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Home NEWS Science News Cancer

NCI Awards Grant to University of Cincinnati Cancer Center for Study on Combination Therapy in Colorectal Cancer

Bioengineer by Bioengineer
October 1, 2025
in Cancer
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In the landscape of cancer research, colorectal cancer remains a formidable challenge, responsible for an estimated 53,000 deaths in the United States alone in 2024. Despite advances in early detection and treatment, the persistent incidence among patients under 50 highlights an urgent need for innovative therapies that target the molecular underpinnings of this disease. Among the critical genetic drivers of colorectal cancer, mutations in the KRAS gene are particularly prevalent, found in approximately 41% of all cases. This mutation presents a complex therapeutic challenge, as cancer cells often develop resistance or acquire secondary mutations that undermine treatment efficacy.

The approval of the first KRAS-targeting drug by the FDA in 2021 marked a significant milestone, opening new avenues for precision medicine. However, the clinical success of KRAS inhibitors has been tempered by the adaptive capabilities of cancer cells. These cells, adept at circumventing single-agent therapies, frequently upregulate compensatory signaling pathways, thereby sustaining their growth and survival. Addressing this, researchers at the University of Cincinnati Cancer Center, led by Joan Garrett, PhD, are pioneering a novel combination approach aimed at simultaneously targeting KRAS mutations and the HER family of receptors, particularly HER3, which play a pivotal role in tumor cell resilience.

Dr. Garrett’s research builds on findings from her laboratory that reveal an intriguing biological feedback loop: colorectal cancer cells treated with KRAS inhibitors exhibit increased HER3 expression. This upregulation serves as an escape mechanism, enabling tumor cells to persist despite KRAS blockade. By co-inhibiting both KRAS and HER family members, the research aims to disrupt this adaptive signaling network, potentially enhancing therapeutic efficacy and overcoming drug resistance.

Funded by a two-year, $162,000 grant from the National Cancer Institute, Dr. Garrett’s study leverages patient-derived xenografts (PDXs)—animal models implanted with human tumor tissues—to closely mimic the complex tumor environment found in patients. Unlike conventional cell cultures grown on plastic, PDXs retain the heterogeneity and architecture of primary tumors, providing a more clinically relevant platform to assess drug responses. This methodology is crucial for evaluating the synergistic effects and safety of combined KRAS and HER3 inhibition in a setting that closely recapitulates human disease.

The experimental strategy involves treating these PDX models with a combination of KRAS inhibitors and various HER3-targeted agents. The research team is meticulously analyzing whether this dual-targeted approach yields superior tumor suppression compared to monotherapies. Early indications suggest that co-targeting these pathways may disrupt key survival signals within cancer cells, thereby potentiating apoptosis and inhibiting proliferation more effectively.

If successful, this innovative therapy paradigm could significantly alter the management of metastatic colorectal cancer, a condition notorious for its poor prognosis and limited treatment options once the cancer has spread beyond the colon. Targeted therapies that exploit specific genetic vulnerabilities promise to extend patient survival while minimizing toxic side effects typically associated with traditional chemotherapies.

Dr. Garrett emphasizes the clinical importance of developing treatments that are not only more effective but also less harmful. Targeted agents generally exhibit a more favorable toxicity profile, sparing normal cells and reducing adverse effects. This approach aligns with the broader trend in oncology toward precision medicine—delivering interventions tailored to the unique molecular characteristics of each patient’s tumor.

The timing of this research is particularly auspicious given recent advances in the field. Over the past five years, the development and FDA approval of KRAS inhibitors have revolutionized therapeutic strategies for cancers harboring these mutations. Numerous ongoing clinical trials are evaluating these agents across various cancer types, underscoring the momentum and promise of KRAS-targeted therapies.

While the initial success of KRAS inhibitors is encouraging, the emergence of resistance mechanisms such as HER3-mediated survival pathways underscores the complexity of cancer biology and the necessity of combination therapies. Dr. Garrett’s work represents a crucial step toward comprehensive molecular targeting that anticipates and counters tumor adaptability.

The promise of this research extends beyond colorectal cancer. Given the prevalence of KRAS mutations and HER family involvement across multiple malignancies, insights gained from this study may inform treatment paradigms in other cancers, potentially broadening the impact of this combination strategy.

As this project advances, collaboration between molecular biologists, pharmacologists, and clinical oncologists will be essential to translate preclinical findings into effective patient therapies. The integration of sophisticated models like patient-derived xenografts will continue to be instrumental in refining therapeutic regimens before clinical application.

In a field marked by incremental progress, the work led by Joan Garrett, PhD, exemplifies the innovative, multi-faceted approaches necessary to outsmart complex diseases like colorectal cancer. Through strategic combination therapies aimed at critical oncogenic pathways, there is renewed hope for improving outcomes and extending the lives of patients afflicted by this devastating disease.

Subject of Research: Combination therapy targeting KRAS mutations and HER family receptors in colorectal cancer

Article Title: University of Cincinnati Scientist Investigates Novel KRAS and HER3 Dual-Inhibition Strategy for Colorectal Cancer

News Publication Date: 2024

Web References:
https://mediasvc.eurekalert.org/Api/v1/Multimedia/353a2132-6e5b-47e9-aba5-0669e59be4b6/Rendition/low-res/Content/Public

References:
Research supported by the National Cancer Institute of the National Institutes of Health under Award Number 1R03CA304041-0

Image Credits: Photo/Colleen Kelley/UC Marketing + Brand

Keywords: Colorectal cancer, KRAS mutation, HER3, targeted therapy, combination therapy, patient-derived xenografts, cancer resistance mechanisms, FDA-approved KRAS inhibitors, precision medicine

Tags: adaptive resistance in cancer cellscancer research advancements 2024combination therapy for colorectal cancerearly detection of colorectal cancergenetic drivers of colorectal cancerHER3 receptor targeting in cancerinnovative treatments for colorectal cancerKRAS mutations in cancer therapyKRAS-targeting drug development.NCI grant for colorectal cancer researchprecision medicine in oncologyUniversity of Cincinnati Cancer Center

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