Your search keyword '"Porse, Bo. T."' showing total 28 results

1. The histone demethylase KDM5C functions as a tumor suppressor in AML by repression of bivalently marked immature genes

Author

Trempenau, Mette Louise, Schuster, Mikkel Bruhn, Pundhir, Sachin, Pereira, Mafalda Araujo, Kalvisa, Adrija, Tapia, Marta, Su, Jinyu, Ge, Ying, de Boer, Bauke, Balhuizen, Alexander, Bagger, Frederik Otzen, Shliaha, Pavel, Sroczynska, Patrycja, Walfridsson, Julian, Grønbæk, Kirsten, Theilgaard-Mönch, Kim, Jensen, Ole N., Helin, Kristian, and Porse, Bo T.

Abstract

Epigenetic regulators are frequently mutated in hematological malignancies including acute myeloid leukemia (AML). Thus, the identification and characterization of novel epigenetic drivers affecting AML biology holds potential to improve our basic understanding of AML and to uncover novel options for therapeutic intervention. To identify novel tumor suppressive epigenetic regulators in AML, we performed an in vivo short hairpin RNA (shRNA) screen in the context of CEBPAmutant AML. This identified the Histone 3 Lysine 4 (H3K4) demethylase KDM5C as a tumor suppressor, and we show that reduced Kdm5c/KDM5Cexpression results in accelerated growth both in human and murine AML cell lines, as well as in vivo in Cebpamutant and inv(16) AML mouse models. Mechanistically, we show that KDM5C act as a transcriptional repressor through its demethylase activity at promoters. Specifically, KDM5C knockdown results in globally increased H3K4me3 levels associated with up-regulation of bivalently marked immature genes. This is accompanied by a de-differentiation phenotype that could be reversed by modulating levels of several direct and indirect downstream mediators. Finally, the association of KDM5Clevels with long-term disease-free survival of female AML patients emphasizes the clinical relevance of our findings and identifies KDM5Cas a novel female-biased tumor suppressor in AML.

Published

2023

2. Basement membrane stiffness determines metastases formation

Author

Reuten, Raphael, Zendehroud, Sina, Nicolau, Monica, Fleischhauer, Lutz, Laitala, Anu, Kiderlen, Stefanie, Nikodemus, Denise, Wullkopf, Lena, Nielsen, Sebastian Rune, McNeilly, Sarah, Prein, Carina, Rafaeva, Maria, Schoof, Erwin M., Furtwängler, Benjamin, Porse, Bo T., Kim, Hyobin, Won, Kyoung Jae, Sudhop, Stefanie, Zornhagen, Kamilla Westarp, Suhr, Frank, Maniati, Eleni, Pearce, Oliver M. T., Koch, Manuel, Oddershede, Lene Broeng, Van Agtmael, Tom, Madsen, Chris D., Mayorca-Guiliani, Alejandro E., Bloch, Wilhelm, Netz, Roland R., Clausen-Schaumann, Hauke, and Erler, Janine T.

Abstract

The basement membrane (BM) is a special type of extracellular matrix and presents the major barrier cancer cells have to overcome multiple times to form metastases. Here we show that BM stiffness is a major determinant of metastases formation in several tissues and identify netrin-4 (Net4) as a key regulator of BM stiffness. Mechanistically, our biophysical and functional analyses in combination with mathematical simulations show that Net4 softens the mechanical properties of native BMs by opening laminin node complexes, decreasing cancer cell potential to transmigrate this barrier despite creating bigger pores. Our results therefore reveal that BM stiffness is dominant over pore size, and that the mechanical properties of ‘normal’ BMs determine metastases formation and patient survival independent of cancer-mediated alterations. Thus, identifying individual Net4 protein levels within native BMs in major metastatic organs may have the potential to define patient survival even before tumour formation. The ratio of Net4 to laminin molecules determines BM stiffness, such that the more Net4, the softer the BM, thereby decreasing cancer cell invasion activity.

Published

2021

3. EZH2 is a potential therapeutic target for H3K27M-mutant pediatric gliomas

Author

Mohammad, Faizaan, Weissmann, Simon, Leblanc, Benjamin, Pandey, Deo P, Højfeldt, Jonas W, Comet, Itys, Zheng, Chunqin, Johansen, Jens Vilstrup, Rapin, Nicolas, Porse, Bo T, Tvardovskiy, Andrey, Jensen, Ole N, Olaciregui, Nagore G, Lavarino, Cinzia, Suñol, Mariona, de Torres, Carmen, Mora, Jaume, Carcaboso, Angel M, and Helin, Kristian

Abstract

Diffuse intrinsic pontine glioma (DIPG) is an aggressive brain tumor that is located in the pons and primarily affects children. Nearly 80% of DIPGs harbor mutations in histone H3 genes, wherein lysine 27 is substituted with methionine (H3K27M). H3K27M has been shown to inhibit polycomb repressive complex 2 (PRC2), a multiprotein complex responsible for the methylation of H3 at lysine 27 (H3K27me), by binding to its catalytic subunit EZH2. Although DIPGs with the H3K27M mutation show global loss of H3K27me3, several genes retain H3K27me3. Here we describe a mouse model of DIPG in which H3K27M potentiates tumorigenesis. Using this model and primary patient-derived DIPG cell lines, we show that H3K27M-expressing tumors require PRC2 for proliferation. Furthermore, we demonstrate that small-molecule EZH2 inhibitors abolish tumor cell growth through a mechanism that is dependent on the induction of the tumor-suppressor protein p16INK4A. Genome-wide enrichment analyses show that the genes that retain H3K27me3 in H3K27M cells are strong polycomb targets. Furthermore, we find a highly significant overlap between genes that retain H3K27me3 in the DIPG mouse model and in human primary DIPGs expressing H3K27M. Taken together, these results show that residual PRC2 activity is required for the proliferation of H3K27M-expressing DIPGs, and that inhibition of EZH2 is a potential therapeutic strategy for the treatment of these tumors.

