Your search keyword '"C-MYB"' showing total 10 results

1. Dissecting the transactivation domain (tAD) of the transcription factor c‐Myb to assess recent models of tAD function.

Author

Næs, Guro, Storesund, Jan Ove, Udayakumar, Priyanga‐Dina, Ledsaak, Marit, and Gabrielsen, Odd Stokke

Subjects

TRANSCRIPTION factors, PHASE separation, GENETIC regulation, TEST systems, ALANINE

Abstract

Transcription factors use a DNA‐binding domain to localize their action and a transactivation domain (tAD) to stimulate activation of the associated gene. Recent work has renewed interest in how tADs activate genes, which remains poorly understood. Key features in the new models are exposure of short linear motifs (SLMs) and liquid–liquid phase separation (LLPS). Inspired by the new models for tAD function, we decided to revisit the tAD of the haematopoietic transcription factor c‐Myb by performing a mutational analysis to see how these new models fit and potentially explain the tAD behaviour of this master regulator. We know that c‐Myb has an acidic tAD, which contains a well‐characterized SLM in the form of a LxxLL motif. By testing 12 alanine‐scanning mutants and three mutants with major reorganization of its tAD in two mammalian reporter systems, we found a pattern of effects very close to what would be expected from the SLM‐exposure model, with strong effects exerted by both acidic replacements and SLM mutation. When the same mutants were tested in a yeast system, the pattern of effects was dramatically different, with the SLM mutation exerting no effect, and tAD behaviour was much less affected by small alterations, as would be expected from a LLPS model. These observations are discussed in the light of the two new tAD models, and a two‐step hypothesis for transactivation, combining both models, is proposed. [ABSTRACT FROM AUTHOR]

Published

2020

2. c‐MYB‐ and PGC1a‐dependent metabolic switch induced by MYBBP1A loss in renal cancer.

Author

Felipe‐Abrio, Blanca, Verdugo‐Sivianes, Eva M., and Carnero, Amancio

Abstract

The tumor microenvironment may alter the original tumorigenic potential of tumor cells. Under harsh environmental conditions, genetic alterations conferring selective advantages may initiate the growth of tumor subclones, providing new opportunities for these tumors to grow. We performed a genetic loss‐of‐function screen to identify genetic alterations able to promote tumor cell growth in the absence of glucose. We identified that downregulation of MYBBP1A increases tumorigenic properties under nonpermissive conditions. MYBBP1A downregulation simultaneously activates PGC1α, directly by alleviating direct repression and indirectly by increasing PGC1α mRNA levels through c‐MYB, leading to a metabolic switch from glycolysis to OXPHOS and increased tumorigenesis in low‐glucose microenvironments. We have also identified reduced MYBBP1A expression in human renal tumor samples, which show high expression levels of genes involved in oxidative metabolism. In summary, our data support the role of MYBBP1A as a tumor suppressor by regulating c‐MYB and PGC1α. Therefore, loss of MYBBP1A increases adaptability spanning of tumors through metabolic switch. [ABSTRACT FROM AUTHOR]

Published

2019

3. B-Cell Deficiency Lowers Blood Pressure in Mice.

Author

Dingwell, Luke S., Shikatani, Eric A., Besla, Rickvinder, Levy, Andrew S., Dinh, Danny D., Momen, Abdul, Zhang, Hangjun, Afroze, Talat, Chen, Michelle B., Chiu, Felix, Simmons, Craig A., Billia, Filio, Gommerman, Jennifer L., John, Rohan, Heximer, Scott, Scholey, James W., Bolz, Steffen-Sebastian, Robbins, Clinton S., and Husain, Mansoor

