Objectives
In patients with oligometastatic non-small cell lung cancer, systemic therapy in combination with local ablative treatment of the primary tumor and all metastatic sites is associated with improved prognosis. For patient selection and treatment allocation, further knowledge about the molecular characteristics of the oligometastatic state is necessary. Here, we performed a genetic characterization of primary non-small cell lung cancer and corresponding brain metastases.
Methods
We retrospectively identified patients with oligometastatic non-small cell lung cancer and synchronous (<3 months) or metachronous (>3 months) brain metastases who underwent surgical resection of both primary tumor and brain metastases. Mutation profiling of formalin-fixed paraffin-embedded tumor cell blocks was performed by targeted next generation sequencing using the oncomine focus assay panel.
Results
Sequencing was successful in 46 paired samples. An oncogenic alteration was present in 31 primary tumors (67.4%) and 40 brain metastases (86.9%). The alteration of the primary tumors was preserved in the corresponding brain metastases in 29 out of 31 cases (93.5%). The most prevalent oncogenic driver in both primary tumors and brain metastases was a KRAS mutation (n = 21). In 16 patients (34.8%), the brain metastasis harbored additional oncogenic alterations. The presence of a private genetic alteration in the brain metastasis was an independent predictor of shorter overall survival.
Conclusions
In oligometastatic non-small cell lung cancer, brain metastases retain the main genetic alterations of the primary tumors. Patients may profit from targeted inhibition of mutated KRAS. Additional private genetic alterations in the brain metastases are dismal.