According to the statistics released by government in the past few years, cancer is the majority of dead reason from 1980s to present in Taiwan. Moreover, the cancer incidence is increasing year after year. Based on the latest statistics of cancer incidence and cancer death released by the Health Promotion Administration in 2019 and 2021 respectively, lung cancer ranked the top three cancer incidence and cancer death in both gender in Taiwan. Additionally, the esophageal cancer incidence in male was fifteen times as much as the esophageal cancer incidence in female. Although most of cancer research focus on lung and esophageal carcinogenesis related cell signaling, the regulation of cancer cell signaling is complex. Thus, in this study, I would focus on the function of CD36 and miR-548ba in lung and esophageal carcinogenesis respectively. In our lab, previous study found that compared with normal lung cells, CD36 low expression may play an important role in lung cancer. Therefore, we investigated the regulatory mechanism of CD36 low expression in lung cancer. First, we found that CD36 silencing inhibited CL1-0 proliferation, whereas CD36 overexpression did not alter CL1-5 proliferation, but CD36 overexpression inhibited H1299 proliferation. Using Transwell, we found that CD36 silencing promoted CL1-0 migration, but CD36 overexpression did not change CL1-5 and H1299 migration. In cell apoptosis assays, CD36 silencing reduced the death rate of CL1-0, whereas CD36 overexpression did not alter the death rate of CL1-5. Finally, CD36 silencing reduced the amount of glucose consumption and inhibited glycolysis activity in CL1-0. Except for genes, many studies had also found that microRNAs (miRNAs) also play important roles in various human cancers. Therefore, in our lab previously found that the high expression of miR-548ba may play an important role in esophageal cancer compared with normal esophageal cells by next-generation sequencing and real-time quantitative polymerase chain reaction. Therefore, we investigated the regulatory mechanism of miR-548ba high expression in esophageal cancer. First, it was found that miR-548ba overexpression promoted CE81T proliferation and increases CE81T colony number, but did not change CE81T migration. Then, using the software for predicting miRNA target genes and the verification by real-time quantitative polymerase chain reaction and found that MOB1B may be the target gene of miR-548ba, but whether MOB1B is the direct target gene of miR-548ba still needs to be verified by subsequent experiments. Overall, my study indicated that CD36 had diverse effects on the physiological functions in different lung cancer cells, and miR-548ba could promote CE81T proliferation. Therefore, it is hoped that it can provide new aspects for researchers to find new lung and esophageal carcinogenesis mechanism in this study.