Published

2017

4. Corrigendum: The Polycomb group proteins bind throughout the INK4A-ARFlocus and are disassociated in senescent cells

Author

Bracken, Adrian P., Kleine-Kohlbrecher, Daniela, Dietrich, Nikolaj, Pasini, Diego, Gargiulo, Gaetano, Beekman, Chantal, Theilgaard-Mo¨nch, Kim, Minucci, Saverio, Porse, Bo T., Marine, Jean-Christophe, Hansen, Klaus H., and Helin, Kristian

Published

2023

5. Engineering human mini-bones for the standardized modeling of healthy hematopoiesis, leukemia, and solid tumor metastasis

Author

Grigoryan, Ani, Zacharaki, Dimitra, Balhuizen, Alexander, Côme, Christophe RM, Garcia, Alejandro Garcia, Hidalgo Gil, David, Frank, Anne-Katrine, Aaltonen, Kristina, Mañas, Adriana, Esfandyari, Javanshir, Kjellman, Pontus, Englund, Emelie, Rodriguez, Carmen, Sime, Wondossen, Massoumi, Ramin, Kalantari, Nasim, Prithiviraj, Sujeethkumar, Li, Yuan, Dupard, Steven J, Isaksson, Hanna, Madsen, Chris D, Porse, Bo T, Bexell, Daniel, and Bourgine, Paul E

Abstract

The bone marrow microenvironment provides indispensable factors to sustain blood production throughout life. It is also a hotspot for the progression of hematologic disorders and the most frequent site of solid tumor metastasis. Preclinical research relies on xenograft mouse models, but these models preclude the human-specific functional interactions of stem cells with their bone marrow microenvironment. Instead, human mesenchymal cells can be exploited for the in vivo engineering of humanized niches, which confer robust engraftment of human healthy and malignant blood samples. However, mesenchymal cells are associated with major reproducibility issues in tissue formation. Here, we report the fast and standardized generation of human mini-bones by a custom-designed human mesenchymal cell line. These resulting humanized ossicles (hOss) consist of fully mature bone and bone marrow structures hosting a human mesenchymal niche with retained stem cell properties. As compared to mouse bones, we demonstrate superior engraftment of human cord blood hematopoietic cells and primary acute myeloid leukemia samples and also validate hOss as a metastatic site for breast cancer cells. We further report the engraftment of neuroblastoma patient-derived xenograft cells in a humanized model, recapitulating clinically described osteolytic lesions. Collectively, our human mini-bones constitute a powerful preclinical platform to model bone-developing tumors using patient-derived materials.

Published

2022

6. Comparing cancer vs normal gene expression profiles identifies new disease entities and common transcriptional programs in AML patients

Author

Rapin, Nicolas, Bagger, Frederik Otzen, Jendholm, Johan, Mora-Jensen, Helena, Krogh, Anders, Kohlmann, Alexander, Thiede, Christian, Borregaard, Niels, Bullinger, Lars, Winther, Ole, Theilgaard-Mönch, Kim, and Porse, Bo T.

Abstract

Gene expression profiling has been used extensively to characterize cancer, identify novel subtypes, and improve patient stratification. However, it has largely failed to identify transcriptional programs that differ between cancer and corresponding normal cells and has not been efficient in identifying expression changes fundamental to disease etiology. Here we present a method that facilitates the comparison of any cancer sample to its nearest normal cellular counterpart, using acute myeloid leukemia (AML) as a model. We first generated a gene expression-based landscape of the normal hematopoietic hierarchy, using expression profiles from normal stem/progenitor cells, and next mapped the AML patient samples to this landscape. This allowed us to identify the closest normal counterpart of individual AML samples and determine gene expression changes between cancer and normal. We find the cancer vs normal method (CvN method) to be superior to conventional methods in stratifying AML patients with aberrant karyotype and in identifying common aberrant transcriptional programs with potential importance for AML etiology. Moreover, the CvN method uncovered a novel poor-outcome subtype of normal-karyotype AML, which allowed for the generation of a highly prognostic survival signature. Collectively, our CvN method holds great potential as a tool for the analysis of gene expression profiles of cancer patients.

Published

2014

7. Allelic methylation levels of the noncoding VTRNA2-1 located on chromosome 5q31.1 predict outcome in AML

Author

Treppendahl, Marianne Bach, Qiu, Xiangning, Søgaard, Alexandra, Yang, Xiaojing, Nandrup-Bus, Cecilie, Hother, Christoffer, Andersen, Mette Klarskov, Kjeldsen, Lars, Möllgaard, Lars, Hellström-Lindberg, Eva, Jendholm, Johan, Porse, Bo T., Jones, Peter A., Liang, Gangning, and Grønbæk, Kirsten

Abstract

Deletions of chromosome 5q are associated with poor outcomes in acute myeloid leukemia (AML) suggesting the presence of tumor suppressor(s) at the locus. However, definitive identification of putative tumor suppressor genes remains controversial. Here we show that a 106-nucleotide noncoding RNA vault RNA2-1 (vtRNA2-1), previously misannotated as miR886, could potentially play a role in the biology and prognosis of AML. vtRNA2-1 is transcribed by polymerase III and is monoallelically methylated in 75% of healthy individuals whereas the remaining 25% of the population have biallelic hypomethylation. AML patients without methylation of VTRNA2-1 have a considerably better outcome than those with monoallelic or biallelic methylation (n = 101, P = .001). We show that methylation is inversely correlated with vtRNA2-1 expression, and that 5-azanucleosides induce vtRNA2-1 and down-regulate the phosphorylated RNA-dependent protein kinase (pPKR), whose activity has been shown to be modulated by vtRNA2-1. Because pPKR promotes cell survival in AML, the data are consistent with vtRNA2-1 being a tumor suppressor in AML. This is the first study to show that vtRNA2-1 might play a significant role in AML, that it is either mono- or biallelically expressed in the blood cells of healthy individuals, and that its methylation state predicts outcome in AML.

