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Background Recurrent squamous cell carcinoma (SCC) of the head and neck (SCCHN) remains a formidable clinical challenge despite available treatments. The phosphatidylinositol 3‐kinase (PI3K) pathway has been identified as a potential therapeutic target, and alpelisib, a selective PI3Kα inhibitor, has demonstrated efficacy in certain malignancies. Combining this targeted therapy with immunotherapy has been suggested in previous studies as a promising strategy to bolster the immune response against cancer. Cases A 69‐year‐old woman with locoregional recurrence of PIK3CA‐mutated SCC of the left maxilla and cervical nodal metastases. Several chemotherapeutic regimens, including cisplatin, docetaxel, 5FU, chemoradiotherapy, and mono‐immunotherapy, resulted in disease progression. Alpelisib combined with pembrolizumab led to a sustained response for 9 months. A 58‐year‐old man with recurrent metastatic PIK3CA‐mutated SCC of the oropharynx, involving the left lung, hilar, and mediastinal lymph nodes. Despite prior palliative radiation and platinum‐based chemotherapy with pembrolizumab and cetuximab, treatment with alpelisib and nivolumab resulted in a partial response. Severe hyperglycemia and rash led to treatment discontinuation. Conclusion Our findings highlight the potential of this innovative therapeutic combination, suggesting a need for further investigations in this setting.

BackgroundDespite the success treating hematologic malignancies, chimeric antigen receptor T-cell (CAR T) therapies face challenges in solid tumors due to lack of targets that distinguish tumor from normal cells. Epithelial growth factor receptor (EGFR) plays a critical role in oncogenesis across several cancers and is often upregulated.1 While monoclonal antibodies targeting EGFR have demonstrated efficacy, these approaches are often limited by on-target, off-tumor toxicities, such as skin and gastrointestinal toxicity, which constrains dose escalation and efficacy.2 A2B395 is an allogeneic, logic-gated, EGFR-targeted, Tmod CAR T therapy designed to address these limitations and provide a convenient and consistent off-the-shelf option. This therapy incorporates 2 CARs: an activator targeting EGFR and a blocker targeting human leukocyte antigen (HLA)-A*02. The activator recognizes EGFR on both tumor and normal cells, whereas the blocker inhibits CAR T activity against normal cells with preserved HLA expression, decreasing the risk for graft-vs-host disease (ie, on-target, off-tumor toxicity).3 To address potential graft-vs-host response, a short-hairpin RNA expression module targeting beta-2 microglobulin is included in the Tmod construct, which significantly reduces major histocompatibility complex class I levels and subsequent host immune response.4 Importantly, the Tmod system is modular and adaptable to multiple targets. Initial data on autologous Tmod CAR T therapy suggest reduced off-tumor toxicity and encouraging clinical efficacy.5 A2B395 represents a novel approach for targeting EGFR-expressing solid tumors with HLA-A*02 loss of heterozygosity (figure 1).MethodsDENALI-1 is a phase 1/2, open-label, nonrandomized study evaluating the safety and efficacy of A2B395 in adults. Patients are enrolled through BASECAMP-1 (NCT04981119), a master prescreening study that identifies patients with HLA loss of heterozygosity at any time in the course of their disease via next-generation sequencing. Key inclusion criteria include histologically confirmed recurrent, unresectable, locally advanced, or metastatic cancers associated with EGFR expression, including colorectal, non-small cell lung, squamous cell head and neck, triple-negative breast, and renal cell cancers. Patients must have received ≥1 line of prior therapy, such as a checkpoint inhibitor, molecular targeted therapy, or chemotherapy. The primary objective of phase 1 is to evaluate safety, tolerability, and the recommended phase 2 dose using a Bayesian optimal interval design for dose escalation. The dose-expansion phase will confirm recommended phase 2 dose and collect biomarker data. Phase 2 will assess overall response rate per RECIST v1.1.ResultsThe first patient was enrolled on DENALI-1 in May 2025. Dose escalation is ongoing (figure 2).AcknowledgementsThe authors would like to thank the patients, their families, and their caregivers for participating in this trial; the screeners, clinical research coordinators, study nurses, data managers, and apheresis teams at each study site; and A2 Bio. Medical writing support was provided by Jennifer M. Kulak, PhD, of ApotheCom (Yardley, PA) and funded by A2 Bio.Trial RegistrationClinicalTrials.gov, NCT06682793ReferencesThe Cancer Genome Atlas (TCGA) Research Network. Accessed June 2021. https://www.cancer.gov/tcgaMacdonald JB, et al. Cutaneous adverse effects of targeted therapies: Part I: Inhibitors of the cellular membrane. J Am Acad Dermatol. 2015;72(2):203–218.Hamburger AE, et al. Engineered T cells directed at tumors with defined allelic loss. Mol Immunol. 2020;128:298–310.DiAndreth B, et al. The Tmod cellular logic gate as a solution for tumor-selective immunotherapy. Clin Immunol. 2022;241:109030.Grierson PM, et al. 588 EVEREST-1: initial safety data from a seamless phase 1/2 study of A2B530, a logic-gated Tmod CAR T-cell therapy, in patients with solid tumors associated with CEA expression also exhibiting HLA-LOH. J ImmunoTher Cancer. 2024;12(Suppl_2):A670-A671.Kirtane K, et al. Logic-gated, allogeneic Tmod chimeric antigen receptor T-cell (CAR T) therapy targeting epidermal growth factor receptor (EGFR) in advanced solid tumors with human leukocyte antigen (HLA) loss of heterozygosity (LOH): DENALI-1 trial. J Clin Oncol. 2025;43(16 suppl): TPS2677.Ethics ApprovalThis trial was approved by each site’s institutional review board.Abstract 585 Figure 1Logic-Gated CAR T With the Goal to Reduce Toxicity: MSLN (Activator) and HLA-A*02 (Blocker) [6][Image Omitted. See PDF.]Abstract 585 Figure 2DENALI 1 dose escalation study design[Image Omitted. See PDF.]