Your search keyword '"Einari A. Niskanen"' showing total 32 results

1. Secreted factors from M1 macrophages drive prostate cancer stem cell plasticity by upregulating NANOG, SOX2, and CD44 through NFκB-signaling

Author

Kirsi Kainulainen, Einari A. Niskanen, Johanna Kinnunen, Kaisa Mäki-Mantila, Kiia Hartikainen, Ville Paakinaho, Marjo Malinen, Kirsi Ketola, and Sanna Pasonen-Seppänen

Subjects

Cancer cell plasticity, prostate cancer, tumor-associated macrophages, Immunologic diseases. Allergy, RC581-607, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The inflammatory tumor microenvironment (TME) is a key driver for tumor-promoting processes. Tumor-associated macrophages are one of the main immune cell types in the TME and their increased density is related to poor prognosis in prostate cancer. Here, we investigated the influence of pro-inflammatory (M1) and immunosuppressive (M2) macrophages on prostate cancer lineage plasticity. Our findings reveal that M1 macrophage secreted factors upregulate genes related to stemness while downregulating genes associated with androgen response in prostate cancer cells. The expression of cancer stem cell (CSC) plasticity markers NANOG, KLF4, SOX2, OCT4, and CD44 was stimulated by the secreted factors from M1 macrophages. Moreover, AR and its target gene PSA were observed to be suppressed in LNCaP cells treated with secreted factors from M1 macrophages. Inhibition of NFκB signaling using the IKK16 inhibitor resulted in downregulation of NANOG, SOX2, and CD44 and CSC plasticity. Our study highlights that the secreted factors from M1 macrophages drive prostate cancer cell plasticity by upregulating the expression of CSC plasticity markers through NFκB signaling pathway.

Published

2024

2. Complementary analysis of proteome‐wide proteomics reveals changes in RNA binding protein‐profiles during prostate cancer progression

Author

Erika Aikio, Sonja Koivukoski, Elina Kallio, Nithin Sadeesh, Einari A. Niskanen, and Leena Latonen

Subjects

castration resistance, metastasis, prostate cancer, RNA binding proteins, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Accumulating evidence indicates importance of RNA regulation in cancer. This includes events such as splicing, translation, and regulation of noncoding RNAs, functions which are governed by RNA binding proteins (RBPs). Aims To find which RBPs could be relevant for prostate cancer, we performed systematic screening of RBP expression in clinical prostate cancer. Methods and Results We interrogated four proteome‐wide proteomics datasets including tumor samples of primary, castration resistant, and metastatic prostate cancer. We found that, while the majority of RBPs are expressed but not significantly altered during prostate cancer development and progression, expression of several RBPs increases in advanced disease. Interestingly, most of the differentially expressed RBPs are not targets of differential posttranscriptional phosphorylation during disease progression. The RBPs undergoing expression changes have functions in, especially, poly(A)‐RNA binding, nucleocytoplasmic transport, and cellular stress responses, suggesting that these may play a role in formation of castration resistance. Pathway analyzes indicate that increased ribosome production and chromatin‐related functions of RBPs are also linked to castration resistant and metastatic prostate cancers. We selected a group of differentially expressed RBPs and studied their role in cultured prostate cancer cells. With siRNA screens, several of these were indicated in survival (DDX6, EIF4A3, PABPN1), growth (e.g., EIF5A, HNRNPH2, LRRC47, and NVL), and migration (e.g., NOL3 and SLTM) of prostate cancer cells. Our analyzes further show that RRP9, a U3 small nucleolar protein essential for ribosome formation, undergoes changes at protein level during metastasis in prostate cancer. Conclusion In this work, we recognized significant molecular alterations in RBP profiles during development and evolution of prostate cancer. Our study further indicates several functionally significant RBPs warranting further investigation for their functions and possible targetability in prostate cancer.

Published

2023

3. Lack of androgen receptor SUMOylation results in male infertility due to epididymal dysfunction

Author

Fu-Ping Zhang, Marjo Malinen, Arfa Mehmood, Tiina Lehtiniemi, Tiina Jääskeläinen, Einari A. Niskanen, Hanna Korhonen, Asta Laiho, Laura L. Elo, Claes Ohlsson, Noora Kotaja, Matti Poutanen, Petra Sipilä, and Jorma J. Palvimo

Subjects

Science

Abstract

SUMOylation is known to regulate androgen receptor (AR) activity in cultured cells. Here, using SUMOylation-deficient AR knock-in mice, the authors demonstrate that SUMOylation is required for AR-related gene expression specifically in the epididymal tissues, but not the testis.

Published

2019

4. International Online Team-based Learning in Higher Education of Biomedicine: Evaluation by Learning Analytics.

Author

Laura Mairinoja, Sonsoles López-Pernas, Ramy Elmoazen, Einari A Niskanen, Tiina Kuningas, Anni Wärri, Mohammed Saqr, and Leena Strauss

Published

2023

5. Parvovirus nonstructural protein 2 interacts with chromatin-regulating cellular proteins.

Author

Salla Mattola, Kari Salokas, Vesa Aho, Elina Mäntylä, Sami Salminen, Satu Hakanen, Einari A Niskanen, Julija Svirskaite, Teemu O Ihalainen, Kari J Airenne, Minna Kaikkonen-Määttä, Colin R Parrish, Markku Varjosalo, and Maija Vihinen-Ranta

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Autonomous parvoviruses encode at least two nonstructural proteins, NS1 and NS2. While NS1 is linked to important nuclear processes required for viral replication, much less is known about the role of NS2. Specifically, the function of canine parvovirus (CPV) NS2 has remained undefined. Here we have used proximity-dependent biotin identification (BioID) to screen for nuclear proteins that associate with CPV NS2. Many of these associations were seen both in noninfected and infected cells, however, the major type of interacting proteins shifted from nuclear envelope proteins to chromatin-associated proteins in infected cells. BioID interactions revealed a potential role for NS2 in DNA remodeling and damage response. Studies of mutant viral genomes with truncated forms of the NS2 protein suggested a change in host chromatin accessibility. Moreover, further studies with NS2 mutants indicated that NS2 performs functions that affect the quantity and distribution of proteins linked to DNA damage response. Notably, mutation in the splice donor site of the NS2 led to a preferred formation of small viral replication center foci instead of the large coalescent centers seen in wild-type infection. Collectively, our results provide insights into potential roles of CPV NS2 in controlling chromatin remodeling and DNA damage response during parvoviral replication.

