The epidermal growth factor receptor (EGFR) remains the only validated molecular target in head and neck squamous cell carcinoma (HNSCC), mediating cell survival signaling and resistance to radiation therapy.
Yale Head and Neck Cancer SPORE
Specialized Program of Research Excellence (SPORE) sponsored by the National Cancer Institute
Yale Cancer Center was awarded a five-year, $11.7 million grant from the National Institutes of Health (NIH) to fund the Yale Head and Neck Cancer Specialized Program of Research Excellence (SPORE). The SPORE program harnesses the strengths of academic cancer centers by bringing together experts in oncology, immunobiology, pharmacology, molecular biology, pathology, epidemiology, and addiction science to collaborate on projects. The goal of the Yale Head and Neck Cancer SPORE (YHN-SPORE) is to address critical barriers to treatment of head and neck squamous cell carcinoma (HNSCC) due to resistance to immune, DNA damaging, and targeted therapy.
Head and neck squamous cell carcinoma (HNSCC) is the seventh most common cancer globally. Current treatments are morbid, even for patients who are cured, and there are over 13,000 deaths in the US from HNSCC annually. HPV-negative HNSCC is commonly resistant to DNA damaging therapy, EGFR inhibition and immunotherapy. HPV-associated tumors are highly treatment-responsive, but 20-30 percent recur. Even with immune checkpoint inhibition, the majority of these patients succumb.
The Yale Head and Neck SPORE represents highly translational researchers with deep disease-based expertise who leverage the extraordinary scientific strength at Yale Cancer Center, to improve treatment for patients with this terrible malignancy. Our investigators have significantly impacted the field of HNSCC through training, and translational and clinical research. Basic scientists bring rigorous methodology to bear.
Projects
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PROJECT 1: Improved targeting of EGFR family members in squamous cell carcinomas of the head and neck PROJECT 2: Synthetic lethal therapy for HPV-negative head and neck cancer HPV-negative head and neck squamous cell carcinomas (HNSCC) typically lose G1/S cell cycle checkpoints, with most tumors having mutations in TP53, and many also mutating other tumor suppressors such as CDKN2A.Read MorePROJECT 3: Demethylation of HPV-associated head and neck cancer to trigger APOBEC synthetic lethality and enhance immune response Human papillomavirus (HPV)-associated neck squamous cell carcinoma (HNSCC) represents an increasing proportion of HNSCC.Read More
Latest News
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- April 02, 2026
Yale Otolaryngology Expands Free Head and Neck Cancer Screenings Statewide
- March 13, 2026
Connecticut Academy of Science and Engineering Elects Eight From YSM
- January 05, 2026
Aging & Cancer Research Joint Retreat
- December 13, 2025
Yale research advances presented at San Antonio Breast Cancer Symposium annual meeting
- December 01, 2025
Yale Cancer Center to Present Breakthrough Breast Cancer Research at International Conference in Texas
- November 12, 2025
Twenty-Seven YSM Faculty Members Recognized for Highly Cited Research
- October 10, 2025
‘Google Maps’ Approach to Revolutionize Lung Cancer Treatment
- October 07, 2025
Multi-Day Cancer Symposium Lays Groundwork for Research Collaboration
- October 03, 2025Source: Cancer Network
Exploring the Next Frontier of Cancer Biomarkers in Precision Medicine
- October 03, 2025Source: Cancer Network
Looking Beyond Genomics to Advance Precision Medicine in Cancer Care
- October 01, 2025Source: Cancer Network (with Dr. David Rimm)
Advancing AI in Pathology, Precision Medicine, and the Melanoma Landscape
- September 30, 2025
Celebrating 50 Years: Yale Cancer Center