Published

2012

8. Allelic methylation levels of the noncoding VTRNA2-1located on chromosome 5q31.1 predict outcome in AML

Author

Treppendahl, Marianne Bach, Qiu, Xiangning, Søgaard, Alexandra, Yang, Xiaojing, Nandrup-Bus, Cecilie, Hother, Christoffer, Andersen, Mette Klarskov, Kjeldsen, Lars, Möllgaard, Lars, Hellström-Lindberg, Eva, Jendholm, Johan, Porse, Bo T., Jones, Peter A., Liang, Gangning, and Grønbæk, Kirsten

Abstract

Deletions of chromosome 5q are associated with poor outcomes in acute myeloid leukemia (AML) suggesting the presence of tumor suppressor(s) at the locus. However, definitive identification of putative tumor suppressor genes remains controversial. Here we show that a 106-nucleotide noncoding RNA vault RNA2-1 (vtRNA2-1), previously misannotated as miR886, could potentially play a role in the biology and prognosis of AML. vtRNA2-1 is transcribed by polymerase III and is monoallelically methylated in 75% of healthy individuals whereas the remaining 25% of the population have biallelic hypomethylation. AML patients without methylation of VTRNA2-1have a considerably better outcome than those with monoallelic or biallelic methylation (n = 101, P= .001). We show that methylation is inversely correlated with vtRNA2-1 expression, and that 5-azanucleosides induce vtRNA2-1 and down-regulate the phosphorylated RNA-dependent protein kinase (pPKR), whose activity has been shown to be modulated by vtRNA2-1. Because pPKR promotes cell survival in AML, the data are consistent with vtRNA2-1 being a tumor suppressor in AML. This is the first study to show that vtRNA2-1 might play a significant role in AML, that it is either mono- or biallelically expressed in the blood cells of healthy individuals, and that its methylation state predicts outcome in AML.

Published

2012

9. Real-Time Search Assisted Acquisition on a Tribrid Mass Spectrometer Improves Coverage in Multiplexed Single-Cell Proteomics

Author

Furtwängler, Benjamin, Üresin, Nil, Motamedchaboki, Khatereh, Huguet, Romain, Lopez-Ferrer, Daniel, Zabrouskov, Vlad, Porse, Bo T., and Schoof, Erwin M.

Abstract

In the young field of single-cell proteomics (scMS), there is a great need for improved global proteome characterization, both in terms of proteins quantified per cell and quantitative performance thereof. The recently introduced real-time search (RTS) on the Orbitrap Eclipse Tribrid mass spectrometer in combination with SPS-MS3 acquisition has been shown to be beneficial for the measurement of samples that are multiplexed using isobaric tags. Multiplexed single-cell proteomics requires high ion injection times and high-resolution spectra to quantify the single-cell signal, however the carrier channel facilitates peptide identification and thus offers the opportunity for fast on-the-fly precursor filtering before committing to the time intensive quantification scan. Here, we compared classical MS2 acquisition against RTS-SPS-MS3, both using the Orbitrap Eclipse Tribrid MS with the FAIMS Pro ion mobility interface and present a new acquisition strategy termed RETICLE (RTS Enhanced Quantof Single CellSpectra) that makes use of fast real-time searched linear ion trap scans to preselect MS1 peptide precursors for quantitative MS2 Orbitrap acquisition. We show that classical MS2 acquisition is outperformed by both RTS-SPS-MS3 through increased quantitative accuracy at similar proteome coverage, and RETICLE through higher proteome coverage, with the latter enabling the quantification of over 1000 proteins per cell at a MS2 injection time of 750ms using a 2h gradient.

Published

2022

10. Mutation of C/EBPα predisposes to the development of myeloid leukemia in a retroviral insertional mutagenesis screen

Author

Hasemann, Marie S., Damgaard, Inge, Schuster, Mikkel B., Theilgaard-Mönch, Kim, Sørensen, Annette B., Mršić, Alan, Krugers, Thijs, Ylstra, Bauke, Pedersen, Finn S., Nerlov, Claus, and Porse, Bo T.

Abstract

The CCAAT enhancer binding protein α (C/EBPα) is an important myeloid tumor suppressor that is frequently mutated in human acute myeloid leukemia (AML). We have previously shown that mice homozygous for the E2F repression–deficient CebpaBRM2 allele develop nonfatal AML with long latency and incomplete penetrance, suggesting that accumulation of secondary mutations is necessary for disease progression. Here, we use SRS19-6–driven retroviral insertional mutagenesis to compare the phenotypes of leukemias arising in Cebpa+/+, Cebpa+/BRM2, and CebpaBRM2/BRM2 mice, with respect to disease type, latency of tumor development, and identity of the retroviral insertion sites (RISs). Both Cebpa+/BRM2 and CebpaBRM2/BRM2 mice preferentially develop myeloid leukemias, but with differing latencies, thereby demonstrating the importance of gene dosage. Determination of RISs led to the identification of several novel candidate oncogenes, some of which may collaborate specifically with the E2F repression–deficient allele of Cebpa. Finally, we used an in silico pathway analysis approach to extract additional information from single RISs, leading to the identification of signaling pathways which were preferentially deregulated in a disease- and/or genotype-specific manner.