Published

2022

6. Chromatin Accessibility and Pioneer Factor FOXA1 Shape Glucocorticoid Receptor Action in Prostate Cancer

Author

Laura Helminen, Jasmin Huttunen, Niina Aaltonen, Einari A. Niskanen, Jorma J. Palvimo, and Ville Paakinaho

Abstract

Treatment of prostate cancer relies predominantly on the inhibition of androgen receptor (AR) signaling. Despite the initial effectiveness of the antiandrogen therapies, the cancer often develops resistance to the AR blockade. One mechanism of the resistance is glucocorticoid receptor (GR)-mediated replacement of AR function. Nevertheless, the mechanistic ways and means how the GR-mediated antiandrogen resistance occurs have remained elusive. Here, we have discovered several crucial features of GR action in prostate cancer cells through genome-wide techniques. We detected that the replacement of AR by GR in enzalutamide-exposed prostate cancer cells occurs almost exclusively at pre-accessible chromatin sites displaying FOXA1 occupancy. Counterintuitively to the classical pioneer factor model, silencing of FOXA1 potentiated the chromatin binding and transcriptional activity of GR. This was attributed to FOXA1-mediated repression of theNR3C1(gene encoding GR) expressionviathe corepressor TLE3. Moreover, the small-molecule inhibition of coactivator p300’s enzymatic activity efficiently restricted GR-mediated gene regulation and cell proliferation. Overall, we identified chromatin pre-accessibility and FOXA1-mediated repression as important regulators of GR action in prostate cancer, pointing out new avenues to oppose steroid receptor-mediated antiandrogen resistance.

Published

2023

7. BCOR-coupled H2A monoubiquitination represses a subset of androgen receptor target genes regulating prostate cancer proliferation

Author

Einari A. Niskanen, Joanna K. Lempiäinen, A.B.M. Kaiser Manjur, Marjo Malinen, Kirsi Ketola, and Jorma J. Palvimo

Subjects

Male, 0301 basic medicine, Cancer Research, medicine.drug_class, Cellular differentiation, Biology, Histones, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Cell Line, Tumor, Proto-Oncogene Proteins, Genetics, medicine, Humans, Monoubiquitination, Hox gene, Molecular Biology, Transcription factor, Cell Proliferation, Polycomb Repressive Complex 1, Binding Sites, Ubiquitination, Prostatic Neoplasms, Androgen, medicine.disease, Chromatin, Gene Expression Regulation, Neoplastic, Repressor Proteins, Androgen receptor, 030104 developmental biology, Receptors, Androgen, 030220 oncology & carcinogenesis, Androgens, Cancer research

Abstract

We have identified BCL6 corepressor (BCOR) as a hormone-dependent interaction partner of androgen receptor (AR), a key transcription factor in the development of normal and cancerous prostate. BCOR is often mutated in cancers and hematological diseases and as a component of a non-canonical polycomb repressive complex 1 (ncPRC1.1) required for arranging many facets of cellular differentiation. However, its role in androgen signaling or prostate cancer cells remains unknown. Here, our genome-wide analyses reveal that BCOR is recruited in an androgen-dependent fashion to majority of AR-binding chromatin sites in castration-resistant prostate cancer (CRPC) cells. Interestingly, depletion of BCOR has a significant effect on the expression of androgen-repressed genes linked to regulation of cell proliferation, differentiation and development. At many of these genes, such as HOX genes, the depletion leads to a decrease in H2A K119 monoubiquitination and an increase in mRNA expression. Consistently, BCOR depletion impairs the proliferation and viability of CRPC cells, inducing their apoptosis. Collectively, our data indicate a key role for the BCOR-ncPRC1.1 complex in the corepression of an important subset of AR target genes and the regulation of prostate cancer cell proliferation.

Published

2020

8. BCOR modulates transcriptional activity of a subset of glucocorticoid receptor target genes involved in cell growth and mobility

Author

Jorma J. Palvimo, Einari A. Niskanen, Marjo Malinen, Markku Varjosalo, Joanna K. Lempiäinen, A.B.M. Kaiser Manjur, Institute of Biotechnology, Biosciences, and Molecular Systems Biology

Subjects

0301 basic medicine, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Biochemistry, Dexamethasone, 0302 clinical medicine, Endocrinology, PROGRAMS, Cell Movement, Transcriptional regulation, Protein Interaction Maps, Nuclear receptor co-repressor 1, Nuclear receptor corepressor 1 (NCOR1), Chemistry, Chromatin binding, PROLIFERATION, INHIBITOR, Transcription regulation, Coregulator, Cell biology, Enhancer Elements, Genetic, 030220 oncology & carcinogenesis, Molecular Medicine, Chromatin Immunoprecipitation, Repressor, KAPPA-B, MECHANISMS, 03 medical and health sciences, Receptors, Glucocorticoid, INFLAMMATION, Proto-Oncogene Proteins, Humans, Nuclear Receptor Co-Repressor 1, Enhancer, Molecular Biology, Transcription factor, Cell Proliferation, Binding Sites, COMPLEX, MUTATIONS, Glucocorticoid receptor (GR), Cell Biology, BCL6 corepressor (BCOR), Repressor Proteins, HEK293 Cells, 030104 developmental biology, Gene Expression Regulation, Nuclear receptor, MEDULLOBLASTOMA, 1182 Biochemistry, cell and molecular biology, Corepressor

Abstract

Glucocorticoid (GC) receptor (GR) is a key transcription factor (TF) that regulates vital metabolic and antiinflammatory processes. We have identified BCL6 corepressor (BCOR) as a dexamethasone-stimulated interaction partner of GR. BCOR is a component of non-canonical polycomb repressor complex 1.1 (ncPCR1.1) and linked to different developmental disorders and cancers, but the role of BCOR in GC signaling is poorly characterized. Here, using ChIP-seq we show that, GC induces genome-wide redistribution of BCOR chromatin binding towards GR-occupied enhancers in HEK293 cells. As assessed by RNA-seq, depletion of BCOR altered the expression of hundreds of GC-regulated genes, especially the ones linked to TNF signaling, GR signaling and cell migration pathways. Biotinylation-based proximity mapping revealed that GR and BCOR share several interacting partners, including nuclear receptor corepressor NCOR1. ChIP-seq showed that the NCOR1 co-occurs with both BCOR and GR on a subset of enhancers upon GC treatment. Simultaneous depletion of BCOR and NCOR1 influenced GR target gene expression in a combinatorial and gene-specific manner. Finally, we show using live cell imaging that the depletion of BCOR together with NCOR1 markedly enhances cell migration. Collectively, our data suggest BCOR as an important gene and pathway selective coregulator of GR transcriptional activity.

