Abstract A06: Impact of cigarette smoke exposure on acute myeloid leukemia progression

Abstract

Abstract Cigarette smoke is known to cause lung cancer but is also associated with increased incidence of leukemia. Acute myeloid leukemia (AML) is the most lethal form of leukemia, and patients who are or were smokers have increased risk of developing AML and have worse prognosis. There is also an increased incidence of AML in children whose parents smoked either during or after the pregnancy. It is currently unknown how cigarette smoke exposure (CSE) may be impacting leukemic progression or treatment efficacy in AML. Cigarette smoking increases levels of reactive oxygen species (ROS) in the tissue of smokers, including peripheral blood samples. Oxidative stress can alter epigenetic signaling, including DNA methylation. Oxidation of methylated DNA and oxidative lesions on DNA can alter normal DNA methylation patterns. Smokers have altered DNA methylation that can be retained decades after the cessation of the habit, and these changes can be found in the blood cells of smokers. Cigarette smoke condensate (CSC) treatment has also been seen to epigenetically prime nontransformed human bronchial cells for malignant transformation. These occurrences have been seen in the context of lung cancer and lung damage, but studies into other tissue damage have largely been overlooked. Thus, we hypothesize that CSE impacts leukemic progression and treatment in AML through these mechanisms. We have developed a model to study the impact of CSE on AML in mice. NOD-SCID mice are smoke exposed for two weeks prior to being engrafted with luciferase-labeled human AML cells. The CSE is performed in the SCIREQ Cigarette Smoking Robot, with 3R4F research cigarettes 5 days/week. We include experimental arms of smoking cessation (who stop once evidence of leukemic engraftment is detected) and continued smoking, to model patients who either stop or continue smoking upon diagnosis of AML. Leukemic burden is quantified through bioluminescent imaging throughout the experiment. From these models, we have observed that two weeks of CSE is sufficient to significantly increase (p-value<0.0001) early leukemic burden as compared to non-smoke exposed mice, in FLT3-ITD AML-bearing mice. Spleen samples revealed trends of increased levels of superoxides in the CSE mice. Currently, immunohistochemistry is being performed on collected organs to detect oxidative stress markers. Additionally, mouse spleen DNA underwent reduced representative bisulfide sequencing; the levels of DNA methylation in the mouse host cells and in the leukemia are compared between our CSE groups. This is the first description of CSE promoting leukemia growth in mouse model, which will enable the study of mechanistic aspects. This may help define if unique treatment strategies are needed for these patients. Citation Format: Yue Lu, Marcos Estecio, Marina Konopleva, Elias Jabbour, Joya Chandra, Mary Figueroa. Impact of cigarette smoke exposure on acute myeloid leukemia progression [abstract]. In: Proceedings of the AACR Special Conference on Environmental Carcinogenesis: Potential Pathway to Cancer Prevention; 2019 Jun 22-24; Charlotte, NC. Philadelphia (PA): AACR; Can Prev Res 2020;13(7 Suppl): Abstract nr A06.