On March 17, 2021 Panbela Therapeutics, Inc. (Nasdaq: PBLA), a clinical stage biopharmaceutical company developing disruptive therapeutics for the treatment of patients with cancer reported that it will host a conference call on March 25, 2021 at 4:30 PM Eastern Time to discuss results for its fourth quarter ended December 31, 2020 (Press release, Panbela Therapeutics, MAR 17, 2021, View Source [SID1234583754]).

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Conference Call Information

To participate in this event, dial approximately 5 to 10 minutes before the beginning of the call.

About SBP-101

SBP-101 is a proprietary polyamine analogue designed to induce polyamine metabolic inhibition (PMI) by exploiting an observed high affinity of the compound for pancreatic ductal adenocarcinoma and other tumors. The molecule has shown signals of tumor growth inhibition in clinical studies of US and Australian metastatic pancreatic cancer patients, suggesting potential complementary activity with an existing FDA-approved standard chemotherapy regimen. In data evaluated from clinical studies to date, SBP-101 has not shown exacerbation of bone marrow suppression and peripheral neuropathy, which can be chemotherapy-related adverse events. Recently observed serious visual adverse events are being evaluated and the FDA has issued a partial clinical hold for the impacted study, pending Panbela’s evaluation and response. The safety data and PMI profile observed in the current Panbela sponsored clinical trial generally provides potential support for continued evaluation of the compound in a randomized clinical trial, subject to Panbela’s submission of a complete response and the FDA’s removal of the partial clinical hold. For more information, please visit View Source

On March 17, 2021 Minomic reported that positive results from our collaborative research evaluating Minomic’s GPC-1 antibody for the detection of pancreatic cancer (one of the deadliest cancers) in collaboration with BARD1 Life Sciences Ltd EXO-NET exosome capture technology (Press release, Minomic, MAR 17, 2021, View Source [SID1234577225]).

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Minomic’s GPC-1 antibody specifically binds EXO-NET isolated exosomes from pancreatic cancer but not healthy exosomes demonstrating a feasible approach for pancreatic cancer detection. You can read the ASX release from BARD1 here: View Source

We continue with the roll-out of our MiCheck Prostate test in Australia having piloted patient testing at Macquarie University Hospital Urology Clinic. We are also well progressed with our US roll-out plans.

On March 17, 2021 Academy Award winner Jamie Foxx has joined Stand Up To Cancer (SU2C) and Exact Sciences for a new public service announcement (PSA), reported that which raises awareness about colorectal cancer screenings, early detection and prevention, and focuses on reaching underrepresented communities (Press release, Exact Sciences, MAR 17, 2021, View Source [SID1234577020]). The campaign launched today to coincide with Colorectal Cancer Awareness Month and is in both English and Spanish. The PSA will be placed across print, broadcast, radio, digital and out-of-home outlets.

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"Cancer affects everyone. I’ve lost good friends – young friends – to this deadly disease," said Foxx. "We need to make sure that we are taking care of our bodies, paying attention to certain things, that you didn’t necessarily think about when you were younger. Medical issues come up and you may not know what’s at your disposal, so that is why I am proud to shine a light on the importance of getting screened for colon cancer early and bring awareness to the options that are available with this PSA campaign."

In 2020, nearly 148,000 Americans received a new diagnosis of colon or rectal cancer. Black people have the highest colorectal cancer rates of any ethnic group in the United States. They are 20% more likely to get colorectal cancer and 40% more likely to die from it than any other population. And research has shown that colorectal cancer screening rates are the lowest in Hispanic communities, with Black and Hispanic people typically being diagnosed at a later stage in the disease when it is more difficult to treat.

"We are so thankful to Jamie Foxx for lending his voice to this campaign. We have seen a sharp drop in screenings as a result of COVID-19, and this compounds an already significant screening disparity in minority communities," said Sung Poblete, PhD, RN, CEO of Stand Up To Cancer. "With routine screening, colorectal cancer is one of the most preventable cancers. It’s beatable in 90% of cases when detected early, and lives can be saved with just one simple step. People must get screened!"

"We are thrilled to partner with Jamie Foxx and our friends at Stand Up To Cancer to get more people thinking about their options for colorectal cancer screening," said Kevin Conroy, chairman and CEO of Exact Sciences. "We remain committed to addressing the challenges we face in colorectal cancer screening and helping to save lives with education, awareness and cutting-edge research. Providing personalized outreach and making it easier to get people screened is vital, especially in minority communities."

The PSA campaign is part of a larger initiative between Exact Sciences and SU2C. With a $10 million grant from Exact Sciences, SU2C will launch a new colorectal cancer ‘Dream Team’ of researchers that will identify communities near anchor institutions serving medically underserved communities. This Dream Team will help pinpoint unique local needs of those areas and will provide free colorectal cancer testing in the identified zones and study samples collected via approved tests for colorectal cancer, including colonoscopy, CT colonography, flexible sigmoidoscopy, and at-home stool tests that analyze fecal DNA and/or blood. The research will aim to develop better approaches to colorectal cancer interception.

The PSA was directed by Tommy Walker and photographed by G.L. Askew II for Petrol Advertising, a creative marketing and advertising agency specializing in gaming, sports, technology and philanthropy. Walker co-directed and produced the feature-length documentary, God Grew Tired of Us, which won Best Documentary and Audience Award at the 2006 Sundance Film Festival and produced the 2019 documentary, Toni Morrison: The Pieces I Am. Askew, originally from Atlanta, is an artist whose work is rooted in communicating the truth of the human experience.