Published

2021

9. Stress-induced nuclear condensation of NELF drives transcriptional downregulation

Author

Prashant Rawat, Patrick Cramer, Fernando Aprile-Garcia, Anwit S. Pandit, Jorma J. Palvimo, Einari A. Niskanen, Seychelle M. Vos, Andrea Pichler, Marc Boehning, Barbara Hummel, Ashkan Khavaran, Nathalie Eisenhardt, and Ritwick Sawarkar

Subjects

Transcription, Genetic, SUMO protein, RNA polymerase II, 0302 clinical medicine, Genes, Reporter, Transcription (biology), Positive Transcriptional Elongation Factor B, Phosphorylation, Negative elongation factor, Promoter Regions, Genetic, 0303 health sciences, Translation (biology), Aminoacyltransferases, heat shock, Chromatin, Cell biology, transcriptional condensates, Transcriptional Elongation Factors, Signal Transduction, negative elongation factor (NELF), Down-Regulation, CDK9, Biology, Article, 03 medical and health sciences, Stress granule, Downregulation and upregulation, Stress, Physiological, Humans, Molecular Biology, 030304 developmental biology, Cell Nucleus, proteostasis, Sumoylation, Promoter, Cell Biology, Cyclin-Dependent Kinase 9, Clone Cells, Intrinsically Disordered Proteins, Luminescent Proteins, HEK293 Cells, pausing, SUMO, transcriptional stress response, biology.protein, phase separation, Protein Processing, Post-Translational, Heat-Shock Response, 030217 neurology & neurosurgery, HeLa Cells, Transcription Factors

Abstract

Summary In response to stress, human cells coordinately downregulate transcription and translation of housekeeping genes. To downregulate transcription, the negative elongation factor (NELF) is recruited to gene promoters impairing RNA polymerase II elongation. Here we report that NELF rapidly forms nuclear condensates upon stress in human cells. Condensate formation requires NELF dephosphorylation and SUMOylation induced by stress. The intrinsically disordered region (IDR) in NELFA is necessary for nuclear NELF condensation and can be functionally replaced by the IDR of FUS or EWSR1 protein. We find that biomolecular condensation facilitates enhanced recruitment of NELF to promoters upon stress to drive transcriptional downregulation. Importantly, NELF condensation is required for cellular viability under stressful conditions. We propose that stress-induced NELF condensates reported here are nuclear counterparts of cytosolic stress granules. These two stress-inducible condensates may drive the coordinated downregulation of transcription and translation, likely forming a critical node of the stress survival strategy., Graphical abstract, Highlights • Transcription regulator NELF undergoes stress-induced condensation in human cells • NELF condensation is regulated by its phosphorylation and SUMOylation • Intrinsically disordered region of NELFA is necessary to drive condensation • NELF condensation downregulates transcription to promote cell survival upon stress, Rawat et al. discovered stress-induced condensation of the transcriptional regulator NELF in human cells, recapitulated by phase separation of recombinant NELF in vitro. NELF condensation is governed by its disordered tentacles and stress-contingent changes in NELF phosphorylation and SUMOylation. NELF condensation facilitates stress-mediated transcriptional downregulation, supporting cell survival upon stress.

Published

2021

10. Parvovirus induced alterations in nuclear architecture and dynamics.

Author

Teemu O Ihalainen, Einari A Niskanen, Juulia Jylhävä, Outi Paloheimo, Nicolas Dross, Hanna Smolander, Jörg Langowski, Jussi Timonen, and Maija Vihinen-Ranta

Subjects

Medicine, Science

Abstract

The nucleus of interphase eukaryotic cell is a highly compartmentalized structure containing the three-dimensional network of chromatin and numerous proteinaceous subcompartments. DNA viruses induce profound changes in the intranuclear structures of their host cells. We are applying a combination of confocal imaging including photobleaching microscopy and computational methods to analyze the modifications of nuclear architecture and dynamics in parvovirus infected cells. Upon canine parvovirus infection, expansion of the viral replication compartment is accompanied by chromatin marginalization to the vicinity of the nuclear membrane. Dextran microinjection and fluorescence recovery after photobleaching (FRAP) studies revealed the homogeneity of this compartment. Markedly, in spite of increase in viral DNA content of the nucleus, a significant increase in the protein mobility was observed in infected compared to non-infected cells. Moreover, analysis of the dynamics of photoactivable capsid protein demonstrated rapid intranuclear dynamics of viral capsids. Finally, quantitative FRAP and cellular modelling were used to determine the duration of viral genome replication. Altogether, our findings indicate that parvoviruses modify the nuclear structure and dynamics extensively. Intranuclear crowding of viral components leads to enlargement of the interchromosomal domain and to chromatin marginalization via depletion attraction. In conclusion, parvoviruses provide a useful model system for understanding the mechanisms of virus-induced intranuclear modifications.

Published

2009

11. Promoter-Targeted Histone Acetylation of Chromatinized Parvoviral Genome Is Essential for the Progress of Infection

Author

Jussi Timonen, Lassi Palmujoki, Pekka Mäntysaari, Vesa Aho, Einari A. Niskanen, Keijo Viiri, Elina Mäntylä, Maija Vihinen-Ranta, Mikko Oittinen, Teemu O. Ihalainen, Kari Salokas, and Olli Kalliolinna

Subjects

Gene Expression Regulation, Viral, 0301 basic medicine, Parvovirus, Canine, Virus Integration, viruses, Immunology, Genome, Viral, Microbiology, Cell Line, Epigenesis, Genetic, viral DNA, Histones, Parvoviridae Infections, 03 medical and health sciences, Histone H3, Virology, Animals, Histone code, Nucleosome, Promoter Regions, Genetic, Epigenomics, Microscopy, Confocal, biology, Lysine, canine parvovirus, histone acetylation, Acetylation, Histone acetyltransferase, Chromatin, chromatinization, Virus-Cell Interactions, 3. Good health, 030104 developmental biology, Histone, Insect Science, DNA, Viral, Cats, biology.protein, Chromatin immunoprecipitation

