| Date |
Thursday, 12 July 2018, 16:00 – onwards |
| Room |
7th Floor, Seminar Room 1, IDAC Center for Basic Aging Research |
| Title |
Lymphocyte Proliferation in protective immunity and oncogenesis |
| Speaker |
Takeshi Egawa |
| Affiliation |
Department of Pathology and Immunology Washington University school of Medicine
|
| Organizer |
Yasuhisa Matsui (Cell Resource Center for Biomedical Research・ext 8571) |
| Abstract |
Clonal expansion of lymphocytes is an essential process for both the development of lymphocytes with diverse antigen receptor repertoires and the amplification of antigen-specific adaptive immunity. Lymphocyte precursors undergo rapid clonal expansion during their development to establish diverse antigen (Ag)-receptor repertoires. During immune responses, Ag-specific T and B cells that are present under steady state conditions at very low frequencies increase their numbers by rapid clonal expansion. Such robust increase in cell numbers is essential to quantitatively amplify their immune responses and as well as to generate high-affinity, mutated antibodies in the germinal centers (GCs). However, clonal expansion is a metabolically demanding process that requires extensive bio-genesis. Proliferating lymphocyte precursors and GC B cells are also exposed to substantial genomic insults associated with activities of RAG and AID proteins in addition to replication-related mutation, presumably leading to the elevated risk of oncogenic transformation. Lymphocytes may thus employ unique programs to facilitate their clonal expansion while minimizing collateral genome damage. However, our knowledge about these regulatory pathways remains limited. To address this question, we have studied gene expression programs initiated by the transcription factor c-MYC, which is essential for proliferation of normal lymphocytes and implicated in oncogenesis. Through these studies, we have identified MYC downstream gene expression programs that facilitate requisite clonal expansion of lymphocytes for protective immunity and protect proliferating lymphocytes from oncogenesis. These findings not only reveal the genetic pathways critical for host protection from infection but also demonstrate that the proto-oncogene MYC engages a tumor suppressor program. |
