Recent in-vitro lab results confirm that the Company's Smart mRNA can be used as a potential on/off switch for selectively detecting cancer cells
Lehi, Utah, Dec. 20, 2024 (GLOBE NEWSWIRE) -- CancerVax Passes First Test with Flying Colors
Recent in-vitro lab results confirm that the Company's Smart mRNA can be used as a potential on/off switch for selectively detecting cancer cells
Lehi, Utah - December 20, 2024 - CancerVax, Inc., the developer of a breakthrough universal cancer treatment (UCT) platform that will use the body's immune system to fight cancer, today announced the successful functional validation of its innovative Smart mRNA (messenger RNA) technology in lab tests.
The Company's novel approach detects and universally marks cancer cells as common diseases such as measles. This tricks the natural immune system into mounting a strong immune response and kills cancer cells as if they were measles. The CancerVax technology uses a precision 2-step cancer detection mechanism in a highly functionalized nanoparticle.
Step 1: the nanoparticle latches onto cells with surface proteins highly expressed on cancer cells. Step 2: the nanoparticle releases a proprietary Smart mRNA payload that is conditionally activated based on natural genetic signatures. When the Smart mRNA encounters a cancer-specific signature, it forces the cancer cell to start producing measle proteins, which disguises the cancer cell as measles and attracts the immune cells. When it encounters a healthy cell signature, the Smart mRNA will not turn on, leaving the healthy cell un-harmed. This on/off cancer signature detection is a very exciting feature that we believe will improve the efficacy and safety of our treatment.
Since August 2024, the Company has been working with Flashpoint Therapeutics to leverage its Structural Nanomedicine (SN) system to deliver and confirm the on/off functionality of the CancerVax Smart mRNAs.
Recent positive lab confirmation of Smart mRNA functionality is a tremendous milestone for the Company. This marks a significant step in CancerVax's mission to develop effective treatments for hard-to-treat cancers, including pancreatic ductal adenocarcinoma (PDAC).
Goals of the Flashpoint Collaboration:
- Demonstrate the successful incorporation of our Smart mRNA payload into Flashpoint SNAs
- Confirm that Smart mRNAs can be delivered into cancer cells and non-cancerous cells
- Confirm that Smart mRNAs can be turned on and off by introducing the expected genetic signatures
- Smart mRNAs were successfully delivered to pancreatic, lung, Ewing sarcoma, and breast cancer cell lines, as well as a positive control non-cancerous cell line with very high transfection rate.
- In all the above cell lines, Smart mRNAs were successfully turned off when the corresponding genetic signature was added.
Next Steps in Development
With this successful validation, CancerVax will now advance to the following milestones:
- Creation of cell-targeting nanoparticles to perform Step 1 functionality.
- Development of an optimized Smart mRNA that specifically detects PDAC (Pancreatic Cancer) cells, and make it look like measles
- Integration of these components into the complete CancerVax therapeutic nanoparticle
- Perform in-vivo mouse model testing for PDAC treatment
Dr. George Katibah, Chief Scientific Officer of CancerVax said, "These exciting results provide important proof of principle for our Smart mRNA technology's ability to limit expression to cells with a specific genetic signature such as tumor cells while sparing normal tissue. We are now developing an optimized therapeutic mRNA for PDAC that will direct the immune systems to selectively target pancreatic tumor cells by forcing the tumor to express measles proteins. We hope to extend our current results to demonstrate our platform's ability to activate human immune cells. "Current therapies like personalized cancer vaccines have fundamental limitations with the need to be tailored to each patient and overcome biological barriers to develop a new immune response. Our approach is distinct as it unlocks the immune system's robust pre-existing ability to fight pathogens across different patients' immune systems.”
About CancerVax
CancerVax is a pre-clinical biotech company developing a novel Universal Cancer Treatment platform that will be customizable, as an injection, to treat many types of cancer. Our innovative approach DETECTS, MARKS, and KILLS only cancer cells. By making cancer cells look like well-immunized common diseases such as measles or chickenpox, we intend to use the body's natural immune system to easily kill the cancer cells. We look forward to the day when treating cancer will be as simple as getting a shot - a better way to fight cancer. To learn more, please visit www.CancerVax.com
Forward-Looking Statements
This press release may contain "forward-looking statements” within the meaning of the safe harbor provisions of the U.S. Private Securities Litigation Reform Act of 1995. Forward-looking statements are neither historical facts nor assurances of future performance. Instead, they are based only on our current beliefs, expectations, and assumptions regarding the future of our business, plans and strategies, projections, anticipated events and trends, the economy, and other future conditions. Because forward-looking statements relate to the future, they are subject to inherent uncertainties, risks, and changes in circumstances that are difficult to predict, many of which are outside our control. Our actual results and financial condition may differ materially from those in the forward-looking statements. Therefore, you should not rely on any of these forward-looking statements. Any forward-looking statement made by us in this release is based only on information currently available to us and speaks only as of the date it is made. We undertake no obligation to publicly update any forward-looking statement, whether written or oral, that may be made from time to time, whether as a result of new information, future developments, or otherwise.
Press Contact:
CancerVax, Inc.
Tel: (805) 356-1810