Characterisation of N-terminal fragments of Retinoblastoma Binding Protein 6 for structural analysis

Maumela, Matodzi Portia

January 2016

>Magister Scientiae - MSc / Retinoblastoma Binding Protein 6 (RBBP6) is a 200 kDa RING finger-containing protein that plays a role in 3'-end poly-adenylation of mRNA transcripts as well as acting as an E3 ubiquitin ligase against a number of proteins involved in tumourigenesis, including p53. Since the human protein is too large and poorly structured for heterologous expression in bacteria, it would be advantageous to identify smaller fragments suitable for expression in bacteria. Many E3 ubiquitin ligases form homo-dimers and dimerisation is important for their activity; structural studies of the isolated RING finger of RBBP6 showed that it forms a weak homo-dimer. This poses the question of whether the complete RBBP6 protein forms homo-dimers in vivo, and, if so, whether a fragment of RBBP6 containing the RING finger could be identified which would be suitable for structural as well as functional studies. Such a construct would allow detailed investigation of the homo-dimeric state of the fragment, the relationship between dimerisation and ubiquitination activity, and the role of domains such as the DWNN domain and zinc finger in ubiquitination. A fragment consisting of the first 335 residues of RBBP6, dubbed R3 because it contained the first three domains of the protein, was expressed, along with three variants expressing mutations known to disrupt the dimerisation of the isolated RING finger. Size exclusion chromatography showed that R3 forms a strong homo-dimer that was not disrupted by the mutations, suggesting that additional parts of R3 outside of the isolated RING finger form part of the interface. To identify whether this included the DWNN domain or the zinc finger, a shorter fragment dubbed R2, excluding the N-terminal DWNN domain, was cloned and expressed. This was also found to form a strong homo-dimer, suggesting that the DWNN domain may not form an essential part of the dimer interface. Availability of the RING finger samples and monomerising mutations allowed investigation of whether the RING finger from RBBP6 was able to auto-ubiquitinate itself. Using a fully in vitro ubiquitination assay supplemented with intact proteasomes purified from human cell lysates, we found that wild type RING auto-ubiquitinates itself very efficiently, catalysing its own destruction in the proteasome. This provides an answer to the question of why RBBP6 is so difficult to detect in mammalian cells. Surprisingly, monomeric mutant RING fingers were also able to auto-ubiquitinate and catalyse their own destruction, although perhaps not as efficiently as wild type. This result would appear to rule out the hypothesis that dimerisation of RBBP6 is required for ubiquitination activity. Finally, samples of the RING finger from human MDM2 were expressed in bacteria and used to investigate whether the RING fingers of RBBP6 and MDM2 interact directly with each other. If so, this may provide a mechanism whereby RBBP6 and MDM2 cooperate in ubiquitination of p53. The results of a GST pull down assay using GST-MDM2-RING as ''bait'' and RBBP6-RING as ''prey'' provides evidence that such an interaction between the RING does exist. This work lays the foundation for future structural studies of the RING-RING hetero-dimer using protein Nuclear Magnetic Resonance Spectroscopy.

Cancer

Chromatography

Ubiquitination

Retinoblastoma Binding Protein 6 (RBBP6)

In vitro investigation of putative interactions between the RING finger domain of Retinoblastoma Binding Protein 6 (RBBP6) and various substrates

Witbooi, Christopher Jerome

January 2015

Masters of Science / Retinoblastoma Binding Protein 6 (RBBP6) is a RING finger-containing protein which plays a critical role in the 3'-end processing of mRNA transcripts. It is a constituent of the human pre-mRNA processing complex but also interacts directly with core splicing-associated proteins. RBBP6 also interacts with both major tumour suppressor proteins p53 and pRb and is known to play a critical role in suppression of p53 during development, in cooperation with MDM2. Through its RING finger it interacts with the C-terminus of the oncogenic protein Y-Box Binding Protein 1 (YB-1) both in vitro and in vivo, catalysing its ubiquitination and degradation in the proteasome. YB-1 is closely associated with tumour progression, poor patient prognosis and chemotherapeutic resistance, making it a promising target for therapeutic intervention. Unpublished data from our laboratory suggests that RBBP6 is able to poly-ubiquitinate YB-1 in vitro, using UbcH1 as the ubiquitin- conjugating enzyme (E2). This study aims to identify RBBP6 RING protein-protein interactions involved in the down regulation of YB-1 by RBBP6. These interactions include the C-terminal fragment of YB-1 (substrate), MDM2 (E3) and UbcH1 (E2). The C-terminal fragment of YB-1, denoted YB-1₂₂₀₋₃₂₄, was successfully cloned and expressed in bacteria and demonstrated to interact directly with the RBBP6 RING finger domain in in vitro affinity pull down assays. This is in good agreement with our unpublished data that RBBP6 is able to ubiquitinate full length YB-1 as well as the YB-1₂₂₀₋₃₂₄ fragment. UbcH1 was successfully expressed and shown to interact directly with RBBP6 RING in in vitro affinity pull down assays. This is also in agreement with our data showing that RBBP6 is able to ubiquitinate YB-1 using UbcH1 as E2. ¹⁵N-labelled samples of RBBP6 RING was successfully expressed in bacteria and used to investigate the putative interaction with UbcH1 in NMR-based chemical shift perturbation assays. However no interaction was observed, possibly because the sample of UbcH1 was subsequently found using mass spectrometery to be partially degraded. GST-tagged RBBP6 RING was able to precipitate MDM2 from HeLa lysate. This extends previous reports that full length RBBP6 and MDM2 interact directly and play a role in the suppression of p53 during development. The result was validated by showing that GST-MDM2 was able to precipitate RBBP6 RING in in vitro. This study includes a side project which involved the cloning and expression of DWNN-GG. GST-HADWNN-GG was successfully cloned and expressed in bacteria. An HA tag was included immediately upstream of DWNN-GG for immunodetection using anti-HA antibodies; the construct was designed in such as way that it could be re-used to generate HA-tagged versions of existing constructs cloned into pGEX-6P-2. The above findings lay the foundation for future structural and functional studies of the involvement of RBBP6 in regulation of the cancer-related proteins p53 and YB-1, which may have far-reaching consequences in the fight against cancer. / National Research Foundation (NRF)

Retinoblastoma Binding Protein 6 (RBBP6)

Cancer

Ubiquitination

Polymerase chain reaction

Multidrug Resistance-Associated Proteins