Abstract

The proto-oncogene c-myb (and corresponding nuclear transcription factor, c-Myb) regulates the proliferation and differentiation of hematologic and vascular smooth muscle cells; however, the role of c-Myb in blood pressure regulation is unknown. Here, we show that mice homozygous for a hypomorphic c-myb allele ( c-myb h/h) conferring reduced c-Myb activity manifest reduced peripheral blood and kidney B220+ B-cells and have decreased systolic (104±2 versus 120±1 mm Hg; P<0.0001) and diastolic blood pressure (71±2 versus 83±1 mm Hg; P<0.0001) compared with WT (wild type) mice. Additionally, c-myb h/h mice had lower susceptibility to deoxycorticosterone acetate-salt experimental hypertension. Although cardiac (echocardiography) and resistance artery (perfusion myography) functions were normal, metabolic cage studies revealed that c-myb h/h mice had increased 24-hour urine output and sodium excretion versus WT. Reconstitution of WT mice with c-myb h/h bone marrow transplant and chimeric bone marrow transplant using mice lacking B-cells ( J H T; h/h>WT and h/h:J H T>WT, respectively) decreased blood pressure and increased 24-hour urine output compared with controls ( WT>WT; WT:J H T>WT). J H T mice also had decreased systolic (103±2 versus 115±1 mm Hg; P<0.0001) and diastolic blood pressure (71±2 versus 79±1; P<0.01) and increased 24-hour urine output versus WT. Real-time quantitative reverse transcription polymerase chain reaction of kidney medulla revealed reduced V2R (vasopressin receptor 2) expression in c-myb h/h and J H T mice. These data implicate B-cells in the regulation of V2R and its associated effects on salt and water handling and blood pressure homeostasis. [ABSTRACT FROM AUTHOR]

Published

2019

4. The adaptor protein ARA55 and the nuclear kinase HIPK1 assist c-Myb in recruiting p300 to chromatin.

Author

Bengtsen, Mads, Sørensen, Linda, Aabel, Linn, Ledsaak, Marit, Matre, Vilborg, and Gabrielsen, Odd Stokke

Abstract

LIM-domain proteins, containing multiple cysteine-rich zinc finger-like motifs, have been shown to play diverse roles in several cellular processes. A common theme is that they mediate important protein-protein interactions that are key to their function. Androgen receptor-associated protein 55 (ARA55) belongs to this family of bridging proteins containing four C-terminal LIM domains. It has a dual role with functions both at focal adhesions and in the nucleus, apparently shuttling between the two compartments. In the present work, we have expanded our understanding of its nuclear functions by showing that it interacts with three nuclear regulators not previously linked to ARA55. We first identified ARA55 as a novel interaction partner of the nuclear kinase HIPK1 and found that ARA55, like HIPK1, also interacts with the transcription factor c-Myb. In search of a function for these associations, we observed that the coactivator p300 not only binds to c-Myb, but to ARA55 as well. When combined, c-Myb, p300, HIPK1 and ARA55 caused strong synergistic activation of a chromatinized reporter gene. In parallel, all partners, including p300, were efficiently recruited to chromatin at the c-Myb-bound promoter. Consistent with this cooperation, we found that c-Myb and ARA55 share a common set of target genes in an osteosarcoma cellular context. We propose that ARA55 and HIPK1 assist c-Myb in recruiting the coactivator and acetyltransferase p300 to chromatin. [ABSTRACT FROM AUTHOR]

Published

2017

5. PIAS1 binds p300 and behaves as a coactivator or corepressor of the transcription factor c-Myb dependent on SUMO-status.

Author

Ledsaak, Marit, Bengtsen, Mads, Molværsmyr, Ann-Kristin, Fuglerud, Bettina Maria, Matre, Vilborg, Eskeland, Ragnhild, and Gabrielsen, Odd Stokke