Abstract

The association of host histones with parvoviral DNA is poorly understood. We analyzed the chromatinization and histone acetylation of canine parvovirus DNA during infection by confocal imaging and in situ proximity ligation assay combined with chromatin immunoprecipitation and high-throughput sequencing. We found that during late infection, parvovirus replication bodies were rich in histones bearing modifications characteristic of transcriptionally active chromatin, i.e., histone H3 lysine 27 acetylation (H3K27ac). H3K27ac, in particular, was located in close proximity to the viral DNA-binding protein NS1. Importantly, our results show for the first time that in the chromatinized parvoviral genome, the two viral promoters in particular were rich in H3K27ac. Histone acetyltransferase (HAT) inhibitors efficiently interfered with the expression of viral proteins and infection progress. Altogether, our data suggest that the acetylation of histones on parvoviral DNA is essential for viral gene expression and the completion of the viral life cycle. IMPORTANCE Viral DNA introduced into cell nuclei is exposed to cellular responses to foreign DNA, including chromatinization and epigenetic silencing, both of which determine the outcome of infection. How the incoming parvovirus resists cellular epigenetic downregulation of its genes is not understood. Here, the critical role of epigenetic modifications in the regulation of parvovirus infection was demonstrated. We showed for the first time that a successful parvovirus infection is characterized by the deposition of nucleosomes with active histone acetylation on the viral promoter areas. The results provide new insights into the regulation of parvoviral gene expression, which is an important aspect of the development of parvovirus-based virotherapy.

Published

2016

12. Chromatin SUMOylation in heat stress: To protect, pause and organise?: SUMO stress response on chromatin

Author

Einari A. Niskanen and Jorma J. Palvimo

Subjects

0301 basic medicine, Histone-modifying enzymes, SUMO protein, RNA polymerase II, Biology, Regulatory Sequences, Nucleic Acid, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, 0302 clinical medicine, Animals, Humans, Nuclear protein, Enhancer, Transcription factor, Genetics, Nuclear Proteins, Sumoylation, Promoter, Chromatin, Cell biology, 030104 developmental biology, biology.protein, RNA Polymerase II, 030217 neurology & neurosurgery, Heat-Shock Response

Abstract

Post-translational modifications, e.g. SUMO modifications (SUMOylation), provide a mechanism for swiftly changing a protein's activity. Various stress conditions trigger a SUMO stress response (SSR) - a stress-induced rapid change in the conjugation of SUMO to multiple proteins, which predominantly targets nuclear proteins. The SSR has been postulated to protect stressed cells by preserving the functionality of crucial proteins. However, it is unclear how it exerts its protective functions. Interestingly, heat stress (HS) increases SUMOylation of proteins at active promoters and enhancers. In promoters, HS-induced SUMOylation correlates with gene transcription and stress-induced RNA polymerase II (Pol2) pausing. Conversely, a disappearance of SUMOylation in HS occurs at chromatin anchor points that maintain chromatin-looping structures and the spatial organisation of chromatin. In reviewing the literature, we hypothesise that the SSR regulates Pol2 pausing by modulating the interactions of pausing-regulating proteins, whereas deSUMOylation alters the function of chromatin anchors.

Published

2017

13. Agonist-specific Protein Interactomes of Glucocorticoid and Androgen Receptor as Revealed by Proximity Mapping

Author

Jorma J. Palvimo, Joanna K. Lempiäinen, Riikka Lampinen, Einari A. Niskanen, Kaisa-Mari Vuoti, Helka Göös, and Markku Varjosalo

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Transcription, Genetic, Response element, Biochemistry, Interactome, Dexamethasone, Analytical Chemistry, 03 medical and health sciences, Glucocorticoid receptor, Receptors, Glucocorticoid, Internal medicine, Nitriles, Phenylthiohydantoin, Protein Interaction Mapping, medicine, Humans, Receptor, Molecular Biology, Transcription factor, Thyroid hormone receptor, Chemistry, Research, Nuclear Proteins, Prostatic Neoplasms, Dihydrotestosterone, Cell biology, Androgen receptor, DNA-Binding Proteins, Mifepristone, 030104 developmental biology, Endocrinology, Nuclear receptor, A549 Cells, Receptors, Androgen, Benzamides, Co-Repressor Proteins

Abstract

Glucocorticoid receptor (GR) and androgen receptor (AR) are steroid-inducible transcription factors (TFs). The GR and the AR are central regulators of various metabolic, homeostatic and differentiation processes and hence important therapeutic targets, especially in inflammation and prostate cancer, respectively. Hormone binding to these steroid receptors (SRs) leads to DNA binding and activation or repression of their target genes with the aid of interacting proteins, coregulators. However, protein interactomes of these important drug targets have remained poorly defined. We used proximity-dependent biotin identification to map the protein interaction landscapes of GR and AR in the presence and absence of their cognate agonist (dexamethasone, 5α-dihydrotestosterone) and antagonist (RU486, enzalutamide) in intact human cells. We reproducibly identified more than 30 proteins that interacted with the GR in an agonist-specific manner and whose interactions were significantly influenced by the DNA-binding function of the receptor. Interestingly, the agonist-dependent interactome of the GR overlapped considerably with that of the AR. In addition to known coactivators, corepressors and components of BAF (SWI/SNF) chromatin-remodeling complex, we identified a number of proteins, including lysine methyltransferases and demethylases that have not been previously linked to glucocorticoid or androgen signaling. A substantial number of these novel agonist-dependent GR/AR-interacting proteins, e.g. BCOR, IRF2BP2, RCOR1, and TLE3, have previously been implicated in transcription repression. This together with our data on the effect of BCOR, IRF2BP2, and RCOR1 on GR target gene expression suggests multifaceted functions and roles for SR coregulators. These first high confidence SR interactomes will aid in therapeutic targeting of the GR and the AR.

