Abstract Most advanced-stage non-small cell lung cancer (NSCLC) patients have brain metastases that render a dismal prognosis. Treatment of metastatic brain lesions from NSCLC and other tumor types include radiation as part of a multimodal treatment regimen. Challenges in the application of radiotherapy include overcoming radiation resistance and reducing associated co-morbidities. Non-toxic therapeutics capable of sensitizing tumors to radiation are needed to improve survival and mitigate radiation side-effects. Many CNS and solid systemic tumors express ligand-gated ion channels, which may contribute to tumor growth. Leveraging ion channels is therefore a potential way of diminishing the spread of cancer. We find that NSCLC and its brain metastases express subunits of the type-A GABA-gated chloride channel or GABAA receptor. Importantly, patient-derived NSCLC cells have functional GABAA receptors. We identified a brain penetrant, small molecule activator of GABAA receptors (AMLAL-101), which alone impairs the viability of both primary NSCLC cells and brain metastatic cells. In addition, AMLAL-101 combined with radiation is a highly potent inducer of NSCLC cell death and clonogenic arrest. Using a human ex vivo model of NSCLC-on-chip, we assessed the efficacy and toxicity of AMLAL-101 relative to Docetaxel, an antimicrotubular agent used in treating advanced NSCLC. AMLAL-101 is as potent as Docetaxel but does not exhibit its toxic side effects. AMLAL-101 also potentiates radiation in vivo, significantly reducing lung adenocarcinoma xenograft tumor growth in mice, equivalent to docetaxel plus radiation. Mechanistically, AMLAL-101 activates GABAA receptors in NSCLC and synergizes with radiation by inducing an autophagic response that includes: (i) stabilization of Beclin-1, BNIP3L/NIX, and GABARAP; (ii) ATG7 upregulation; and (iii) utilization of ubiquitin-binding protein p62. Activating GABAA receptors in NSCLC and other tumor types may improve radiation efficacy and mitigate its toxic side effects in treating brain metastases.