Interaction of CCR4–NOT with EBF1 regulates gene-specific transcription and mRNA stability in B lymphopoiesis

Yang, Chengyuan; Ramamoorthy, Senthilkumar; Boller, Sören; Rosenbaum, Marc; Gil, Alfonso Rodriguez; Mittler, Gerhard; Imai, Yumiko; Kuba, Keiji; Grosschedl, Rudolf

doi:10.1101/gad.285452.116

Cited by 30 publications

(41 citation statements)

References 70 publications

(101 reference statements)

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“…EBF1 can bind DNA as a homodimer [60], but can further interact and cooperate with other transcription factors like MEF2C [61], the deoxygenase TET2, an enzyme involved in the DNA demethylation process [62], or the histone acetyltransferase CBP [63]. EBF1 also binds to CNOT3, a subunit of the CCR4-NOT complex [64] which regulates multiple steps in RNA metabolism including transcription, nuclear RNA export and RNA decay [65], and thereby also modulates target gene profiles of EBF. In addition, two multi-zinc finger proteins, ZNF423 and ZNF521, antagonize the biological activity of EBF1 and thereby might promote tumorigenesis [66].…”

Section: Discussionmentioning

confidence: 99%

EBF1 binds to EBNA2 and promotes the assembly of EBNA2 chromatin complexes in B cells

et al. 2017

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Epstein-Barr virus (EBV) infection converts resting human B cells into permanently proliferating lymphoblastoid cell lines (LCLs). The Epstein-Barr virus nuclear antigen 2 (EBNA2) plays a key role in this process. It preferentially binds to B cell enhancers and establishes a specific viral and cellular gene expression program in LCLs. The cellular DNA binding factor CBF1/CSL serves as a sequence specific chromatin anchor for EBNA2. The ubiquitous expression of this highly conserved protein raises the question whether additional cellular factors might determine EBNA2 chromatin binding selectively in B cells. Here we used CBF1 deficient B cells to identify cellular genes up or downregulated by EBNA2 as well as CBF1 independent EBNA2 chromatin binding sites. Apparently, CBF1 independent EBNA2 target genes and chromatin binding sites can be identified but are less frequent than CBF1 dependent EBNA2 functions. CBF1 independent EBNA2 binding sites are highly enriched for EBF1 binding motifs. We show that EBNA2 binds to EBF1 via its N-terminal domain. CBF1 proficient and deficient B cells require EBF1 to bind to CBF1 independent binding sites. Our results identify EBF1 as a co-factor of EBNA2 which conveys B cell specificity to EBNA2.

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Section: Discussionmentioning

confidence: 99%

EBF1 binds to EBNA2 and promotes the assembly of EBNA2 chromatin complexes in B cells

et al. 2017

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“…To understand the roles of PTBP1 in B cell development we first inspected mRNA expression of genes important for B cell lymphopoiesis. We found similar mRNA abundance in P1P2dKO compared to control and P1sKO pro-B cells in most of these genes including Cnot3 (Inoue et al, 2015;Yang et al, 2016) and Pax5 (Urbánek et al, 1994) ( Figure S4E). E2A (encoded by Tcf3) and IKAROS are two transcription factors with AS (Schjerven et al, 2013;Sun & Baltimore, 1991) important for B cell ontogeny.…”

Section: Ptbp1 Regulates Pathways Associated With Growth and Prolifermentioning

confidence: 64%

Polypyrimidine Tract Binding Proteins are essential for B cell development

Monzón-Casanova

Matheson

Tabbada

et al. 2019

Preprint

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During B cell development, recombination of immunoglobulin loci is tightly coordinated with the cell cycle to avoid unwanted rearrangements of other genomic locations. Several factors have been identified that suppress proliferation in late-pre-B cells to allow light chain recombination. By comparison, our knowledge of factors limiting proliferation during heavy chain recombination at the pro-B cell stage is very limited. Here we identify an essential role for the RNA-binding protein Polypyrimidine Tract Binding Protein 1 (PTBP1) in B cell development. Absence of PTBP1 and the paralog PTBP2 results in a complete block in development at the pro-B cell stage. PTBP1 promotes the fidelity of the transcriptome in pro-B cells. In particular, PTBP1 controls a cell cycle mRNA regulon, suppresses entry into S-phase and promotes progression into mitosis. Our results highlight the importance of S-phase entry suppression and post-transcriptional gene expression control by PTBP1 in pro-B cells for proper B cell development.

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“…Poor MHC II expression can cause autoimmune or infectious diseases, since MHCII is indispensable for adequate immune responses (Rodríguez-Gil et al, 2017). Additionally, CNOT proteins also contribute to the downregulation of MHC class I gene expression by influencing transcription and mRNA degradation (Yang et al, 2016). Enriched network analyses of secreted proteins from ID PBL revealed further major different functions of the 38 differentially abundant proteins (Figure 4B).…”

Section: Discussionmentioning

confidence: 99%

Interplay of primary bovine lymphocytes and Mycobacterium avium subsp. paratuberculosis shows distinctly different proteome changes and immune pathways in host-pathogen interaction

Kleinwort¹,

Hauck

Degroote³

et al. 2019

Preprint

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Mycobacterium avium subsp. paratuberculosis (MAP) is a pathogen causing paratuberculosis in cattle and small ruminants. During the long asymptomatic subclinical stage, high numbers of MAP are excreted and can be transmitted to food, where they survive many of the standard techniques of food decontamination. If these MAP are harmful to the consumers is currently under debate. In general, there is a lack of information regarding interaction of the hosts immune system with MAP.In this study, we tested the interaction of peripheral blood lymphocytes (PBL) from cattle with MAP in their exoproteomes/secretomes. Because in other mycobacterial infections, the immune phenotype correlates with susceptibility, we additionally tested the interaction of MAP with recently detected immune deviant cows.In PBL, different biological pathways were enhanced in response to MAP dependent on the immune phenotype of the host. PBL of control cows activated members of cell activation and chemotaxis of leukocytes pathway as well as IL-12 mediated signaling. In contrast, in ID cows CNOT1 was detected as highly abundant protein, pointing to a different immune response, which could be favorable for MAP. Additionally, MAP reacted different to the hosts. Their exoproteomes differed in either GroEL1 or DnaK abundance, depending on the interacting immune response.These findings point to an interdependent, tightly regulated response of MAP and the immune system.

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Interaction of CCR4–NOT with EBF1 regulates gene-specific transcription and mRNA stability in B lymphopoiesis

Cited by 30 publications

References 70 publications

EBF1 binds to EBNA2 and promotes the assembly of EBNA2 chromatin complexes in B cells

EBF1 binds to EBNA2 and promotes the assembly of EBNA2 chromatin complexes in B cells

Polypyrimidine Tract Binding Proteins are essential for B cell development

Interplay of primary bovine lymphocytes and Mycobacterium avium subsp. paratuberculosis shows distinctly different proteome changes and immune pathways in host-pathogen interaction

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