VECT-HORUS Raises €6.7 Million to Further Develop Its VECTrans® Platform
The proceeds of this new round of financing will enable the company to increase its R&D investments in order to optimize its VECTrans® technology and, more specifically, to identify new vectors that will expand its portfolio. It will also enable the development of new conjugates associating the company's vectors with therapeutic biomolecules: antibodies, mRNAs and various antisense oligonucleotides, including siRNAs. Therefore, the vectorization potential of the VECTrans® platform will be significantly enriched in order to achieve its targeted therapy objectives in multiple organs and indications.
Moreover, with its co-development partner RadioMedix (a company based in Houston USA and specialized in nuclear medicine), VECT-HORUS is preparing the pre-IND dossier of its theragnostic agent for clinic trials in 2021 for the diagnosis of glioblastoma.
Finally, several collaboration agreements have been signed or are currently under negotiation with various pharmaceutical partners. The company aims to balance its R&D programs with an increasing flow of revenues from these industrial partnerships.
"This new chapter in our growth will enable our company to strengthen its ties with the pharmaceutical industry in the field of nervous system pathologies and also in other areas, with a view to developing targeted therapy to other organs", stated Alexandre Tokay, Chairman of VECT-HORUS.
VECT-HORUS is consolidating its growth via a mixed business model, based on its proprietary VECTrans® technology, both to make its technology platform available to pharmaceutical and biotechnology company partners and to develop an internal pipeline of products, which are growth drivers for the company.
Vect-Horus designs and develops vectors that facilitate targeting and delivery of therapeutic or imaging agents to organs, including the brain and tumours. Vect-Horus combines these different agents to its vectors that specifically target various receptors, allowing these agents to cross natural barriers (first and foremost the blood-brain-barrier) which limit access of therapeutic or imaging agents to their targets. The proof of concept of the technology has already been established in animal models using different vectorized molecules. Created in 2005, Vect-Horus is a spin-off of the Institute for Neurophysiopathology (INP, UMR7051, CNRS and Aix Marseille University), headed by Dr Michel Khrestchatisky, co-founder. To learn more Vect-Horus, visit www.vect-horus.com.
Business Development Manager