TY - THES A1 - Hofstetter, Julia Eva Ines T1 - MYC shapes the composition of RNA polymerase II through direct recruitment of transcription elongation factors T1 - MYC beeinflusst die Zusammensetzung der RNA-Polymerase II durch die direkte Rekrutierung von Transkriptions-Elongationsfaktoren N2 - The transcription factor MYC is a onco-protein, found to be deregulated in many human cancers. High MYC levels correlate with an aggressive tumor outcome and poor survival rates. Despite MYC being discovered as an oncogene already in the 1970s, how MYC regulates transcription of its target genes, which are involved in cellular growth and proliferation, is not fully understood yet. In this study, the question how MYC influences factors interacting with the RNA polymerase II ensuring productive transcription of its target genes was addressed using quantitative mass spectrometry. By comparing the interactome of RNA polymerase II under varying MYC levels, several potential factors involved in transcriptional elongation were identified. Furthermore, the question which of those factors interact with MYC was answered by employing quantitative mass spectrometry of MYC itself. Thereby, the direct interaction of MYC with the transcription elongation factor SPT5, a subunit of the DRB-sensitivity inducing factor, was discovered and analyzed in greater detail. SPT5 was shown to be recruited to chromatin by MYC. In addition, the interaction site of MYC on SPT5 was narrowed down to its evolutionary conserved NGN-domain, which is the known binding site for SPT4, the earlier characterized second subunit of the DRB-sensitivity inducing factor. This finding suggests a model in which MYC and SPT4 compete for binding the NGN-domain of SPT5. Investigations of the SPT5-interacting region on MYC showed binding of SPT5 to MYC’s N-terminus including MYC-boxes 0, I and II. In order to analyze proteins interacting specifically with the N-terminal region of MYC, a truncated MYC-mutant was used for quantitative mass spectrometric analysis uncovering reduced binding for several proteins including the well-known interactor TRRAP and TRRAP-associated complexes. Summarized, ... N2 - Bei dem Transkriptionsfaktor MYC handelt es sich um ein Onkoprotein, welches in einer Vielzahl der menschlichen Krebserkrankungen in erhöhter Konzentration vorliegt, was wiederum mit einem schweren Krankheitsverlauf einhergeht. Bereits in den 1970iger Jahren wurde das Protein MYC als ein Onkoprotein identifiziert, aber wie es die Transkription seiner großen Bandbreite an Zielgenen, welche für Zellwachstum und -proliferation verantwortlich sind, reguliert, ist bisher noch nicht eindeutig geklärt. In dieser Arbeit wurde die zentrale Frage untersucht, wie MYC die Proteine beeinflusst, die mit der RNA-Polymerase II interagieren, um dadurch eine schnelle und produktive Transkription seiner Zielgene zu ermöglichen. Hierfür wurden mittels der Durchführung massenspektrometrischer Untersuchungen Proteine, die in der An- und Abwesenheit von MYC mit der RNA-Polymerase II interagieren, identifiziert, was eine MYC-bedingte Änderung einiger Elongationsfaktoren im Interaktom der RNA-Polymerase II aufzeigte. Des Weiteren wurden ebenfalls unter Zuhilfenahme massenspektrometrischer Analysen Proteine bestimmt, die mit MYC selbst interagieren. Hierdurch konnte die bisher unbeschriebene, direkte Interaktion zwischen MYC und SPT5, der großen Untereinheit des DRB-sensitivity inducing factors, aufgedeckt und näher analysiert werden. Es konnte gezeigt werden, dass MYC SPT5 zum Chromatin rekrutiert. Weiter konnte nachgewiesen werden, dass MYC mit der evolutionär konservierten NGN-Domäne von SPT5 interagiert, an welche auch SPT4, die zweite Untereinheit des DRB-sensitivity inducing factors, bindet. Dies resultiert in dem Modell, dass MYC mit SPT4 um die