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Monopar and NorthStar Announce Patent Filing on Promising Radiopharmaceutical Discovery

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Monopar Therapeutics Inc. (MNPR) and NorthStar Medical Radioisotopes have filed a provisional patent for a new approach to improve the efficacy of Actinium-based radiopharmaceuticals. The patent focuses on using PCTA to enhance binding efficiency of Ac-225 to antibodies, showing nearly 100% binding compared to traditional methods. This innovation could lead to increased efficacy, reduced toxicity, and better manufacturing efficiency. The companies aim to explore development and licensing opportunities for this technology, which holds potential to address challenges in cancer treatment.

Positive
  • Filing a provisional patent may enhance competitive positioning in the radiopharmaceutical sector.
  • PCTA-antibody conjugates show nearly 100% binding efficiency, potentially increasing treatment efficacy.
  • Improved binding could reduce the quantity of Ac-225 needed, addressing cost and supply concerns.
Negative
  • The patent's success is uncertain and may not lead to commercial viability.
  • Dependence on the validation of preliminary findings poses risks for future development.

Potential to significantly improve the yield of Actinium-based radiopharmaceuticals

WILMETTE, Ill. and BELOIT, Wis., May 24, 2021 (GLOBE NEWSWIRE) -- Monopar Therapeutics Inc. (Nasdaq: MNPR) and NorthStar Medical Radioisotopes, LLC, today announced the filing of a provisional patent with the U.S. Patent and Trademark Office (USPTO) titled “Bio-Targeted Radiopharmaceutical Compositions Containing Ac-225 and Methods of Preparation.” Radiopharmaceutical therapy is a promising approach to treat cancer and other diseases using radioactive metals bound with proteins/antibodies to target and kill cells. Actinium-225 (Ac-225) is emerging as a radioactive isotope of choice for radiopharmaceuticals due to favorable properties such as its long half-life, high potency, and induction of localized cell death.

This provisional patent relates to the unexpected observation by Monopar and NorthStar that using the metal binding agent 3,6,9,15-tetraazabicyclo[9.3.1]pentadeca-1(15),11,13-triene-3,6,9-triacetic acid (PCTA) to attach Ac-225 to antibodies resulted in nearly 100% binding of Ac-225 to the PCTA-antibody conjugates. If validated through further evaluation, it could potentially improve efficacy and safety and enhance manufacturing efficiency of Actinium-based radiopharmaceuticals.

Based on Monopar and NorthStar’s work to date, PCTA-antibody conjugates appear to bind Ac-225 and its daughter ions such as Bi-213 with high affinity. This could be important in the situation of transportation delays resulting in Ac-225 decaying during transport. Furthermore, when compared to DOTA (the standard binding agent for attaching Ac-225 to an antibody), PCTA-antibody conjugates displayed a significantly higher affinity to Ac-225. This high affinity binding may decrease the amount of Ac-225 and its daughter ions that detach from the antibody, which could potentially increase efficacy and reduce off-target toxicity and enable higher dosing. Monopar and NorthStar plan to explore both internal development and out-licensing opportunities of this promising approach in Actinium-based radiopharmaceuticals.

“Actinium is quickly becoming a premier radioisotope in cancer-targeting therapies, but its potential is limited due to its price and scarcity,” said James Harvey, PhD, Chief Scientific Officer of NorthStar. “Enabling radiopharmaceutical manufacturers and drug developers to maximize the binding efficiency of Ac-225, and thereby reduce the quantity of Ac-225 required for purchase and use, would permit this promising class of drugs to reach its full potential.”

“Binding Actinium to antibodies using PCTA instead of DOTA has displayed unexpected and unique properties including substantially tighter binding of Ac-225 and a much higher incorporation into the PCTA-antibody conjugate,” said Andrew Mazar, PhD, Chief Scientific Officer of Monopar. “This technology could have broad applicability to the manufacturing of numerous radio-immuno-conjugates and may also extend to other proteins.”

About Monopar Therapeutics Inc.
Monopar Therapeutics is a clinical-stage biopharmaceutical company focused on developing proprietary therapeutics designed to extend life or improve the quality of life for cancer patients. Monopar’s pipeline consists of Validive® for the prevention of chemoradiotherapy-induced severe oral mucositis in oropharyngeal cancer patients; camsirubicin for the treatment of advanced soft tissue sarcoma; and a preclinical stage uPAR targeted antibody MNPR-101 for advanced cancers and severe COVID-19. For more information, visit: www.monopartx.com.