Published

2008

11. Mutation of C/EBPα predisposes to the development of myeloid leukemia in a retroviral insertional mutagenesis screen

Author

Hasemann, Marie S., Damgaard, Inge, Schuster, Mikkel B., Theilgaard-Mönch, Kim, Sørensen, Annette B., Mršić, Alan, Krugers, Thijs, Ylstra, Bauke, Pedersen, Finn S., Nerlov, Claus, and Porse, Bo T.

Abstract

The CCAAT enhancer binding protein α (C/EBPα) is an important myeloid tumor suppressor that is frequently mutated in human acute myeloid leukemia (AML). We have previously shown that mice homozygous for the E2F repression–deficient CebpaBRM2allele develop nonfatal AML with long latency and incomplete penetrance, suggesting that accumulation of secondary mutations is necessary for disease progression. Here, we use SRS19-6–driven retroviral insertional mutagenesis to compare the phenotypes of leukemias arising in Cebpa+/+, Cebpa+/BRM2, and CebpaBRM2/BRM2mice, with respect to disease type, latency of tumor development, and identity of the retroviral insertion sites (RISs). Both Cebpa+/BRM2and CebpaBRM2/BRM2mice preferentially develop myeloid leukemias, but with differing latencies, thereby demonstrating the importance of gene dosage. Determination of RISs led to the identification of several novel candidate oncogenes, some of which may collaborate specifically with the E2F repression–deficient allele of Cebpa. Finally, we used an in silico pathway analysis approach to extract additional information from single RISs, leading to the identification of signaling pathways which were preferentially deregulated in a disease- and/or genotype-specific manner.

Published

2008

12. Haptoglobin is synthesized during granulocyte differentiation, stored in specific granules, and released by neutrophils in response to activation

Author

Theilgaard-Mönch, Kim, Jacobsen, Lars C., Nielsen, Marianne J., Rasmussen, Thomas, Udby, Lene, Gharib, Maged, Arkwright, Peter D., Gombart, Adrian F., Calafat, Jero, Moestrup, Søren K., Porse, Bo T., and Borregaard, Niels

Abstract

Haptoglobin (Hp) is a plasma protein synthesized primarily by hepatocytes. It exerts a broad range of anti-inflammatory activities and acts indirectly as a bacteriostatic agent and an antioxidant by virtue of its ability to bind free hemoglobin (Hb) and to facilitate its immediate clearance by macrophages. We identified Hp as a novel specific granule protein of neutrophils by means of immunoelectron microscopy, subcellular fractionation, and exocytosis studies. Consistent with these findings, blood cells from a patient with specific granule deficiency (SGD) lacked neutrophil-derived Hp. Neutrophils contained a large amount of highly glycosylated Hp (β-chain 45-65 kDa) synthesized in neutrophil precursors and stored in specific granules and a small amount of Hp (β-chain 39 kDa) endocytosed from plasma and stored in secretory vesicles. Subsequent binding studies revealed that Hp from specific granules binds to Hb. Finally, the CCAAT enhancer binding protein-epsilon (C/EBPϵ) induced Hp transcription in a myeloid cell line, suggesting that Hp expression in myeloid cells, as in hepatocytes, is at least partially regulated by members of the C/EBP transcription factor family. Collectively, these findings demonstrate that Hp is stored in specific granules and is released by neutrophils in response to activation. Hence, neutrophil-derived Hp might reduce tissue damage and bacterial growth at sites of infection or injury by propagating anti-inflammatory activities and Hb clearance. (Blood. 2006;108:353-361)

Published

2006

13. Haptoglobin is synthesized during granulocyte differentiation, stored in specific granules, and released by neutrophils in response to activation

Author

Theilgaard-Mönch, Kim, Jacobsen, Lars C., Nielsen, Marianne J., Rasmussen, Thomas, Udby, Lene, Gharib, Maged, Arkwright, Peter D., Gombart, Adrian F., Calafat, Jero, Moestrup, Søren K., Porse, Bo T., and Borregaard, Niels

Abstract

Haptoglobin (Hp) is a plasma protein synthesized primarily by hepatocytes. It exerts a broad range of anti-inflammatory activities and acts indirectly as a bacteriostatic agent and an antioxidant by virtue of its ability to bind free hemoglobin (Hb) and to facilitate its immediate clearance by macrophages. We identified Hp as a novel specific granule protein of neutrophils by means of immunoelectron microscopy, subcellular fractionation, and exocytosis studies. Consistent with these findings, blood cells from a patient with specific granule deficiency (SGD) lacked neutrophil-derived Hp. Neutrophils contained a large amount of highly glycosylated Hp (β-chain 45-65 kDa) synthesized in neutrophil precursors and stored in specific granules and a small amount of Hp (β-chain 39 kDa) endocytosed from plasma and stored in secretory vesicles. Subsequent binding studies revealed that Hp from specific granules binds to Hb. Finally, the CCAAT enhancer binding protein-epsilon (C/EBPϵ) induced Hp transcription in a myeloid cell line, suggesting that Hp expression in myeloid cells, as in hepatocytes, is at least partially regulated by members of the C/EBP transcription factor family. Collectively, these findings demonstrate that Hp is stored in specific granules and is released by neutrophils in response to activation. Hence, neutrophil-derived Hp might reduce tissue damage and bacterial growth at sites of infection or injury by propagating anti-inflammatory activities and Hb clearance. (Blood. 2006;108:353-361)

