000 cases of cancers annually1 and HPV16 is the predominant cause. To address this, Nykode Therapeutics is continuing to advance their cervical cancer program with their therapeutic DNA immunotherapy (VB10.16) targeting malignancies caused by the cancer inducing Human Papillomavirus 16 (HPV16). The PharmaJet Needle-free Injection System is proven to increase vaccine effectiveness and in addition was chosen by Nykode for its convenient ease of use.

The interim results demonstrate evidence of anti-tumor activity in a population of heavily pre-treated patients with late-stage cervical cancer. The majority of patients experienced a clinical benefit, and many had durable responses, indicating that VB10.16 may give a meaningful added clinical benefit compared to the existing standard of care treatment in this setting.

Chris Cappello, President and CEO, PharmaJet, commented, "We are encouraged by the phase 2 clinical trial results, and continued expansion of the Nykode clinical trials using our Needle-free Injection System. The number of disease applications for DNA vaccines and therapeutics using our delivery systems continues to grow. This is another example of how our needle-free systems are helping novel DNA technologies move successfully into early and late-stage clinical trials."

For more information about PharmaJet visit www.pharmajet.com.

Refer to Instructions for Use to ensure safe injections and to review risks.

1 HPV New Zealand project; HPV and Cancer, View Source

On June 21, 2022 Adicet Bio, Inc. (Nasdaq: ACET), a clinical stage biotechnology company discovering and developing first-in-class allogeneic gamma delta chimeric antigen receptor (CAR) T cell therapies for cancer, reported that company management will participate in two upcoming investor conferences in June (Press release, Adicet Bio, JUN 21, 2022, View Source [SID1234616154]).

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Details of the events are as follows:

Truist Securities Cell Therapy Symposium, Symposia-cel, June 28, 2022

Chen Schor, President & CEO, will participate in a panel discussion titled, "The Next Cells & Mechanisms to Watch in Oncology" on Tuesday, June 28, 2022, at 11:30 A.M. ET.
Stifel 2022 Virtual Cell Therapy Summit, June 29-30, 2022

Chen Schor, President & CEO, will participate in a panel discussion titled, "Outlining the Potential of New Cell Types and Novel Approaches" on Wednesday, June 29, 2022, at 1:00 P.M. ET.