Published

2017

14. IRF2BP2 modulates the crosstalk between glucocorticoid and TNF signaling

Author

Einari A. Niskanen, Marjo Malinen, A.B.M. Kaiser Manjur, Joanna K. Lempiäinen, and Jorma J. Palvimo

Subjects

0301 basic medicine, Endocrinology, Diabetes and Metabolism, Clinical Biochemistry, Anti-Inflammatory Agents, Biochemistry, 03 medical and health sciences, 0302 clinical medicine, Endocrinology, Cell Movement, Interferon, medicine, Humans, Glucocorticoids, Molecular Biology, Transcription factor, Cell Proliferation, Inflammation, Tumor Necrosis Factor-alpha, Chemistry, Chromatin binding, HEK 293 cells, NF-kappa B, Cell Biology, Cell biology, Chromatin, DNA-Binding Proteins, Crosstalk (biology), HEK293 Cells, 030104 developmental biology, Gene Expression Regulation, A549 Cells, 030220 oncology & carcinogenesis, Molecular Medicine, Tumor necrosis factor alpha, Glucocorticoid, Transcription Factors, medicine.drug

Abstract

IRF2BP2 (interferon regulatory factor-2 binding protein-2) is an uncharacterized interaction partner of glucocorticoid (GC) receptor (GR), an anti-inflammatory and metabolic transcription factor. Here, we show that GC changes the chromatin binding of IRF2BP2 in natural chromatin milieu. The GC-induced IRF2BP2-binding sites co-occur with GR binding sites and are associated with GC-induced genes. Moreover, the depletion of IRF2BP2 modulates transcription of GC-regulated genes, represses cell proliferation and increases cell movement in HEK293 cells. In A549 cells, the depletion extensively alters the responses to GC and tumor necrosis factor α (TNF), including metabolic and inflammatory pathways. Taken together, our data support the role of IRF2BP2 as a coregulator of both GR and NF-κB, potentially modulating the crosstalk between GC and TNF signaling.

Published

2019

15. Global analysis of transcription in castration-resistant prostate cancer cells uncovers active enhancers and direct androgen receptor targets

Author

Marjo Malinen, Päivi Sutinen, Jorma J. Palvimo, Sari Toropainen, Minna U. Kaikkonen, Einari A. Niskanen, and A.I. Virtanen -instituutti / Bioteknologia ja molekulaarinen lääketiede

Subjects

Male, 0301 basic medicine, Transcription, Genetic, medicine.drug_class, Transcriptional regulatory elements, Enhancer RNAs, Biology, urologic and male genital diseases, Models, Biological, Article, 03 medical and health sciences, Prostate cancer, Transcription (biology), Cell Line, Tumor, medicine, Humans, RNA, Neoplasm, Insulin-Like Growth Factor I, Enhancer, Transcription factor, Cell Proliferation, Binding Sites, Multidisciplinary, Epidermal Growth Factor, Androgen, medicine.disease, Molecular biology, Chromatin, Neoplasm Proteins, Up-Regulation, Cell biology, Gene Expression Regulation, Neoplastic, Androgen receptor, Prostatic Neoplasms, Castration-Resistant, Enhancer Elements, Genetic, 030104 developmental biology, Receptors, Androgen, Androgens, Protein Binding, Signal Transduction

Abstract

Article, Androgen receptor (AR) is a male sex steroid-activated transcription factor (TF) that plays a critical role in prostate cancers, including castration-resistant prostate cancers (CRPC) that typically express amplified levels of the AR. CRPC-derived VCaP cells display an excessive number of chromatin AR-binding sites (ARBs) most of which localize to distal inter- or intragenic regions. Here, we analyzed direct transcription programs of the AR in VCaP cells using global nuclear run-on sequencing (GRO-seq) and integrated the GRO-seq data with the ARB and VCaP cell-specific TF-binding data. Androgen immediately activated transcription of hundreds of protein-coding genes, including IGF-1 receptor and EGF receptor. Androgen also simultaneously repressed transcription of a large number of genes, including MYC. As functional enhancers have been postulated to produce enhancer-templated non-coding RNAs (eRNAs), we also analyzed the eRNAs, which revealed that only a fraction of the ARBs reside at functional enhancers. Activation of these enhancers was most pronounced at the sites that also bound PIAS1, ERG and HDAC3, whereas binding of HDAC3 and PIAS1 decreased at androgen-repressed enhancers. In summary, our genome-wide data of androgen-regulated enhancers and primary target genes provide new insights how the AR can directly regulate cellular growth and control signaling pathways in CPRC cells, published version, peerReviewed

Published

2016

16. Crosstalk between androgen and pro-inflammatory signaling remodels androgen receptor and NF-ĸB cistrome to reprogram the prostate cancer cell transcriptome

Author

Minna U. Kaikkonen, Jorma J. Palvimo, Einari A. Niskanen, Marjo Malinen, and A.I. Virtanen -instituutti / Bioteknologia ja molekulaarinen lääketiede

Subjects

Hepatocyte Nuclear Factor 3-alpha, Male, 0301 basic medicine, medicine.drug_class, Biology, Transcriptome, 03 medical and health sciences, Prostate cancer, Cell Line, Tumor, androgen receptor, LNCaP, Genetics, medicine, Cluster Analysis, Humans, genes, Gene Expression Profiling, Gene regulation, Chromatin and Epigenetics, NF-kappa B, Prostatic Neoplasms, androgens, Androgen, medicine.disease, prostate cancer, Protein Inhibitors of Activated STAT, Chromatin, Cell biology, Gene Expression Regulation, Neoplastic, Androgen receptor, Enhancer Elements, Genetic, 030104 developmental biology, Cistrome, Receptors, Androgen, Androgens, Cytokines, chromatin, enhancer of transcription, Inflammation Mediators, FOXA1, Signal transduction, signal transduction

Abstract

Article, Inflammatory processes and androgen signaling are critical for the growth of prostate cancer (PC), the most common cancer among males in Western countries. To understand the importance of potential interplay between pro-inflammatory and androgen signaling for gene regulation, we have interrogated the crosstalk between androgen receptor (AR) and NF-κB, a key transcriptional mediator of inflammatory responses, by utilizing genome-wide chromatin immunoprecipitation sequencing and global run-on sequencing in PC cells. Co-stimulation of LNCaP cells with androgen and pro-inflammatory cytokine TNFα invoked a transcriptome which was very distinct from that induced by either stimulation alone. The altered transcriptome that included gene programs linked to cell migration and invasiveness was orchestrated by significant remodeling of NF-κB and AR cistrome and enhancer landscape. Although androgen multiplied the NF-κB cistrome and TNFα restrained the AR cistrome, there was no general reciprocal tethering of the AR to the NF-κB on chromatin. Instead, redistribution of FOXA1, PIAS1 and PIAS2 contributed to the exposure of latent NF-κB chromatin-binding sites and masking of AR chromatin-binding sites. Taken together, concomitant androgen and pro-inflammatory signaling significantly remodels especially the NF-κB cistrome, reprogramming the PC cell transcriptome in fashion that may contribute to the progression of PC., published version, peerReviewed