Bindestelle auf SPT5 konkurriert und durch dieses ersetzt werden kann. Die Nähere Untersuchung der Bindestelle von SPT5 auf MYC zeigte eine Binderegion im N-terminalen Bereich von MYC auf, der die MYC-Boxen 0, I und II miteinschließt. Um Proteine zu identifiziert, die selektiv mit dem N-terminalen Bereich von MYC interagieren, ... KW - Transkription KW - Myc KW - MYC KW - DSIF KW - Transcription KW - Cancer KW - RNA polymerase II Y1 - 2022 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-240358 ER - TY - JOUR A1 - Trifault, Barbara A1 - Mamontova, Victoria A1 - Cossa, Giacomo A1 - Ganskih, Sabina A1 - Wei, Yuanjie A1 - Hofstetter, Julia A1 - Bhandare, Pranjali A1 - Baluapuri, Apoorva A1 - Nieto, Blanca A1 - Solvie, Daniel A1 - Ade, Carsten P. A1 - Gallant, Peter A1 - Wolf, Elmar A1 - Larsen, Dorthe H. A1 - Munschauer, Mathias A1 - Burger, Kaspar T1 - Nucleolar detention of NONO shields DNA double-strand breaks from aberrant transcripts JF - Nucleic Acids Research N2 - RNA-binding proteins emerge as effectors of the DNA damage response (DDR). The multifunctional non-POU domain-containing octamer-binding protein NONO/p54\(^{nrb}\) marks nuclear paraspeckles in unperturbed cells, but also undergoes re-localization to the nucleolus upon induction of DNA double-strand breaks (DSBs). However, NONO nucleolar re-localization is poorly understood. Here we show that the topoisomerase II inhibitor etoposide stimulates the production of RNA polymerase II-dependent, DNA damage-inducible antisense intergenic non-coding RNA (asincRNA) in human cancer cells. Such transcripts originate from distinct nucleolar intergenic spacer regions and form DNA–RNA hybrids to tether NONO to the nucleolus in an RNA recognition motif 1 domain-dependent manner. NONO occupancy at protein-coding gene promoters is reduced by etoposide, which attenuates pre-mRNA synthesis, enhances NONO binding to pre-mRNA transcripts and is accompanied by nucleolar detention of a subset of such transcripts. The depletion or mutation of NONO interferes with detention and prolongs DSB signalling. Together, we describe a nucleolar DDR pathway that shields NONO and aberrant transcripts from DSBs to promote DNA repair. KW - genome integrity KW - repair and replication KW - NONO KW - DNA double-strand breaks KW - aberrant transcripts Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-350208 VL - 52 IS - 6 ER - TY - JOUR A1 - Hofstetter, Julia A1 - Ogunleye, Ayoola A1 - Kutschke, André A1 - Buchholz, Lisa Marie A1 - Wolf, Elmar A1 - Raabe, Thomas A1 - Gallant, Peter T1 - Spt5 interacts genetically with Myc and is limiting for brain tumor growth in Drosophila JF - Life Science Alliance N2 - The transcription factor SPT5 physically interacts with MYC oncoproteins and is essential for efficient transcriptional activation of MYC targets in cultured cells. Here, we use Drosophila to address the relevance of this interaction in a living organism. Spt5 displays moderate synergy with Myc in fast proliferating young imaginal disc cells. During later development, Spt5-knockdown has no detectable consequences on its own, but strongly enhances eye defects caused by Myc overexpression. Similarly, Spt5-knockdown in larval type 2 neuroblasts has only mild effects on brain development and survival of control flies, but dramatically shrinks the volumes of experimentally induced neuroblast tumors and significantly extends the lifespan of tumor-bearing animals. This beneficial effect is still observed when Spt5 is knocked down systemically and after tumor initiation, highlighting SPT5 as a potential drug target in human oncology. KW - Drosophila KW - transcription factor SPT5 KW - Myc KW - brain tumor KW - tumor growth Y1 - 2024 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:bvb:20-opus-350197 SN - 2575-1077 VL - 7 IS - 1 ER -