@phdthesis{Mak2020,
  author    = {Mak, Ka Yan},
  title     = {TFIIIC subunits employ different modes of action for regulating N-MYC},
  doi       = {10.25972/OPUS-18596},
  url       = {http://nbn-resolving.de/urn:nbn:de:bvb:20-opus-185969},
  school      = {Universit{\"a}t W{\"u}rzburg},
  year      = {2020},
  abstract  = {Amplification of N-MYC is a poor prognostic and survival marker of neuroblastoma. To broaden the scope of knowledge in N-MYC cancer biology, interactors of N-MYC should be investigated. TFIIIC complex was identified as a new protein interacting partner of N-MYC. TFIIIC is a core component of RNAPIII transcription machinery which is important for the synthesis of tRNA genes. TFIIIC recognizes and binds to B-box located internal of tRNA genes which subsequently initiate the RNAPIII transcription process. Apart from the role in RNAPIII transcription machinery, TFIIIC is an architectural protein. TFIIIC binds to thousands of sites across the genome without RNAPIII and TFIIIB. These binding loci are known as Extra TFIIIC (ETC) sites at which TFIIIC perform its role in genome organization. However, knowledge of TFIIIC is mostly restricted to studies conducted in yeasts, the exact function of TFIIIC and how it regulates N-MYC remains to be elucidated. To obtain a better overview about TFIIIC functions, two TFIIIC subunits (TFIIIC5 and TFIIIC2) which represent sub-complexes A and B were chosen for investigation. ChIP-seq experiment of RNAPIII transcription machinery was performed. It showed that both TFIIIC subunits functioned together as a complex. Next, joint binding sites of two TFIIIC subunits and N-MYC were identified. The data revealed that co-occupancies between N-MYC and TFIIIC subunits had different preference on genomic distribution. Furthermore, TFIIIC5 exhibited strong binding association with architectural proteins RAD21 and CTCF whereas TFIIIC2 was only modestly enriched with these two proteins. Both TFIIIC subunits showed equal but weak enrichment with accessory protein CAPH2. Despite the weak association with other architectural proteins, TFIIIC2 binds preferentially to repetitive elements SINE. In order to understand how TFIIIC5 affects other architectural proteins in chromatin binding, cells were depleted of TFIIIC protein upon doxycycline induction of shRNA. N-MYC binding was not affected. Yet, 50\% reduction of RAD21 binding to joint N-MYC/TFIIIC sites was noticed. CAPH2 binding was increased at some joint sites while some did not respond. Lastly, CTCF did not show changes in binding under the effect of TFIIIC5 knockdown. In summary, the data indicated TFIIIC subunits from different sub-complexes diverge in functions other than tRNA synthesis. The association of TFIIIC5 with architectural proteins and TFIIIC2 with SINE elements were suggested to be distinct mechanisms to regulate N-Myc directly or indirectly.},
  language  = {en}
}