ONK Therapeutics Secures Exclusive Global License to Patent for CISH Knockout in NK Cells for the Treatment of Cancer, from Australia’s WEHI

ONK Therapeutics Ltd, an innovative natural killer cell therapy company, announced that it has entered into an exclusive global patent license agreement with Australia’s Walter and Eliza Hall Institute of Medical Research providing rights to CISH KO in the field of NK cells for the treatment of cancer.

May 27, 2021 08:00 UTC
  • Cytokine Inducible SH2 containing protein (CIS; encoded by the gene CISH) is a potent checkpoint in NK cell-mediated tumor immunity
  • CISH knockout (KO) NK cells have been shown to be more efficient in eliminating cancer cells in in-vivo models
  • Exclusive global license to WEHI patent for CISH KO in the field of NK cells builds on and strengthens ONK Therapeutics’ broad intellectual property (IP) against a wide range of NK cell checkpoints
  • Will enable ONK Therapeutics to further optimize the persistence, metabolic profile and cytotoxic potential of its dual-targeted NK cell therapy platform

GALWAY, Ireland & SAN DIEGO, USA--(BUSINESS WIRE)-- ONK Therapeutics Ltd, an innovative natural killer (NK) cell therapy company, today announced that it has entered into an exclusive global patent license agreement with Australia’s Walter and Eliza Hall Institute of Medical Research (WEHI) providing rights to CISH KO in the field of NK cells for the treatment of cancer.

“Deletion of CISH in NK cells leads to an improved metabolic profile, greatly enhances their proliferation, cytotoxicity, and persistence. In-vivo models of cancer have shown that CISH KO NK cells are much more efficient in eliminating cancer cells, making such cells a very attractive prospect for future clinical development,” said Prof Michael O’Dwyer, CSO of ONK Therapeutics.

“This patent agreement builds on and strengthens the broad IP we have created at ONK Therapeutics against multiple NK cell checkpoints,” added Prof O’Dwyer.

CIS (encoded by the gene CISH) is a member of the suppressor of cytokine signaling (SOCS) family of proteins. The research team at WEHI, led at the time by Prof Nick Huntington and Assoc Prof Sandra Nicholson, was the first to show the critical role that CIS plays in negatively regulating the function of NK cells. When NK cells are stimulated with growth factors, such as interleukin 15 (IL-15), which encourage their growth, survival, and killing capability, there is an increase in the activity of CIS protein, which acts as a brake or checkpoint, on further NK cell growth and function.

The WEHI team found that when CIS was removed from NK cells by deleting the CISH gene, the NK cells were more responsive to growth factors and had improved survival and killing capacity(1). Improving the metabolic fitness of NK cells to enhance glycolysis and oxidative phosphorylation is important for optimizing the anti-tumor activity of NK cells, especially against solid tumors(2-3).

“Uncovering the role of CIS as an intracellular NK cell checkpoint has been an essential discovery to further the understanding of NK cell homeostasis and turnover,” said Dr. Anne-Laure Puaux, Head of Biotechnology and Commercialisation, WEHI. “We believe that our invention has the potential to improve the potency of the NK cell-based therapy platform developed by ONK Therapeutics and provide greater benefit to patients.”

Under the terms of the agreement, ONK Therapeutics has secured exclusive global rights to WEHI’s patent covering the use of human NK cells lacking CISH for the purposes of researching, developing, manufacturing and commercializing NK cell therapies. The financial terms of the agreement include milestone payments and royalties on sales, the specifics of which are not disclosed.

ONK Therapeutics’ CEO Chris Nowers said, “We are very pleased that via this agreement with WEHI we have the unique ability to produce therapeutic NK cells lacking CISH for the treatment of cancer. This is another example of our innovative strategy to engineer a highly differentiated NK cell therapy platform that has broad potential across both hematological malignancies and solid tumors.”

