Efficacy and Safety Analysis of First-Line ABCP Therapy in Advanced SMARCA4-Mutated NSCLC

SMARCA4 is the core catalytic subunit of the SWI/SNF chromatin remodeling complex, and its loss-of-function mutations are closely associated with the development of lung cancer and poor prognosis. Studies show that SMARCA4 mutations account for approximately 5-10% of advanced NSCLC, are more common in males and smokers, and have a significantly higher incidence in large cell carcinoma (LCC) than in other histological subtypes (51.4% in LCC). Data from Asian cohorts show that SMARCA4 mutations are mutually exclusive with driver gene mutations such as EGFR and ALK, and are often accompanied by high tumor mutational burden (TMB) and low PD-L1 expression.

SMARCA4 mutation is clinically known to be an independent poor prognostic factor. Both TCGA and the investigators institution's preliminary research indicate that the median overall survival (OS) of mutated patients is significantly shorter than that of wild-type patients (32 months vs. 157.7 months, respectively, P=0.001); it is associated with chemotherapy/immunotherapy resistance, rapid progression, and poor prognosis (OS<12 months). Current standard first-line treatments (such as platinum-based chemotherapy ± immunotherapy) have limited efficacy in SMARCA4-mutated patients (ORR<30%, PFS<4 months). Additionally, NapsinA-positive expression can improve the survival of mutated patients (median OS: 32 months vs. 15 months, P=0.033), but this effect exists only in the SMARCA4-mutated group.

Currently, there are no targeted drugs directly against SMARCA4 mutations, and sensitivity to platinum-based chemotherapy is low. However, the high TMB signature suggests that some patients may benefit from immunotherapy combined with chemotherapy (e.g., the 5-year OS rate with camrelizumab combined with chemotherapy reached 27.8%). SMARCA4 mutation is associated with low PD-L1 expression and reduced CD8+ T-cell infiltration, but high TMB may suggest potential benefit from immunotherapy.

The ABCP regimen has a synergistic mechanism: Atezolizumab (anti-PD-L1): reverses the immunosuppressive microenvironment; Bevacizumab (anti-VEGF): inhibits angiogenesis and enhances T-cell infiltration; Platinum + Paclitaxel: directly kill tumor cells and release neoantigens. Therefore, the investigators preset that SMARCA4 mutation may affect chemotherapy/immunotherapy response through epigenetic regulation, and its value as a predictive biomarker needs to be validated. Hence, the purpose of this study is to observe and explore the efficacy and safety of first-line ABCP four-drug combination therapy in patients with advanced SMARCA4-mutated non-small cell lung cancer.