Abstract 3776: Frequent alteration of mitochondria functional pathways in lung cancer

Abstract

Abstract Lung cancer killed 1.8 million people globally in 2020. In the United States, there will be over 235,760 cases of lung cancer with an estimated death of 131,880 individuals in 2021. Despite significant improvement in multimodal therapeutic approaches, overall 5-year survival rate is only 21.7%. Lung cancer appears to be mitochondria enriched cancer, however, alteration pattern of hallmark molecular pathways associated with diverse mitochondrial functions remain largely unknown in lung tumorigenesis. Utilizing high-throughput genomic profiling, we identified altered copy number of a panel of 40 mitochondria targeted molecules in primary lung cancer patients and their histologically normal appearing follow up mucosal biopsies. These altered molecules are critical components of the mitochondrial protein carrier, OXPHOS, stress response, amino acid metabolism and apoptosis pathways. This finding suggests for clonal genetic relationship between multifocal lesions and potential role of these alterations in the evolution of second primary tumors, which is an existing problem among lung cancer patients. The Human Cancer Genome Atlas database was utilized to further assess the mRNA expression pattern of these 40 molecules and determine their clinico-pathological correlations. Immunohistochemistry and digital pathology system based evaluations were performed to validate expression pattern of key altered molecules. We identified overexpression of various critical mitochondria pathway molecules including AARS2, AGMAT, SDHA, NDUFB7, LONP1, DGUOK, MRM1 and GCAT in both lung adenocarcinomas (LUAD) and squamous cell carcinomas (LUSC), predicting poor prognosis. Significant loss of expression of ACSF2, ACSS1, MTCH1, SLC25A4, ACAD8 and NAGS was evident in both adenocarcinoma and squamous cell carcinoma subtypes. Molecular characterization of both LUAD and LUSC tumor subtypes identified significant association of various key molecules including ACAD8, AGMAT, DGUOK and NDUFAB1 with proximal-inflammatory, proximal-proliferative and terminal respiratory unit pathways in LUAD; and an association of DGUOK, MDH2, MRM1 and MRPL10 with basal, classical, primitive and secretory pathways in LUSC. Significant loss of SLC25A4 protein expression was evident in lung cancer tissues, which predicted poor survival of the lung cancer patients. Capturing the compendium of hallmark mitochondrial alterations in lung tumorigenesis may open up novel avenues for therapeutic and biomarker interventions to improve the overall survival of the lung cancer patients. Citation Format: Kate L. Hertweck, Brian Persing, Pranitha Prodduturvar, Seema Singh, Ajay Singh, Santanu Dasgupta. Frequent alteration of mitochondria functional pathways in lung cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 3776.