About NorthStar Medical Radioisotopes, LLC
NorthStar Medical Radioisotopes is a global innovator in the production and distribution of radioisotopes used for medical imaging and therapeutic purposes. NorthStar is a company committed to providing the United States with reliable and environmentally friendly radioisotope supply solutions to meet the needs of patients and to advance clinical research. The Company’s first product is the RadioGenix® System (technetium Tc 99m generator), an innovative and flexible platform technology initially approved by the U.S. Food and Drug Administration in February 2018. For more information, visit: www.northstarnm.com.

Forward-Looking Statements
Statements contained in this press release regarding matters that are not historical facts are “forward-looking statements” within the meaning of the Private Securities Litigation Reform Act of 1995. The words “may,” “will,” “could,” “would,” “should,” “expect,” “plan,” “anticipate,” “intend,” “believe,” “estimate,” “predict,” “project,” “potential,” “continue,” “target” and similar expressions are intended to identify forward-looking statements, although not all forward-looking statements contain these identifying words. Examples of these forward-looking statements include: that radiopharmaceutical therapy is a promising approach to treat cancer and other diseases using radioactive metals bound with proteins/antibodies to target and kill cells; that binding Ac-225 to PCTA-antibody conjugates could potentially improve efficacy and safety and enhance manufacturing efficiency of Actinium-based radiopharmaceuticals; that this high affinity binding may decrease the amount of Ac-225 and its daughter ions that detach from the antibody, which could potentially increase efficacy and reduce off-target toxicity and enable higher dosing; that Monopar and NorthStar plan to explore both internal development and out-licensing opportunities of this promising approach in Actinium-based radiopharmaceuticals; that by reducing the quantity of Ac-225 required for purchase and use would permit this promising class of drugs to reach its full potential; and that this technology could have broad applicability to numerous radio-immuno-conjugates and may also extend to other proteins. The forward-looking statements involve risks and uncertainties including, but not limited to: whether the provisional patent will result in an issued patent; whether preliminary observations and findings to date will be validated by further evaluation; whether this technology will improve efficacy and safety and enhance manufacturing efficiency of Actinium-based radiopharmaceuticals, if at all; whether this technology could potentially reduce off-target toxicity and enable higher dosing of antibody conjugates; Monopar and NorthStar not successfully internally developing or out-licensing this technology; the lack of any clinical activities to date with respect to Ac-225 bound to antibodies using PCTA; the requirement for additional capital to complete preclinical and clinical development, and if successful, commercialization; the success and prevalence of the use of Ac-225 in radiopharmaceutical therapies; not being able to ensure volumes of this radioisotope can be manufactured and scaled up to meet potential demand; uncertainties about levels of demand if and when a treatment is available for commercialization and the significant general risks and uncertainties surrounding the research, development, regulatory approval and commercialization of therapeutics. Actual results may differ materially from those expressed or implied by such forward-looking statements. Monopar and NorthStar are not making any express or implied claims that these Ac-225 based radiopharmaceuticals have the ability to eliminate or mitigate cancers, severe COVID-19, or other diseases at this time. Risks are described more fully in Monopar’s filings with the Securities and Exchange Commission. All forward-looking statements contained in this press release speak only as of the date on which they were made. Monopar and NorthStar undertake no obligation to update such statements to reflect events that occur or circumstances that exist after the date on which they were made. Any forward-looking statements contained in this press release represent Monopar’s and NorthStar’s views only as of the date hereof and should not be relied upon as representing its views as of any subsequent date.

CONTACTS:

For Monopar Therapeutics Inc.:
Investor Relations:
Kim R. Tsuchimoto
Chief Financial Officer
kimtsu@monopartx.com

For NorthStar Medical Radioisotopes, LLC 
Investor Relations:
Paul Estrem
Senior Vice President and Chief Financial Officer
pestrem@northstarnm.com

Corporate:
Lisa Holst
Vice President Sales and Marketing
678-471-9027
lholst@northstarnm.com

Media:
Priscilla Harlan
781-799-7917
pharlan@shiningrockllc.com


FAQ

What is the significance of the provisional patent filed by MNPR?

The provisional patent aims to improve the binding efficiency of Ac-225 to antibodies using PCTA, potentially enhancing the efficacy of radiopharmaceuticals.

How does the new technology affect Actinium-based radiopharmaceuticals?

The technology may lead to nearly 100% binding of Ac-225, increasing efficacy and reducing off-target toxicity.

What are the potential benefits of using PCTA over DOTA in radiopharmaceuticals?

PCTA demonstrates significantly higher affinity in binding Ac-225, which could improve treatment outcomes and manufacturing efficiency.

What challenges does Monopar face with the new technology?

The success of the patent and technology validation remain uncertain, posing risks to development.

What are the future plans for this patent by MNPR?

Monopar and NorthStar plan to explore both internal development and out-licensing opportunities for this innovative approach.

Monopar Therapeutics Inc.

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