Abstract

The PIAS proteins (Protein Inhibitor of Activated STATs) constitute a family of multifunctional nuclear proteins operating as SUMO E3 ligases and being involved in a multitude of interactions. They participate in a range of biological processes, also beyond their well-established role in the immune system and cytokine signalling. They act both as transcriptional corepressors and coactivators depending on the context. In the present work, we investigated mechanisms by which PIAS1 causes activation or repression of c-Myb dependent target genes. Analysis of global expression data shows that c-Myb and PIAS1 knockdowns affect a subset of common targets, but with a dual outcome consistent with a role of PIAS1 as either a corepressor or coactivator. Our mechanistic studies show that PIAS1 engages in a novel interaction with the acetyltransferase and coactivator p300. Interaction and ChIP analysis suggest a bridging function where PIAS1 enhances p300 recruitment to c-Myb-bound sites through interaction with both proteins. In addition, the E3 activity of PIAS1 enhances further its coactivation. Remarkably, the SUMO status of c-Myb had a decisive role, indicating a SUMO-dependent switch in the way PIAS1 affects c-Myb, either as a coactivator or corepressor. Removal of the two major SUMO-conjugation sites in c-Myb (2KR mutant), which enhances its activity significantly, turned PIAS1 into a corepressor. Also, p300 was less efficiently recruited to chromatin by c-Myb-2KR. We propose that PIAS1 acts as a “protein inhibitor of activated c-Myb” in the absence of SUMOylation while, in its presence, PIAS behaves as a “protein activator of repressed c-Myb”. [ABSTRACT FROM AUTHOR]

Published

2016

6. Mybs in mouse hair follicle development.

Author

Veselá, B., Švandová, E., Šmarda, J., and Matalová, E.

Subjects

TRANSCRIPTION factors, REGULATION of cell growth, HAIR follicle physiology, CELL physiology, PROTEIN expression, LABORATORY mice, IMMUNOFLUORESCENCE, CELL division

Abstract

The Myb transcription factors are involved in essential cellular processes, such as cell proliferation, differentiation and cell death. Biological functions carried out by specific Myb proteins are distinct. Hair follicles are ectodermal-derived organs with cycling character of the growth resulting from the presence of somatic stem cells. In this study, we followed the expression of the Myb proteins in developing hair follicles and in the hair follicle stem cell niche by immunofluorescence staining. During hair follicle development, B-Myb was present in a few cells located in the area of cell division; c-Myb was abundant postanally in dividing cells but also in keratinizing zone. In addition, c-Myb was also detected in cells under the hair follicle bulge. These findings indicate possible involvement of c-Myb in regulation of activated stem cells leaving the niche. [ABSTRACT FROM AUTHOR]

Published

2014

7. Glioma pathogenesis-related protein 1 induces prostate cancer cell death through Hsc70-mediated suppression of AURKA and TPX2.

Author

Li, Likun, Yang, Guang, Ren, Chengzhen, Tanimoto, Ryuta, Hirayama, Takahiro, Wang, Jianxiang, Hawke, David, Kim, Soo Mi, Lee, Ju-Seog, Goltsov, Alexei A., Park, Sanghee, Ittmann, Michael M., Troncoso, Patricia, and Thompson, Timothy C.

Abstract

In this study we report that expression of glioma pathogenesis‐related protein 1 (GLIPR1) regulated numerous apoptotic, cell cycle, and spindle/centrosome assembly‐related genes, including AURKA and TPX2, and induced apoptosis and/or mitotic catastrophe (MC) in prostate cancer (PCa) cells, including p53‐mutated/deleted, androgen‐insensitive metastatic PCa cells. Mechanistically, GLIPR1 interacts with heat shock cognate protein 70 (Hsc70); this interaction is associated with SP1 and c‐Myb destabilization and suppression of SP1‐ and c‐Myb‐mediated AURKA and TPX2 transcription. Inhibition of AURKA and TPX2 using siRNA mimicked enforced GLIPR1 expression in the induction of apoptosis and MC. Recombinant GLIPR1‐ΔTM protein inhibited AURKA and TPX2 expression, induced apoptosis and MC, and suppressed orthotopic xenograft tumor growth. Our results define a novel GLIPR1‐regulated signaling pathway that controls apoptosis and/or mitotic catastrophe in PCa cells and establishes the potential of this pathway for targeted therapies. Highlights: ► A 6900‐fold enhancement in the in‐vitro efficacy of targeted toxins.► First report on usage of a purified saponin in‐vivo as enhancer of targeted toxin‐based tumor therapy.► Reduced toxin dose with higher efficacy provides evidence for better translational research.► Basis for testing in heterogenous tumor models and for numerous plant‐derived toxins. [ABSTRACT FROM AUTHOR]

Published

2013

8. Erythroblastic sarcoma presenting as bilateral ovarian masses in an infant with pure erythroid leukemia.

Author

Wang, Huan-You, Huang, Lily Jun-shen, Liu, Zhaoli, Garcia, Rolando, Li, Shiyong, and Galliani, Carlos A.

