On October 11, 2022 Xenetic Biosciences, Inc. (NASDAQ:XBIO) ("Xenetic"), a biopharmaceutical company focused on advancing innovative immune-oncology technologies for the treatment of hard to treat cancers, reported the signing of a patent assignment from CLS Therapeutics, Inc. ("CLS") to Xenetic related to Xenetic’s previously announced collaboration with VolitionRx Limited (NYSE AMERICAN:VNRX) ("Volition"), a multi-national epigenetics company, and CLS, a biopharmaceutical company developing first-in-class therapies based on the discovery of novel therapeutic targets (Press release, Xenetic Biosciences, OCT 11, 2022, View Source [SID1234621884]). In consideration of the patent assignment, Xenetic will also issue 850,000 shares of common stock to CLS.

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Xenetic Biosciences, Inc., Tuesday, October 11, 2022, Press release picture
"Our team remains intent on driving the DNase technology platform forward with the goal of improving outcomes of existing therapeutic agents in multiple solid tumor indications for which existing therapeutic agents have not been proven to be effective. Our collaboration with Volition and CLS has provided us with research and development partners with expertise and capabilities to help drive the DNase-Armored CAR T program forward. We are excited to continue building on the progress we’ve made thus far and on taking the next steps forward in executing on our plans to advance the DNase technology," commented Jeffrey Eisenberg, Chief Executive Officer of Xenetic.

The Company’s collaboration with Volition is an early exploratory program to evaluate the potential combination of Volition’s Nu.Q technology and Xenetic’s DNase-Armored CAR T platform to develop proprietary adoptive cell therapies potentially targeting multiple types of solid cancers for which current CAR T cell therapies have shown limited or no effect. Under the terms of the collaboration agreement, Volition will fund a research program and the two parties will share proceeds from commercialization or licensing of any products arising from the collaboration.

Epigenetically modified nucleosomes are present on tumor cell surfaces and within the tumor microenvironment of multiple types of solid cancers, and thus these nucleosomes may represent generalizable tumor antigens that are not limited to a single cancer type. Volition’s Nu.Q technology can specifically recognize and target epigenetically modified nucleosomes, while Xenetic’s DNase-Armored CAR T platform is designed to enhance the function of CAR T cells within solid tumor microenvironments.