Your search keyword '"Lee, You-Soub"' showing total 2 results

1. K-Ras–Activated Cells Can Develop into Lung Tumors When Runx3-Mediated Tumor Suppressor Pathways Are Abrogated

Author

Lee, You-Soub, Lee, Ja-Yeol, Song, Soo-Hyun, Kim, Da-Mi, Lee, Jung-Won, Chi, Xin-Zi, Ito, Yoshiaki, and Bae, Suk-Chul

Subjects

body regions, p53, lung cancer, Runx3, cancer initiation, K-Ras, Research Article

Abstract

K-RAS is frequently mutated in human lung adenocarcinomas (ADCs), and the p53 pathway plays a central role in cellular defense against oncogenic K-RAS mutation. However, in mouse lung cancer models, oncogenic K-Ras mutation alone can induce ADCs without p53 mutation, and loss of p53 does not have a significant impact on early K-Ras–induced lung tumorigenesis. These results raise the question of how K-Ras–activated cells evade oncogene surveillance mechanisms and develop into lung ADCs. RUNX3 plays a key role at the restriction (R)-point, which governs multiple tumor suppressor pathways including the p14ARF–p53 pathway. In this study, we found that K-Ras activation in a very limited number of cells, alone or in combination with p53 inactivation, failed to induce any pathologic lesions for up to 1 year. By contrast, when Runx3 was inactivated and K-Ras was activated by the same targeting method, lung ADCs and other tumors were rapidly induced. In a urethane-induced mouse lung tumor model that recapitulates the features of K-RAS–driven human lung tumors, Runx3 was inactivated in both adenomas (ADs) and ADCs, whereas K-Ras was activated only in ADCs. Together, these results demonstrate that the R-point–associated oncogene surveillance mechanism is abrogated by Runx3 inactivation in AD cells and these cells cannot defend against K-Ras activation, resulting in the transition from AD to ADC. Therefore, K-Ras–activated lung epithelial cells do not evade oncogene surveillance mechanisms; instead, they are selected if they occur in AD cells in which Runx3 has been inactivated.

Published

2020

2. Lung Cancer Staging and Associated Genetic and Epigenetic Events

Author

Kim, Dohun, Lee, You-Soub, Kim, Duk-Hwan, and Bae, Suk-Chul

Subjects

lung cancer, adenocarcinoma, Lung Neoplasms, epigenetic alteration, Carcinogenesis, Mutation, Animals, Humans, Minireview, staging, Neoplasm Staging, Epigenesis, Genetic

Abstract

The first step in treating lung cancer is to establish the stage of the disease, which in turn determines the treatment options and prognosis of the patient. Many factors are involved in lung cancer staging, but all involve anatomical information. However, new approaches, mainly those based on the molecular biology of cancer, have recently changed the paradigm for lung cancer treatment and have not yet been incorporated into staging. In a group of patients of the same stage who receive the same treatment, some may experience unexpected recurrence or metastasis, largely because current staging methods do not reflect the findings of molecular biological studies. In this review, we provide a brief summary of the latest research on lung cancer staging and the molecular events associated with carcinogenesis. We hope that this paper will serve as a bridge between clinicians and basic researchers and aid in our understanding of lung cancer.

Published

2020