Subjects

SARCOMA, OVARIAN cancer, LEUKEMIA in children, CANCER in infants, IMMUNOPHENOTYPING, REVERSE transcriptase polymerase chain reaction, FLUORESCENCE in situ hybridization, MYELOID leukemia

Abstract

Summary: Pure erythroid leukemia is a rare subtype of acute erythroid leukemia that is characterized by a predominant erythroid population, and erythroblastic sarcoma has not yet been described in the English literature. Here, we report a first case of erythroblastic sarcoma that presented as bilateral ovarian masses in a 3 ½–month-old infant girl with pure erythroid leukemia. Bone marrow aspirate and biopsy showed that the marrow was completely replaced by large-sized blasts consistent with erythroblasts. Immunophenotypically, both the tumor cells from the ovarian mass and bone marrow blasts were positive for CD117, glycophorin A, and hemoglobin A, demonstrating erythroid differentiation. Reverse transcriptase polymerase chain reaction showed that the tumor cells from ovarian mass expressed hemoglobin F and α1 spectrin, confirming their erythroid lineage. Conventional karyotype of the bone marrow aspirates revealed del(6)(q23q25) and trisomy 7 in all 21 cells examined. Fluorescence in situ hybridization of the ovarian mass demonstrated loss of c-myeloblastosis viral oncogene (C-MYB) at 6q23 locus in 41% of the cells, and deletion of chromosome 7 and 7q in 37% and 66% of cells, respectively. Taken together, we showed, for the first time, that pure erythroid leukemia presented as a myeloid sarcoma in the form of ovarian masses. [Copyright &y& Elsevier]

Published

2011

9. c-Myb--Dependent Smooth Muscle Cell Differentiation.

Author

Kolodziejska, Karolina M., Noyan-Ashraf, M. H., Nagy, Andras, Bacon, Andrea, Frampton, Jon, Hong-Bo Xin, Kotlikoff, Michael I., and Husain, Mansoor

Subjects

TRANSCRIPTION factors, CELL differentiation, SMOOTH muscle, MUSCLE cells, FLOW cytometry

Abstract

The article discusses a study which investigated the role of the c-Myb transcription factor in cell differentiation and maturation of contractile smooth muscle cells (SMC). The involvement of c-Myb in proliferation of mature SMC is described. The article also describes a fluorescense-activated cell-sorting analysis. Data acquisition and statistical analysis are also described.

Published

2008

10. Involvement of phosphatidylserine externalization in the down-regulation of c-myb expression in differentiating C2C12 cells.

Author

Kašpar, Petr and Dvořák, Michal

Subjects

PHOSPHATIDYLSERINES, SERINE, PHOSPHATIDIC acids, MYOGENESIS, EMBRYOLOGY

Abstract

Analysis of c-myb gene down-regulation in differentiating C212 cells revealed that in proliferating cells, c-myb expression is high and ceases as the proliferation rate decreases. However, a low level of c-myb mRNA was detected in confluent non-proliferating differentiating cells for an extended period of time before it declined to an undetectable level. The time course of c-myb gene silencing in differentiating cells correlated with exposition of phosphatidylserine (PS) on the cell surface. Moreover, the interaction of exposed PS with exogenously added annexin V perturbed PS-mediated cell signaling and transiently up-regulated the declining c-myb expression. We, therefore, suggest that cell surface-exposed PS, which plays a role in the process of myotube formation, is also involved in the down-regulation of c-myb expression. [ABSTRACT FROM AUTHOR]

Published

2008