Monday, December 23, 2024

Synthetic Biologics Announces Planned Transformative Acquisition of VCN Biosciences; Developer of a Novel Oncolytic Virus Platform Targeting Pancreatic and other Solid Tumors

Synthetic Biologics, Inc., a diversified clinical-stage company developing therapeutics designed to treat diseases in areas of high unmet need, announced it has signed a definitive agreement to acquire VCN Biosciences, S.L. (VCN), which is developing a new oncolytic adenovirus (OV) platform designed for intravenous (IV) delivery to trigger tumor cell death and promote immune cell infiltration into tumors. Total upfront consideration for the acquisition is $4.7 million in cash plus the assumption of $2.4 million of VCN liabilities. Additionally, VCN will receive shares of Synthetic Biologics‘ common stock representing 19.99% of the total shares outstanding of the Company’s common stock. The Company has also agreed to an additional $70.3 million of payments contingent upon the achievement of future milestones, a majority of which are tied to late-stage clinical development and regulatory achievements. The transaction is expected to close during the first quarter of 2022, and is subject to, among other things, the approval by the Spanish government of the Company’s acquisition of VCN under Spain’s Foreign Investment Act and other customary closing conditions. Additional details regarding the transaction are available in the Company’s Current Report on Form 8-K, which has been filed with the Securities and Exchange Commission and is available on the Company’s website.

Also Read: Lavie Bio Reports Advancement in its Bio-Fungicide Program for Fruit Rots

VCN’s technology platform is designed to overcome critical challenges that restrict the development of the majority of OV therapies today. Unlike many OVs that can only be administered by direct intratumoral injection, VCN’s OVs are designed for systemic intravenous administration to target primary as well as metastatic tumors. Once inside the tumor, VCN’s OVs are designed to replicate selectively and aggressively, and to produce hyaluronidase (PH20), an enzyme that digests hyaluronan, a key component of the dense tumor stroma that often plays a crucial role in tumor progression. Degradation of tumor stroma has been shown to diminish a significant physical and immunosuppressive barrier to cancer treatment and thereby improve access to the tumor by additional therapies such as chemo and immuno-therapies.

Subscribe Now

    Hot Topics