Published

2006

14. Highly glycosylated α1‐acid glycoprotein is synthesized in myelocytes, stored in secondary granules, and released by activated neutrophils

Author

Theilgaard‐Mönch, Kim, Jacobsen, Lars C., Rasmussen, Thomas, Niemann, Carsten U., Udby, Lene, Borup, Rehannah, Gharib, Maged, Arkwright, Peter D., Gombart, Adrian F., Calafat, Jero, Porse, Bo T., and Borregaard, Niels

Abstract

α‐1‐Acid glycoprotein (AGP) is an acute‐phase protein produced by hepatocytes and secreted into plasma in response to infection/injury. We recently assessed the transcriptional program of terminal granulocytic differentiation by microarray analysis of bone marrow (BM) populations highly enriched in promyelocytes, myelocytes/metamyelocytes (MYs), and BM neutrophils. These analyses demonstrated a transient, high mRNA expression of genuine secondary/tertiary granule proteins and AGP in MYs. In agreement with this, immunocytochemistry revealed the presence of AGP protein and the secondary granule protein lactoferrin in cells from the MY stage and throughout granulocytic differentiation. Immunoelectron microscopy demonstrated the colocalization of AGP and lactoferrin in secondary granules of neutrophils. This finding was substantiated by the failure to detect AGP and lactoferrin in blood cells from a patient with secondary/tertiary (specific) granule deficiency. In addition, Western blot analysis of subcellular fractions isolated from neutrophils revealed that neutrophil‐derived AGP, localized in secondary granules, was abundant and highly glycosylated compared with endocytosed, plasma‐derived AGP localized in secretory vesicles. Exocytosis studies further demonstrated a marked release of AGP and lactoferrin by activated neutrophils. Finally, induction of CCAAT/enhancer‐binding protein (C/EBP)‐ɛ in a myeloid cell line was shown to increase AGP transcript levels, indicating that AGP expression in myeloid cells, like in hepatocytes, is partially regulated by members of the C/EBP family. Overall, these findings define AGP as a genuine secondary granule protein of neutrophils. Hence, neutrophils, which constitute the first line of defense, are likely to serve as the primary local source of AGP at sites of infection or injury.

Published

2005

15. Sites of interaction of streptogramin A and B antibiotics in the peptidyl transferase loop of 23 S rRNA and the synergism of their inhibitory mechanisms11Edited by D. E. Draper

Author

Porse, Bo T and Garrett, Roger A

Abstract

Streptogramin antibiotics contain two active A and B components that inhibit peptide elongation synergistically. Mutants resistant to the A component (virginiamycin M1and pristinamycin IIA) were selected for the archaeon Halobacterium halobium. The mutations mapped to the universally conserved nucleotides A2059 and A2503 within the peptidyl transferase loop of 23 S rRNA (Escherichia colinumbering). When bound to wild-type and mutant haloarchaeal ribosomes, the A and B components (pristinamycins IIA and IA, respectively) produced partially overlapping rRNA footprints, involving six to eight nucleotides in the peptidyl transferase loop of 23 S rRNA, including the two mutated nucleotides. An rRNA footprinting study, performed both in vivoand in vitro, on the A and B components complexed to Bacillus megateriumribosomes, indicated that similar drug-induced effects occur on free ribosomes and within the bacterial cells. It is inferred that position 2058 and the sites of mutation, A2059 and A2503, are involved in the synergistic inhibition by the two antibiotics. A structural model is presented which links A2059 and A2503 and provides a structural rationale for the rRNA footprints.

Published

1999

16. The antibiotic micrococcin acts on protein L11 at the ribosomal GTPase centre11Edited by D. E. Draper

Author

Porse, Bo T, Cundliffe, Eric, and Garrett, Roger A

Abstract

Micrococcin-resistant mutants of Bacillus megateriumthat carry mutations affecting ribosomal protein L11 have been characterised. The mutants fall into two groups. “L11-minus” strains containing an L11 gene with deletions, insertions or nonsense mutations which grow 2.5-fold slower than the wild-type strain, whereas other mutants carrying single-site substitutions within an 11 amino acid residue segment of the N-terminal domain of L11 grow normally. Protein L11 binds to 23 S rRNA within the ribosomal GTPase centre which regulates GTP hydrolysis on ribosomal factors. Micrococcin binding within the rRNA component of this centre was probed on wild-type and mutant ribosomes, in vivo, using dimethyl sulphate where it generated an rRNA footprint indistinguishable from that produced in vitro, even after the cell growth had been arrested by treatment with either kirromycin or fusidic acid. No drug-rRNA binding was detected in vivofor the L11-minus mutants, while reduced binding (∼30-fold) was observed for two single-site mutants P23L and P26L. For the latter, the reduced drug affinity alone did not account for the resistance-phenotype because rapid cell growth occurred even at drug concentrations that would saturate the ribosomes. Micrococcin was also bound to complexes containing an rRNA fragment and wild-type or mutant L11, expressed as fusion proteins, and they were probed with proteinases. The drug produced strong protection effects on the wild-type protein and weak effects on the P23L and P26L mutant proteins. We infer that inhibition of cell growth by micrococcin, as for thiostrepton, results from the imposition of a conformational constraint on protein L11 which, in turn, perturbs the function(s) of the ribosomal factor-guanosine nucleotide complexes.