On March 17, 2021 Scientists at Sanford Burnham Prebys Medical Discovery Institute reported that have identified a drug candidate that blocks the uptake of glutamine, a key food source for many tumors, and slows the growth of melanoma. The drug is a small molecule that targets a glutamine transporter, SLC1A5, which pumps the nutrient into cancer cells—offering a promising new approach for treating melanoma and other cancers. The study was published in the journal Molecular Cancer Therapeutics.

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"While great strides have been made recently in the treatment of melanoma, many patients’ tumors become resistant to therapy, and this has become a major obstacle in the successful treatment of the disease," says Ze’ev Ronai, Ph.D., director of the National Cancer Institute (NCI)-designated Cancer Center at Sanford Burnham Prebys and senior author of the study. "This study describes a promising compound that selectively targets the uptake of glutamine, an amino acid nutrient that tumors rely on for survival. We are hopeful this drug will fill an unmet medical need for people living with this deadly cancer."

More than 7,000 people die from melanoma each year in the U.S., according to the American Cancer Society, and cases continue to increase annually. In the past decade, immunotherapy and personalized treatments have extended survival times for many patients. However, because of the high incidence of cancer recurrence, scientists are increasingly focused on therapeutic strategies to prevent relapse and increase overall survival.

"This is a very important study because many targeted drugs for melanoma treatment have been significantly hindered by the rapid development of treatment resistance, sometimes as quickly as within several months. While immunotherapy approaches are promising, they are only effective in a subset of patients, and treatment resistance can also develop in this setting as well," says M. Celeste Simon, Ph.D., Arthur H. Rubenstein, MBBCh Professor in the department of Cell and Developmental Biology and scientific director of the Abramson Family Cancer Research Institute at the Perelman School of Medicine at the University of Pennsylvania. "The drug candidate identified in Dr. Ronai’s study offers an exciting new therapeutic approach for treating tumors addicted to glutamine, which includes a long list of human cancers, and will hopefully lengthen the amount of time that people with melanoma respond to available treatments."

Blocking the tumor’s food supply

Researchers know that rapidly growing tumors are able to reprogram their metabolism to generate extra energy to survive and grow. Tumors often achieve this by pumping increasing levels of the amino acid glutamine into their cells, primarily through a pump called SLC1A5. As a result, cancer researchers are working to find drugs that block SLC1A5 and reduce glutamine levels.

In the study, Ronai and his team set out to identify drug(s) that can inhibit glutamine uptake. Working in collaboration with researchers at the Institute’s Conrad Prebys Center for Chemical Genomics, the scientists screened 7,000 diverse compounds for their ability to interfere with SLC1A5. This work identified about 20 hits, or promising options, and one was selected based on its superior ability to prevent SLC1A5 from reaching the cell membrane. This drug candidate, IMD-0354, inhibited tumor growth in both cell culture and in mice with melanoma.

"Our study shows that targeting SLC1A5, which stops glutamine from ever entering the cell in the first place, is an effective way to slow cancer cell growth," says Yongmei Feng, Ph.D., staff scientist in the Ronai lab at Sanford Burnham Prebys and first author of the study. "Because many tumor types are dependent upon glutamine for survival, this drug may be able to treat many different types of cancers."

As a next step, Ronai and his team will further refine IMD-0354, with a focus on improving biophysical properties that will help accelerate preclinical evaluation of the drug candidate.

Additional study authors include Gaurav Pathria, Susanne Heynen-Genel, Michael Jackson, Brian James, Jun Yin and David A. Scott of Sanford Burnham Prebys. The study’s DOI is 10.1158/1535-7163.MCT-20-0354.

Research reported in this press release was supported by the National Institutes of Health (NIH) (R35CA197465, P30CA030199), the Department of Defense (DoD) (CA1810216), and the Melanoma Research Alliance (509524).

On March 17, 2021 PerkinElmer, Inc., a global leader committed to innovating for a healthier world, reported its industry-leading documentation, workflow and decision making Signals informatics platform is being expanded to build on existing capabilities in the biologics drug discovery space (Press release, PerkinElmer, MAR 17, 2021, View Source [SID1234576892]). This comes through a collaboration with Insightful Science, a software company serving the global life sciences community.

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With the collaboration, pharmaceutical and academic research teams can bring together the power of the PerkinElmer Signals platform with leading solutions from Insightful Science’s Bioinformatics division. This includes the popular SnapGene and Geneious Prime software offerings that help molecular biologists design and execute DNA construct design, molecular cloning and other kinds of molecular biology research. The integration will give scientists the ability to access and compare data across experiments and instruments and collaborate more intuitively. They can also replicate assays and experiments instantly, leading to faster time-to-result and more informed decision making on drug and vaccine targets.

"There is a limited availability of IT tools in the biologics space," said Kevin Willoe, VP and GM of PerkinElmer, Informatics. "Through our collaboration with Insightful Science, we’re able to provide enhanced informatics capabilities to scientists doing vital biologics and vaccine research. This will help significantly reduce cycle times for researchers and aid them in making data-driven decisions faster and more accurately – important capabilities when fighting foes like cancer, cardio, neurological and viral diseases."

"The integration of best-in-class scientific software with cloud-based data platforms is increasingly essential for modern pharmaceutical and biotech enterprises to streamline research and ensure the integrity of valuable data," added Brett Ammundsen, CEO Bioinformatics at Insightful Science. "The combination of SnapGene and Geneious Prime software with the PerkinElmer Signals platform powerfully enhances research workflows and enriches collaboration. Ultimately this will better connect scientists to their ideas and data, so they can focus on producing life-changing outcomes."