Peer-reviewed results in Molecular Therapy Oncology show that targeted, mutation-agnostic CRISPR gene editing of NRF2 in head and neck cancer models resensitizes treatment resistant tumors to chemotherapies.
NEWARK, Del.–(BUSINESS WIRE)–#CRISPR–A new publication from CorriXR Therapeutics, an oncology focused biotherapeutics company developing genetic medicines to overcome drug resistance in solid tumors, shows that its novel CRISPR-directed disruption of the transcription factor NRF2 can restore chemosensitivity in head and neck and esophageal squamous cell carcinoma models. The preclinical data were published in Molecular Therapy Oncology. The study, conducted in collaboration with scientists at ChristianaCareโs Gene Editing Institute (GEI), reinforces CorriXRโs previously reported data in lung cancer models and highlights how CRISPR targeting of NRF2 can disrupt tumor cellsโ protective mechanisms and potentially boost patientsโ bodiesโ ability to respond more effectively to standard chemotherapy.
โFor patients with solid tumor cancers, once their tumors become resistant to chemotherapy, treatment options narrow and are often more toxic to them,โ said Eric B Kmiec, Ph.D., Founder and Chief Executive Officer of CorriXR Therapeutics and Executive Director of GEI. โThese data from CorriXRโs first-in-class editing approach suggest that by precisely disrupting NRF2, we may be able to reopen the window to standard treatments and potentially do so at lower doses; this could translate into better control of disease with fewer side effects for patients.โ
NRF2 is a master regulator of cellular stress responses and a well-established driver of treatment resistance in multiple cancers, making it an attractive but historically โundruggableโ target for therapeutic intervention. CorriXR is advancing essential studies to support an IND filing in head and neck squamous cell carcinoma (HNSCC) as a potential first clinical indication.
Head and neck cancer, 90% of which is HNSCC, is the seventh most diagnosed cancer worldwide, with annual incidence predicted to reach one million new cases by 2030. With 50% of patients experiencing recurrence within two years, there is a significant need for new approaches that can overcome resistance to current treatment paradigms. CorriXR anticipates completion of additional in vivo studies in HNSCC in combination with chemotherapy and radiation in the first half of 2026.
Study Overview
Researchers used CRISPR/Cas9 complexes to disrupt NRF2 in hypopharyngeal (FaDu) and esophageal (KYSEโ410) squamous cell carcinoma cells and then assessed gene editing outcomes, NRF2 pathway activity, and response to cisplatin and 5โfluorouracil. Key study findings include:
- High levels of on-target editing produced substantial reductions in NRF2 protein levels, decreased expression of downstream stress response genes, and significantly restored chemosensitivity.
- Genetic disruption of NRF2 alone is sufficient to disrupt its ability to activate the genes that defend tumor cells.
- Enhanced chemosensitivity after NRF2 disruption persisted over time, creating a treatment window for combination therapy.
- The choice of CRISPR editing site on NRF2 influences both the functional impact on NRF2 and which cells are affected by the edit. Editing that disrupts a functional binding domain enables an approach that is agnostic to and independent of genetic mutations in the cancer cells.
โThese findings complement previously published data from CorriXR and GEI showing that tumor-specific NRF2 editing in lung cancer models can resensitize tumors to standard chemotherapy and reduce tumor growth in vivo, thereby reinforcing NRF2 as a central node for overcoming drug resistance,โ said Natalia Rivera-Torres, Ph.D., lead author of the study and Associate Director of Research at GEI.
Kmiec added, โWhat is most encouraging about this work is that we are giving existing drugs a second chance to work in tumors that have learned how to evade them, enabling patients to benefit more, and longer, from proven regimens, with a better quality of life.โ
About CorriXR Therapeutics
CorriXR is developing genetic medicines to transform the treatment of solid tumors. The Companyโs patented non-viral gene editing platform targets NRF2, a transcription factor controlling more than 200 genes that shape a pro-oncogenic tumor microenvironment and drive treatment resistance. Disruption of NRF2 resensitizes cancer cells to standard-of-care therapies. CorriXR platform is being developed for potential use as a monotherapy or in combination with chemotherapy, radiotherapy, or immunotherapy. The platform has potential applications across more than 30 types of squamous cell carcinomas by improving innate immunity, increasing treatment efficiency at lower doses, expanding patient eligibility, and reducing treatment-limiting toxicity โ ultimately leading to improved patient outcomes. Learn more at www.corrixr.com.
About ChristianaCare Gene Editing Institute
ChristianaCare is one of the largest healthcare systems in the Mid-Atlantic region. Within its Helen F. Graham Cancer Center & Research Institute, ChristianaCare established the Gene Editing Institute in 2015 as a leading center for translational research in gene editing technologies. CorriXR is the inaugural biotech spin-out of ChristianaCare and the Gene Editing Institute, which served as the research engine behind CorriXR. This collaboration combines deep scientific expertise with direct access to clinical environments, enabling CorriXR to accelerate the development and commercialization of next-generation therapies. For more information, visit www.geneeditinginstitute.com.
Contacts
Jennifer Kmiec
[email protected]
302-689-3032