Published

1999

17. Movement of the 3′‐end of tRNA through the peptidyl transferase centre and its inhibition by antibiotics

Author

Kirillov, Stanislav, Porse, Bo T., Vester, Birte, Woolley, Paul, and Garrett, Roger A.

Abstract

Determining how antibiotics inhibit ribosomal activity requires a detailed understanding of the interactions and relative movement of tRNA, mRNA and the ribosome. Recent models for the formation of hybrid tRNA binding sites during the elongation cycle have provided a basis for re‐evaluating earlier experimental data and, especially, those relevant to substrate movements through the peptidyl transferase centre. With the exception of deacylated tRNA, which binds at the E‐site, ribosomal interactions of the 3′‐ends of the tRNA substrates generate only a small part of the total free energy of tRNA‐ribosome binding. Nevertheless, these relatively weak interactions determine the unidirectional movement of tRNAs through the ribosome and, moreover, they appear to be particularly susceptible to perturbation by antibiotics. Here we summarise current ideas relating particularly to the movement of the 3′‐ends of tRNA through the ribosome and consider possible inhibitory mechanisms of the peptidyl transferase antibiotics.

Published

1997

18. Mapping Important Nucleotides in the Peptidyl Transferase Centre of 23 S rRNA using a Random Mutagenesis Approach

Author

Porse, Bo T. and Garrett, Roger A.

Abstract

Random mutations were generated in the lower half of the peptidyl transferase loop in domain V of 23 S rRNA fromEscherichia coliusing a polymerase chain reaction (PCR) approach, a rapid procedure for identifying mutants and a plasmid-based expression system. The effects of 21 single-site mutations, at 18 different positions, on cell growth, mutant rRNA incorporation into ribosomes and peptidyl transferase activity of the mutant ribosomes were analysed. The general importance of the whole region for the peptidyl transferase centre was emphasized by the finding that 14 of the mutants were sick, or very sick, when ribosomes containing chromosomal-encoded 23 S rRNA were inhibited by erythromycin, and all except one of these exhibited low levels of peptidyl transferase activity in their mutated ribosomes. Two mutations, Ψ2580→C and U2584→G that both yielded inactive ribosomes were assigned to the donor substrate binding site and a possible base-pairing interaction between the 3'-terminal sequence of the peptidyl-tRNA and the sequence Ψ/U-G-C₂₅₈₂, that is conserved in all the non-mitochondrial 23 S-like rRNA sequences, is proposed. Three sites that have been implicated in aminoacyl-tRNA binding were mutated: mutant m⁶A2503G yielded inactive ribosomes, while ribosomes from mutants Um2552A/C and U2555C yielded low and normal activities, respectively. Three mutants, U2528C, G2550A and A2565U, provide evidence for conformational rearrangements occurring in the peptidyl transferase centre which may be affected by the subunit-subunit interaction. Other mutants which yielded ribosomes that were seriously defective in peptidyl transferase activity were U2493A, U2493C, A2497G, A2530G, G2557A and A2589G.

Published

1995

19. The Donor Substrate Site within the Peptidyl Transferase Loop of 23 S rRNA and its Putative Interactions with the CCA-end of N-blocked Aminoacyl-tRNA<SUP>Phe</SUP>

Author

Porse, Bo T., Thi-Ngoc, Hoa Phan, and Garrett, Roger A.

Abstract

An RNA region associated with the donor substrate site, located at the base of the peptidyl transferase loop of 23 S rRNA, was subjected to a comprehensive single-site mutational study. Growth phenotypes ofEscherichia colicells were characterized on induction of synthesis of the mutated rRNAs and the mutated ribosomes were tested, selectively, for their capacity to generate peptide bonds under the conditions of the “fragment” assay. Most of the mutants exhibited dominant or recessive lethal growth phenotypes and, in general, defective growth correlated with low activities in peptide bond formation, although exceptions were observed with normal growth and low activities, andvice versa. All these phenotypes are consistent with defects occurring in the structure of the ribosomal donor site and/or the capacity of the donor substrate to enter or leave this site. A compensating base change approach was employed to test for Watson-Crick base-pairing interactions between the -CCA end of the P-site bound tRNA^Pheand this region of the peptidyl-transferase loop. Single nucleotide substitutions were introduced into the -CCA end of tRNA^Pheand the ability of the 3'-terminal pentanucleotide fragments to act as donor substrates was examined for ribosomes carrying the different mutated 23 S rRNAs. No evidence was found for the occurrence of Watson-Crick base-pairing interactions. However, the data are consistent with the formation of a Hoogsteen pair between the 3'-terminal adenosine base of the donor substrate and U2585 of the 23 S rRNA.

Published

1996

20. The antibiotic thiostrepton inhibits a functional transition within protein L11 at the ribosomal GTPase centre11Edited by D. E. Draper