Published

2016

17. Generation of lentivirus vectors using recombinant baculoviruses

Author

S Turpeinen, Einari A. Niskanen, Seppo Ylä-Herttuala, Hanna P. Lesch, Anssi J. Mähönen, and Kari J. Airenne

Subjects

Baculoviridae, viruses, Genetic enhancement, Genetic Vectors, Green Fluorescent Proteins, Gene Expression, Virus Replication, Cell Line, Green fluorescent protein, law.invention, Transduction (genetics), Transduction, Genetic, law, Virology, Genetics, Humans, Transgenes, Cloning, Molecular, Molecular Biology, Organisms, Genetically Modified, biology, Lentivirus, Genetic Therapy, Flow Cytometry, biology.organism_classification, Microscopy, Fluorescence, Viral replication, Cell culture, Recombinant DNA, Molecular Medicine, HeLa Cells

Abstract

In spite of advances in conventional four-plasmid transient transfection methods and development of inducible stable production cell lines, production of replication-defective lentiviral vectors in clinical scale has been challenging. Baculovirus technology offers an alternative to scalable virus production as a result of fast and easy production of baculoviruses, efficient transduction of mammalian cells and safety of the baculoviruses. As a first step toward scalable lentiviral production system, we have constructed four recombinant baculoviruses: the BAC-transfer virus expresses green fluorescent protein (GFP) as a transgene and BAC-gag-pol, BAC-vesicular stomatitis virus glycoprotein G and BAC-rev express all elements required for a safe lentivirus vector generation. Following 293T cell transduction with recombinant baculoviruses functional lentiviruses were produced. Different baculovirus concentrations, mediums and transduction times were used to find optimal conditions for lentivirus production. The unconcentrated lentiviral titers in cell culture mediums were on average 2.5 x 10(6) TU ml(-1), which are comparable to titers of the lentiviruses produced by conventional four-plasmid methods. Lentiviruses produced by baculovirus method transduced HeLa cells and showed sustained GFP expression. No evidence of the formation of replication competent lentiviruses was detected by p24 enzyme-linked immunosorbent assay. Our results show that baculoviruses are an attractive alternative for the production of lentiviruses in mammalian cells.

Published

2008

18. Baculovirus-mediated immediate-early gene expression and nuclear reorganization in human cells

Author

Maija Vihinen-Ranta, Johanna P. Laakkonen, Markku S. Kulomaa, Einari A. Niskanen, Seppo Ylä-Herttuala, Paula H. A. Ronkainen, Minna U. Kaikkonen, Mirka Salminen, Teemu O. Ihalainen, Maija Häkkinen, and Kari J. Airenne

Subjects

viruses, Immunology, Gene Expression, Anthraquinones, Microbiology, Cell Line, Histones, Mice, Viral Proteins, Transduction (genetics), Capsid, Viral entry, Transcription (biology), Virology, Animals, Humans, Insect virus, Genes, Immediate-Early, Gene, Cell Nucleus, Microscopy, Confocal, biology, Chromatin Assembly and Disassembly, Molecular biology, Nucleopolyhedroviruses, Chromatin, Histone, Microscopy, Fluorescence, biology.protein, Immediate early gene

Abstract

Baculovirus, Autographa californica multiple nucleopolyhedrovirus (AcMNPV), has the ability to transduce mammalian cell lines without replication. The general objective of this study was to detect the transcription and expression of viral immediate-early genes in human cells and to examine the interactions between viral components and subnuclear structures. Viral capsids were seen in large, discrete foci in nuclei of both dividing and non-dividing human cells. Concurrently, the transcription of viral immediate-early transregulator genes (ie-1, ie-2) and translation of IE-2 protein were detected. Quantitative microscopy imaging and analysis showed that virus transduction altered the size of promyelocytic leukaemia nuclear bodies, which are suggested to be involved in replication and transcription of various viruses. Furthermore, altered distribution of the chromatin marker Draq5 and histone core protein (H2B) in transduced cells indicated that the virus was able to induce remodelling of the host cell chromatin. To conclude, this study shows that the non-replicative insect virus, baculovirus and its proteins can induce multiple changes in the cellular machinery of human cells.

Published

2008

19. Dynamics and interactions of parvoviral NS1 protein in the nucleus

Author

Einari A. Niskanen, Johanna Rinne, Juulia Jylhävä, Jussi Timonen, Teemu O. Ihalainen, Tuomas Turpeinen, and Maija Vihinen-Ranta

Subjects

Confocal, viruses, Immunology, Motility, Viral Nonstructural Proteins, Biology, Virus Replication, Microbiology, Cell Line, Parvovirus, chemistry.chemical_compound, Bacterial Proteins, Virology, medicine, Animals, Fluorescence loss in photobleaching, Cell Nucleus, Photobleaching, virus diseases, biochemical phenomena, metabolism, and nutrition, biology.organism_classification, Molecular biology, Fluorescence, Cell biology, Luminescent Proteins, medicine.anatomical_structure, chemistry, Cats, Nucleus, DNA

Abstract

Summary Nuclear positioning and dynamic interactions of viral proteins with nuclear substructures play essen- tial roles during infection with DNA viruses. Visual- ization of the intranuclear interactions and motility of the parvovirus replication protein (NS1) in living cells gives insight into specific parvovirus protein- cellular structure interactions. Confocal analysis of highly synchronized infected Norden Laboratory Feline Kidney cells showed accumulation of nuclear NS1 in discrete interchromosomal foci. NS1 fused with enhanced yellow fluorescence protein (NS1- EYFP) provided a marker in live cells for dynamics of NS1 traced by photobleaching techniques. Fluo- rescence Recovery after Photobleaching suggested that the NS1 protein is not freely diffusing but undergoes transient interactions with nuclear com- partments. Fluorescence Loss in Photobleaching demonstrated for the first time the shuttling of a par- voviral protein between the nucleus and the cyto- plasm as assayed with NS1-EYFP. Finally, time-lapse imaging of infected cells revealed that the intra- nuclear distribution of NS1-EYFP evolves dramati- cally starting from the formation of NS1 foci and proceeding to a homogenous distribution extending throughout the nucleus.