ONK Therapeutics is optimizing a unique off-the-shelf, dual-targeted NK cell therapy platform, combining the expression of a chimeric antigen receptor (CAR) and a TRAIL variant (TRAILv) and anticipates using CISH KO as a core feature of this platform. The pipeline currently has four programs in pre-clinical development across hematological malignancies and solid tumors. The Company is also exploring engineering strategies to enhance tumor homing, to optimize persistence and metabolism, and to overcome exhaustion in the tumor microenvironment, including the exploration of proprietary gene edits, such as the deletion of checkpoint receptors in NK cells, including extracellular proteins CD96, TIGIT, Siglec-7 and PD-1.

  1. Delconte, R., Kolesnik, T., Dagley, L. et al. CIS is a potent checkpoint in NK cell–mediated tumor immunity. Nat Immunol 17, 816–824 (2016) https://www.nature.com/articles/ni.3470?proof=t
  2. Daher et al., Targeting a cytokine checkpoint enhances the fitness of armored cord blood CAR-NK cells Blood Sept 9, 2020
  3. Zhu et al., Metabolic Reprograming via Deletion of CISH in Human iPSC-Derived NK Cells Promotes In Vivo Persistence and Enhances Anti-tumor Activity Cell Stem Cell Sept 3, 2020"

-Ends-

Full press release with image HERE

ONK Therapeutics www.onktherapeutics.com
ONK Therapeutics Ltd is an innovative cell therapy company dedicated to developing the next generation of ‘off-the-shelf’, dual-targeted NK cell therapies targeting solid and hematological cancers.

The company was founded in 2015, by Prof. O’Dwyer MD, of NUI Galway, an expert in translational multiple myeloma research, the tumor microenvironment, and exploitation of NK cells as cellular immunotherapy. Its core proprietary off-the-shelf cell therapy platform is based on a dual-targeted NK cell expressing both a chimeric antigen receptor (CAR) targeting a known tumor antigen and a TNF-related apoptosis-inducing ligand variant (TRAILv) targeting the death receptor pathway (i.e., DR4 or DR5). This unique approach has the potential to enhance efficacy by addressing both intrinsic (e.g., CAR engagement of a tumor-specific antigen) and extrinsic (e.g., signaling through the death receptor pathway) apoptotic pathways and to reduce the susceptibility to possible target antigen escape through the engagement of tumor antigen-independent TRAILv.

Its pre-clinical pipeline comprises four programs:

  • The lead program, ONKT101, is a dual-targeted NK cell therapy incorporating a CD19 CAR and TRAILv targeting DR5, intended for the treatment of relapsed/refractory B cell malignancies. This program is partnered with Avectas, with the company having responsibility for development to Phase 1
  • ONKT102 combines an optimized affinity CD38 CAR and a TRAILv targeting DR5, intended for the treatment of patients with relapsed/refractory multiple myeloma
  • ONKT103 combines a TA-MUC1 CAR with a TRAILv targeting DR5, for the treatment of solid tumors
  • ONKT104 combines a CLL-1 CAR with a TRAILv targeting DR4, for the treatment of AML

In addition to the unique off-the-shelf, dual-targeted NK cell therapy platform, the company has a strong focus on engineering strategies to enhance tumor homing and persistence in-vivo, and overcome exhaustion in the tumor microenvironment, including the exploration of proprietary gene edits, such as the deletion of checkpoint receptors in NK cells.

ONK Therapeutics is headquartered in the med-tech hub of Galway, Ireland, with a wholly-owned US subsidiary, ONK Therapeutics, Inc. based at JLabs @ San Diego. Shareholders include Acorn Bioventures, ALSHC (principally Seamus Mulligan), and Enterprise Ireland.

Follow us on Twitter and LinkedIn.

View source version on businesswire.com: https://www.businesswire.com/news/home/20210527005365/en/

Contacts

International
Sue Charles, Charles Consultants - +44 7968 726585 sue.charles59@outlook.com

Ireland
Ray Gordon, Gordon MRM - +353 87 2417373 ray@gordonmrm.ie

Source: ONK Therapeutics

MORE ON THIS TOPIC