Author

Porse, Bo T, Leviev, Ilia, Mankin, Alexander S, and Garrett, Roger A

Abstract

A newly identified class of highly thiostrepton-resistant mutants of the archaeon Halobacterium halobiumcarry a missense mutation at codon 18 within the gene encoding ribosomal protein L11. In the mutant proteins, a proline, conserved in archaea and bacteria, is converted to either serine or threonine. The mutations do not impair either the assembly of the mutant L11 into 70 S ribosomes in vivoor the binding of thiostrepton to ribosomes in vitro. Moreover, the corresponding mutations at proline 22, in a fusion protein of L11 from Escherichia coliwith glutathione-S-transferase, did not reduce the binding affinities of the mutated L11 fusion proteins for rRNA or of thiostrepton for the mutant L11-rRNA complexes at rRNA concentrations lower than those prevailing in vivo. Probing the structure of the fusion protein of wild-type L11, from E. coli, using a recently developed protein footprinting technique, demonstrated that a general tightening of the C-terminal domain occurred on rRNA binding, while thiostrepton produced a footprint centred on tyrosine 62 at the junction of the N and C-terminal domains of protein L11 complexed to rRNA. The intensity of this protein footprint was strongly reduced for the mutant L11-rRNA complexes. These results indicate that although, as shown earlier, thiostrepton binds primarily to 23 S rRNA, the drug probably inhibits peptide elongation by impeding a conformational change within protein L11 that is important for the function of the ribosomal GTPase centre. This putative inhibitory mechanism of thiostrepton is critically dependent on proline 18/22. Moreover, the absence of this proline from eukaryotic protein L11 sequences would account for the high thiostrepton resistance of eukaryotic ribosomes.

Published

1998

21. Assembly of proteins and 5 S rRNA to transcripts of the major structural domains of 23 S rRNA11Edited by D. E. Draper

Author

Østergaard, Peter, Phan, Hien, Johansen, Lise B, Egebjerg, Jan, Østergaard, Laust, Porse, Bo T, and Garrett, Roger A

Abstract

The six major structural domains of 23 S rRNA from Escherichia coli, and all combinations thereof, were synthesized as separate T7 transcripts and reconstituted with total 50 S subunit proteins. Analysis by one and two-dimensional gel electrophoresis demonstrated the presence of at least one primary binding protein associated with each RNA domain and additional proteins assembled to domains I, II, V and VI. For all the combinations of two to five domains, enhanced assembly yields and/or new proteins were observed primarily to those transcripts containing either domains I+II or domains V+VI. This indicates that there are two major protein assembly centres located at the ends of the 23 S rRNA, which is consistent with an earlier view that in vitroprotein assembly nucleates around proteins L24 and L3. Although similar protein assembly patterns were observed over a range of temperature and magnesium concentrations, protein L2 assembled strongly with domains II and IV at 4-8 mM Mg2+(the first step of the two-step reconstitution procedure) and with domain IV alone at higher Mg2+concentrations (the second step). It is proposed that this change in protein-RNA binding provides a basis for the two-step reconstitution in vitro. A chemical footprinting approach was employed on the reconstituted protein-domain complexes to localize a putative L4 binding region within domain I to a region that is partially co-structural with the site on the L4-mRNA where L4 binds and inhibits its own translation. A similar approach was used to map the putative binding regions on domain V of protein L9 and the 5 S RNA-L5-L18 complex.

Published

1998

22. ERG Controls B Cell Development by Promoting IghV-to-DJ Recombination

Author

Søndergaard, Elisabeth, Rauch, Alexander, Michaut, Magali, Rapin, Nicolas, Rehn, Matilda, Wilhelmson, Anna S., Camponeschi, Alessandro, Hasemann, Marie S., Bagger, Frederik O., Jendholm, Johan, Knudsen, Kasper J., Mandrup, Susanne, Mårtensson, Inga-Lill, and Porse, Bo T.

Abstract

B cell development depends on the coordinated expression and cooperation of several transcription factors. Here we show that the transcription factor ETS-related gene (ERG) is crucial for normal B cell development and that its deletion results in a substantial loss of bone marrow B cell progenitors and peripheral B cells, as well as a skewing of splenic B cell populations. We find that ERG-deficient B lineage cells exhibit an early developmental block at the pre-B cell stage and proliferate less. The cells fail to express the immunoglobulin heavy chain due to inefficient V-to-DJ recombination, and cells that undergo recombination display a strong bias against incorporation of distal V gene segments. Furthermore, antisense transcription at PAX5-activated intergenic repeat (PAIR) elements, located in the distal region of the Ighlocus, depends on ERG. These findings show that ERG serves as a critical regulator of B cell development by ensuring efficient and balanced V-to-DJ recombination.

Published

2019

23. Bloodspot: A Web Resource Facilitating the Analysis of Transcriptional Programs in Normal and Malignant Hematopoiesis

Author

Bagger, Frederik Otzen, Sasivarevic, Damir, Sohi, Sina Hadi, Laursen, Linea Gøricke, Pundhir, Sachin, Winther, Ole, Rapin, Nicolas, and Porse, Bo T

Abstract

No relevant conflicts of interest to declare.

Published

2015

24. Bloodspot: A Web Resource Facilitating the Analysis of Transcriptional Programs in Normal and Malignant Hematopoiesis

Author

Bagger, Frederik Otzen, Sasivarevic, Damir, Sohi, Sina Hadi, Laursen, Linea Gøricke, Pundhir, Sachin, Winther, Ole, Rapin, Nicolas, and Porse, Bo T

Abstract

Decades of studies on developing cells in human and murine haematopoiesis have resulted in a large number of gene-expression datasets that may answer questions regarding normal and aberrant blood formation. To researchers and clinicians with limited bioinformatics experience, these data remain available, yet largely inaccessible. Current resources provide information about gene-expression patterns but disregard key aspects such as genetic co-regulation of genes, and the effects on patient survival.

Published

2015

25. Arrested Differentiation in Acute Myeloid Leukemia (AML) with Silenced Ankyrin Repeat and SOCS Box Protein 3 (ASB3) Expression

Author

Logan, Gemma, Rapin, Nicolas, Porse, Bo T., Percy, Melanie J, and Mills, Ken I

Abstract

No relevant conflicts of interest to declare.

