$ONCS a company developing DNA-based intratumoral

$ONCS
a company developing DNA-based intratumoral cancer immunotherapies, announced today that they have entered into a Technology Access Program (TAP) agreement with Inhibrx, LP , a privately held biotherapeutic company.
Under the agreement, Inhibrx will use OncoSec's proprietary gene delivery technologies; the GENESIS™ research generator and proprietary applicators, for preclinical discovery of antibodies.
"We initially announced the availability of the TAP in November, and I am excited to have Inhibrx signed on as the first company to use our devices for their internal research programs," said Punit Dhillon , OncoSec's Chief Executive Officer. "We believe this program helps to facilitate discovery efforts for TAP partners while advancing OncoSec's proprietary technologies.  By making our devices available for non-exclusive research use to both industry and academic collaborators, for a small licensing fee, we are building our internal data set around GENESIS™ while expending minimal internal resources."
"The ability of OncoSec's TRACE™ technology to optimize in vivo gene expression for animal immunization provides advantages over traditional antibody discovery approaches, especially for difficult to express and complex transmembrane proteins," said Mark Lappe , Inhibrx's Chief Executive Officer. "We look forward to continuing to work with OncoSec through our TAP agreement to explore the use of in vivo electroporation for gene delivery and antibody discovery."
About OncoSec Research Technologies and Technology Access Program: The OncoSec GENESIS™ research generator was developed specifically for gene electro-transfer. It features customizable electroporation parameters for construct-specific optimization of expression, and it is the only in vivo electroporation device enabled with TRACE™ Technology (Tissue-Based, Real-Time Adaptive Control Electroporation.) TRACE™ technology incorporates an electrochemical tissue-sensing control system to automatically adjust pulse width and treatment duration in real time during the electroporation procedure. This feature enables tissue- and therapeutic-specific delivery optimization, maximizing uptake of the therapeutic while reducing unnecessary cell ablation or damage. In research models, GENESIS™ with TRACE™ has yielded higher and more consistent in vivo protein expression versus fixed-parameter electroporation, even in heterogeneous tissues.
Potential advantages of using GENESIS™ with TRACE™ for the objectives of animal immunization include cost savings versus recombinant protein administration, a shortened pre-immunization timeline relative to recombinant protein production, and display of the immunizing antigen in its native conformation. The latter benefit may be particularly relevant for certain therapeutic indications, including immuno-oncology, in which many key targets require functional agonism and/or structurally-complex therapeutic modalities such as multimeric forms. To date, OncoSec has generated multiple high-titer antibody libraries against immuno-therapeutic targets.

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