Study Published in Nature Shows F-Star’s STING Agonist SB 11285 Enhances Preclinical Efficacy of Radiation Therapy
F-star Therapeutics, Inc. (NASDAQ: FSTX) announced a new study published in Nature Communications detailing the effectiveness of its second-generation STING agonist, SB 11285, in enhancing tumor control when combined with radiation for Head and Neck Squamous Cell Carcinoma (HNSCC). The research indicates that STING expression in tumors is vital for optimal benefits, suggesting that SB 11285 could serve as a predictive biomarker. Chief Scientific Officer Neil Brewis noted that clinical trials are ongoing to explore SB 11285's potential in cancer therapy.
- SB 11285 showed improved antitumor effects in combination with radiation in preclinical models.
- The study provides a strong rationale for using SB 11285 with DNA-damaging agents.
- Ongoing Phase 1/2 clinical trials could validate the efficacy of SB 11285 and its potential as a checkpoint inhibitor.
- None.
SB 11285 in Combination with Radiation is More Effective than Either as Monotherapy in a Murine Tumor Model
SB 11285 is a Second Generation STING Agonist Delivered Intravenously
CAMBRIDGE, United Kingdom and CAMBRIDGE, Mass., April 19, 2021 (GLOBE NEWSWIRE) -- F-star Therapeutics, Inc. (NASDAQ: FSTX), a clinical-stage biopharmaceutical company dedicated to developing next generation bispecific immunotherapies to transform the lives of patients with cancer, today announced the publication of a new study, conducted by Yale University and F-star, of its second generation STING agonist, SB 11285, in the current issue of Nature Communications. The study entitled “STING enhances cell death through regulation of reactive oxygen species and DNA damage” demonstrates that systemic administration of a STING agonist in combination with radiation in a preclinical model enhances local control in Head and Neck Squamous Cell Carcinoma (HNSCC) and suggests that STING expression in the tumor is required for maximal therapeutic benefit.
“The studies described in this paper demonstrate that systemic administration of SB 11285, a novel STING agonist, in combination with radiation, enhances the antitumor effects in animal models of HNSCC. Furthermore, STING expression in the tumor can be used as a predictive biomarker and a combination of radiation with SB 11285 demonstrated the potential for enhanced therapeutic benefit for patients with cancer,” commented Thomas J. Hayman, M. D., Ph.D., Assistant Professor, Department of Therapeutic Radiology at Yale University School of Medicine, and lead author of the study.
Resistance to DNA-damaging agents such as radiation is a significant cause of treatment failure and poor outcomes in oncology. To identify unrecognized regulators of cell survival, the researchers performed a whole-genome CRISPR-Cas9 screen following treatment with ionizing radiation and identified STING (stimulator of interferon genes) as an intrinsic regulator of tumor cell survival. In addition, the study showed that STING overexpression restored tumor cell sensitivity to ionizing radiation and that STING loss confers resistance to DNA damaging therapies.
Analysis of tumors from HNSCC patient specimens showed that low STING expression is associated with poor outcomes. The research also demonstrated that pharmacologic activation of STING enhances the effects of ionizing radiation in vivo, providing a rationale for therapeutic combinations of STING agonists and DNA-damaging agents as well as a strong rationale for investigating STING expression as a predictive biomarker.
“The results of this research are encouraging and suggest that our novel STING agonist SB 11285 could enhance the response to radiation therapy for HNSCC, and potentially other tumor types. With an ongoing Phase 1/2 study of SB 11285 in both monotherapy and in combination with a PD-L1 monoclonal antibody, we continue to gather evidence confirming the use of this intravenously administered STING agonist to expand the use of checkpoint inhibitors in cancer therapy,” said Neil Brewis, Chief Scientific Officer of F-star Therapeutics.
About SB 11285
Received as part of F-star’s recent business combination, SB 11285 is an intravenously administered second generation STING agonist. Although many patients respond to PD-1 therapies, in some patients, the PD-1 blockade is not enough to activate immune cells. Activation of the STING (Stimulator of Interferon Genes) pathway induces both innate and adaptive immunity and subsequent activation of cytotoxic T cells and NK cells for antitumor activity. SB 11285 is a self-assembled cyclic dinucleotide compound that has demonstrated enhanced cellular uptake into immune cells, and preclinical studies in multiple tumor models have demonstrated the potential advantages of systemically administered SB 11285 over intratumoral STING agonists. Phase 1/2 clinical trials of SB 11285 are underway including in combination with a PD-L1 mAb to improve checkpoint inhibitor outcomes.
About F-star Therapeutics, Inc.
F-star is a clinical-stage biopharmaceutical company developing tetravalent bispecific antibodies for a paradigm shift in cancer therapy. By developing medicines that seek to block tumor immune evasion, the Company’s goal is to offer patients greater and more durable benefits than current immuno-oncology treatments. Through its proprietary tetravalent, bispecific natural antibody (mAb²™) format, F-star’s mission is to generate highly differentiated best-in-class drug candidates with monoclonal antibody-like manufacturability. For more information visit www.f-star.com and follow us on LinkedIn and Twitter.
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