Published

2012

26. Arrested Differentiation in Acute Myeloid Leukemia (AML) with Silenced Ankyrin Repeat and SOCS Box Protein 3 (ASB3) Expression

Author

Logan, Gemma, Rapin, Nicolas, Porse, Bo T., Percy, Melanie J, and Mills, Ken I

Abstract

Abstract 1232

Published

2012

27. Allelic Methylation Levels of the Non-Coding RNA Gene VTRNA2-1 Located on Chromosome 5q31.1 Predict Outcome in AML,

Author

Treppendahl, Marianne B., Qiu, Xiangning, Søgaard, Alexandra, Nandrup-Bus, Cecilie, Hother, Christoffer, Andersen, Mette Klarskov, Kjeldsen, Lars, Möllgård, Lars, Hellstrom-Lindberg, Eva, Jendholm, Johan, Porse, Bo T., Jones, Peter A., Liang, Gangning, and Grønbæk, Kirsten

Abstract

Deletions of chromosome 5q are associated with poor outcomes in acute myeloid leukemia (AML), suggesting the presence of tumor suppressor(s) at the locus. Two different critical deleted regions (CDRs) have been identified on 5q. One region is linked to de novo AML and high-risk MDS (CDR1 at 5q31), and a second region to the low-risk MDS 5q- syndrome (CDR2 at 5q32–33). However, definitive identification of putative tumor suppressor genes remains controversial. Since it has recently been shown that several types of hematological malignancies have globally altered expression of non-coding RNAs (ncRNAs), we therefore searched for candidate ncRNA genes in the CDR1 region.Cell lines were treated with either 5-azacytidine or 5-aza-2`-deoxycytidine. Upregulated microRNAs (miRs) were identified by microarray analysis and confirmed by RT-qPCR analysis. The transcription start site was determined by 5`RACE and promoter methylation status by methylation specific melting curves, pyrosequencing and bisulfite sequencing. ncRNA expression and processing were analysed by RT-qPCR, Northern blotting, and siRNA mediated knock down of Drosha.We identified the putative miR886, which became induced by azanucleoside treatment in an AML cell line, suggesting that it was regulated by promoter methylation. We found that the processing of miR886 was independent of Drosha, and northern blotting showed that this was a different type of longer ncRNA, annotated vtRNA2-1. These observations were supported by the results from three others groups (Nandy, J Mol Biol 2009; Stadler, Mol Biol Evol 2009; Lee, RNA 2011). The gene that encodes VTRNA2-1 is embedded in a CpG island. The CpG island is fully methylated in 4 different myeloid cell lines (HL60, NB4, U937 and F36P) and these cell lines have no expression of vtRNA2-1. Treatment with 5-azacytidine and 5-aza-2`-deoxycytidine derepressed expression of vtRNA2-1 in the cell lines. vtRNA2-1 is expressed in hematopoietic tissue (including CD34+ cells) from healthy individuals. Surprisingly, 75% of these carry a monoallelicly methylated VTRNA2-1 promoter while 25% carry an unmethylated VTRNA2-1 promoter.The methylation status of VTRNA2-1 was examined in bone marrow mononuclear cells from 101 AML patients taken at the time of diagnosis. 38 (38%) of these patients carried a hypomethylated promoter, 53 (52%) an intermediate methylated promoter and 10 (10%) a hypermethylated promoter. AML patients with hypomethylation of VTRNA2-1 have a significant better prognosis than patients with intermediate- or hypermethylation of the promotor (p=0.001). VTRNA2-1 methylation was independently associated with a poor survival in Cox proportional-hazards analysis (p=0.043), when testing against age, cytogenetic risk classification and leukocyte count at diagnosis.It has previously been shown that vtRNA2-1 may be involved in the regulation of the double stranded RNA dependent kinase, PKR. Down regulation of vtRNA2-1 leads to activation of PKR and its downstream targets including NFkB (Lee, RNA 2011). Furthermore, PKR has previously been shown to alter response to chemotherapeutic agents by promoting cell survival (Pataer, Cancer Biol Ther 2009). Since constitutive PKR and NFkB activity are well documented features in AML, we speculate whether this may at least in part be mediated via loss of vtRNA2-1 expression.Here, we show that VTRNA2-1 may be directly implicated in AML, that expression of vtRNA2-1 is regulated by promoter methylation. Interestingly, we found that the majority of the healthy Danish population (∼75%) carry a monoallelically silenced VTRNA2-1 in normal hematopoietic cells. Our data suggest that the gene dosage of this particular type of ncRNA may play an important role in tumor progression or response to therapy since patients with hypomethylation of both alleles of the VTRNA2-1 promoter have a significantly better prognosis, while those that gain hypermethylation of the second VTRNA2-1 copy have a poorer outcome. Our data, combined with the previous findings, suggest that VTRNA2-1 is a novel tumor suppressor, located on chromosome 5q31.1, which probably acts through PKR.Jones: Eli Lilly: Consultancy.

Published

2011

28. Allelic Methylation Levels of the Non-Coding RNA Gene VTRNA2-1Located on Chromosome 5q31.1 Predict Outcome in AML,

Author

Treppendahl, Marianne B., Qiu, Xiangning, Søgaard, Alexandra, Nandrup-Bus, Cecilie, Hother, Christoffer, Andersen, Mette Klarskov, Kjeldsen, Lars, Möllgård, Lars, Hellstrom-Lindberg, Eva, Jendholm, Johan, Porse, Bo T., Jones, Peter A., Liang, Gangning, and Grønbæk, Kirsten

Abstract

Abstract 3450

Published

2011