Published

2007

20. Global SUMOylation on active chromatin is an acute heat stress response restricting transcription

Author

Minna U. Kaikkonen, Marjo Malinen, Lea Sistonen, Jenny Joutsen, Einari A. Niskanen, Päivi Sutinen, Anniina Vihervaara, Sari Toropainen, Jorma J. Palvimo, Ville Paakinaho, and Terveystieteiden tiedekunta

Subjects

Histone-modifying enzymes, Transcription, Genetic, SUMO protein, RNA polymerase II, Biology, Chromatin remodeling, Heat Shock Transcription Factors, Humans, Enhancer, Promoter Regions, Genetic, Transcription factor, Chromatin binding, Research, Sumoylation, Molecular biology, Protein Inhibitors of Activated STAT, Chromatin, Cell biology, DNA-Binding Proteins, Gene Expression Regulation, biology.protein, Small Ubiquitin-Related Modifier Proteins, RNA Polymerase II, K562 Cells, Heat-Shock Response, Transcription Factors

Abstract

Article, Background Cells have developed many ways to cope with external stress. One distinctive feature in acute proteotoxic stresses, such as heat shock (HS), is rapid post-translational modification of proteins by SUMOs (small ubiquitin-like modifier proteins; SUMOylation). While many of the SUMO targets are chromatin proteins, there is scarce information on chromatin binding of SUMOylated proteins in HS and the role of chromatin SUMOylation in the regulation of transcription. Results We mapped HS-induced genome-wide changes in chromatin occupancy of SUMO-2/3-modified proteins in K562 and VCaP cells using ChIP-seq. Chromatin SUMOylation was further correlated with HS-induced global changes in transcription using GRO-seq and RNA polymerase II (Pol2) ChIP-seq along with ENCODE data for K562 cells. HS induced a rapid and massive rearrangement of chromatin SUMOylation pattern: SUMOylation was gained at active promoters and enhancers associated with multiple transcription factors, including heat shock factor 1. Concomitant loss of SUMOylation occurred at inactive intergenic chromatin regions that were associated with CTCF-cohesin complex and SETDB1 methyltransferase complex. In addition, HS triggered a dynamic chromatin binding of SUMO ligase PIAS1, especially onto promoters. The HS-induced SUMOylation on chromatin was most notable at promoters of transcribed genes where it positively correlated with active transcription and Pol2 promoter-proximal pausing. Furthermore, silencing of SUMOylation machinery either by depletion of UBC9 or PIAS1 enhanced expression of HS-induced genes. Conclusions HS-triggered SUMOylation targets promoters and enhancers of actively transcribed genes where it restricts the transcriptional activity of the HS-induced genes. PIAS1-mediated promoter SUMOylation is likely to regulate Pol2-associated factors in HS., published version

Published

2015

21. Reorganization of Nuclear Pore Complexes and the Lamina in Late-Stage Parvovirus Infection

Author

Einari A. Niskanen, Maija Vihinen-Ranta, Elina Mäntylä, Teemu O. Ihalainen, and Faculty of Health Sciences

Subjects

Parvovirus, Canine, animal diseases, viruses, nuclear pore complexes, Immunology, Microbiology, Parvoviridae Infections, Capsid, Dogs, Virology, medicine, otorhinolaryngologic diseases, Animals, Dog Diseases, Nuclear pore, parvovovirus, Cell Nucleus, Nuclear Lamina, Lamin Type B, biology, Parvovirus, Parvovirus infection, Canine parvovirus, Lamin Type A, biology.organism_classification, medicine.disease, Virus-Cell Interactions, Cell biology, Nuclear Pore Complex Proteins, Cell nucleus, stomatognathic diseases, medicine.anatomical_structure, Insect Science, Nuclear Pore, Nuclear lamina, Nucleus, Lamin

Abstract

Article, Canine parvovirus (CPV) infection induces reorganization of nuclear structures. Our studies indicated that late-stage infection induces accumulation of nuclear pore complexes (NPCs) and lamin B1 concomitantly with a decrease of lamin A/C levels on the apical side of the nucleus. Newly formed CPV capsids are located in close proximity to NPCs on the apical side. These results suggest that parvoviruses cause apical enrichment of NPCs and reorganization of nuclear lamina, presumably to facilitate the late-stage infection., published version, http://purl.org/eprint/status/PeerReviewed

Published

2015

22. Mutations in DNA Binding and Transactivation Domains Affect the Dynamics of Parvovirus NS1 Protein

Author

Olli Kalliolinna, Einari A. Niskanen, Maija Vihinen-Ranta, Teemu O. Ihalainen, and Milla M. Häkkinen

Subjects

HMG-box, Parvovirus, Canine, viruses, Immunology, DNA Mutational Analysis, Mutation, Missense, NS1 proteiini, Viral Nonstructural Proteins, Virus Replication, Microbiology, NS1 protein, Single-stranded binding protein, Cell Line, SeqA protein domain, Virology, Animals, DNA binding, Replication protein A, biology, Ter protein, parvovirus, virus diseases, DNA, n sitoutuminen [DNA], biochemical phenomena, metabolism, and nutrition, Molecular biology, Cell biology, Virus-Cell Interactions, Protein Structure, Tertiary, DNA binding site, DNA-Binding Proteins, Insect Science, biology.protein, Mutant Proteins, Viral genome replication, Binding domain, Protein Binding

Abstract

The multifunctional replication protein of autonomous parvoviruses, NS1, is vital for viral genome replication and for the control of viral protein production. Two DNA-interacting domains of NS1, the N-terminal and helicase domains, are necessary for these functions. In addition, the N and C termini of NS1 are required for activation of viral promoter P38. By comparison with the structural and biochemical data from other parvoviruses, we identified potential DNA-interacting amino acid residues from canine parvovirus NS1. The role of the identified amino acids in NS1 binding dynamics was studied by mutagenesis, fluorescence recovery after photobleaching, and computer simulations. Mutations in the predicted DNA-interacting amino acids of the N-terminal and helicase domains increased the intranuclear binding dynamics of NS1 dramatically. A substantial increase in binding dynamics was also observed for NS1 mutants that targeted the metal ion coordination site in the N terminus. Interestingly, contrary to other mutants, deletion of the C terminus resulted in slower binding dynamics of NS1. P38 transactivation was severely reduced in both N-terminal DNA recognition and in C-terminal deletion mutants. These data suggest that the intranuclear dynamics of NS1 are largely characterized by its sequence-specific and -nonspecific binding to double-stranded DNA. Moreover, binding of NS1 is equally dependent on the N-terminal domain and conserved β-loop of the helicase domain.

Published

2013

23. Distribution and Dynamics of Transcription-Associated Proteins during Parvovirus Infection

Author

Einari A. Niskanen, Outi Paloheimo, Hanna Smolander, Maija Vihinen-Ranta, Minna U. Kaikkonen, Juha P. Laurila, Sami F. Willman, and Teemu O. Ihalainen

Subjects

Parvovirus, Canine, Viral nonstructural protein, viruses, Immunology, Microbiology, Parvoviridae Infections, 03 medical and health sciences, Virology, Animals, Transcription factor, 030304 developmental biology, 0303 health sciences, biology, Parvovirus, Binding protein, 030302 biochemistry & molecular biology, Canine parvovirus, Fluorescence recovery after photobleaching, biology.organism_classification, Molecular biology, 3. Good health, Virus-Cell Interactions, Cell Compartmentation, Insect Science, biology.protein, TATA-binding protein, Transcription factor II B, Subcellular Fractions, Transcription Factors

Abstract

Canine parvovirus (CPV) infection leads to reorganization of nuclear proteinaceous subcompartments. Our studies showed that virus infection causes a time-dependent increase in the amount of viral nonstructural protein NS1 mRNA. Fluorescence recovery after photobleaching showed that the recovery kinetics of nuclear transcription-associated proteins, TATA binding protein (TBP), transcription factor IIB (TFIIB), and poly(A) binding protein nuclear 1 (PABPN1) were different in infected and noninfected cells, pointing to virus-induced alterations in binding dynamics of these proteins.

Published

2012

24. Coxsackievirus B3-Induced Cellular Protrusions: Structural Characteristics and Functional Competence▿†

Author

Outi Paloheimo, Einari A. Niskanen, Teemu O. Ihalainen, Heikki Hyöty, Sanna Kirjavainen, Sisko Tauriainen, Johanna P. Laakkonen, Maija Vihinen-Ranta, and Outi Välilehto

Subjects

Viral protein, viruses, Immunology, Cell, Biology, medicine.disease_cause, Kidney, Microbiology, Virus, Cell Line, chemistry.chemical_compound, Viral Proteins, Imaging, Three-Dimensional, Viral entry, Virology, medicine, Enterovirus Infections, Animals, Humans, Actin, Cytochalasin D, Transfection, Molecular biology, Cell biology, Virus-Cell Interactions, Enterovirus B, Human, Microscopy, Electron, medicine.anatomical_structure, chemistry, Insect Science, Capsid Proteins, Intracellular

Abstract

Virus-induced alterations in cell morphology play important roles in the viral life cycle. To examine the intracellular events of coxsackievirus B3 (CVB3) infection, green monkey kidney (GMK) cells were either inoculated with the virus or transfected with the viral RNA. Various microscopic and flow cytometric approaches demonstrated the emergence of CVB3 capsid proteins at 8 h posttransfection, followed by morphological transformation of the cells. The morphological changes included formation of membranous protrusions containing viral capsids, together with microtubules and actin. Translocation of viral capsids into these protrusions was sensitive to cytochalasin D, suggesting the importance of actin in the process. Three-dimensional (3D) live-cell imaging demonstrated frequent contacts between cellular protrusions and adjacent cells. Markedly, in spite of an increase in the cellular viral protein content starting 8 h postinfection, no significant decrease in cell viability or increase in the amount of early apoptotic markers was observed by flow cytometry by 28 h postinfection. Comicroinjection of viral RNA and fluorescent dextran in the presence of neutralizing virus antibody suggested that these protrusions mediated the spread of infection from one cell to another prior to virus-induced cell lysis. Altogether, the CVB3-induced cellular protrusions could function as a hitherto-unknown nonlytic mechanism of cell-to-cell transmission exploited by enteroviruses.

Published

2011

25. Effect of ATP Binding and Hydrolysis on Dynamics of Canine Parvovirus NS1▿ †

Author

Teemu O. Ihalainen, Olli Kalliolinna, Einari A. Niskanen, Maija Vihinen-Ranta, and Milla M. Häkkinen

Subjects

Models, Molecular, Parvovirus, Canine, viruses, Immunology, Molecular Sequence Data, Plasma protein binding, Viral Nonstructural Proteins, Microbiology, Cell Line, chemistry.chemical_compound, Adenosine Triphosphate, Dogs, Virology, Animals, Amino Acid Sequence, Binding site, Binding Sites, biology, Hydrolysis, DNA replication, Helicase, Fluorescence recovery after photobleaching, Fusion protein, Molecular biology, Genome Replication and Regulation of Viral Gene Expression, Protein Structure, Tertiary, Viral replication, chemistry, Biochemistry, Amino Acid Substitution, Insect Science, biology.protein, Cats, Mutagenesis, Site-Directed, Sequence Alignment, DNA, Protein Binding

Abstract

The replication protein NS1 is essential for genome replication and protein production in parvoviral infection. Many of its functions, including recognition and site-specific nicking of the viral genome, helicase activity, and transactivation of the viral capsid promoter, are dependent on ATP. An ATP-binding pocket resides in the middle of the modular NS1 protein in a superfamily 3 helicase domain. Here we have identified key ATP-binding amino acid residues in canine parvovirus (CPV) NS1 protein and mutated amino acids from the conserved A motif (K406), B motif (E444 and E445), and positively charged region (R508 and R510). All mutations prevented the formation of infectious viruses. When provided in trans , all except the R508A mutation reduced infectivity in a dominant-negative manner, possibly by hindering genome replication. These results suggest that the conserved R510 residue, but not R508, is the arginine finger sensory element of CPV NS1. Moreover, fluorescence recovery after photobleaching (FRAP), complemented by computer simulations, was used to assess the binding properties of mutated fluorescent fusion proteins. These experiments identified ATP-dependent and -independent binding modes for NS1 in living cells. Only the K406M mutant had a single binding site, which was concluded to indicate ATP-independent binding. Furthermore, our data suggest that DNA binding of NS1 is dependent on its ability to both bind and hydrolyze ATP.

Published

2010

26. Structure and characterization of a novel chicken biotin-binding protein A (BBP-A)

Author

Vesa P. Hytönen, Olli H. Laitinen, Kari Rissanen, Mark S. Johnson, Juha A. E. Määttä, Juhani Huuskonen, Kaisa Helttunen, Henri R. Nordlund, Tomi T. Airenne, Katrin K. Halling, Tiina A. Salminen, Einari A. Niskanen, and Markku S. Kulomaa

Subjects

Biotin binding, Protein Conformation, Sequence (biology), Solvent Accessible Surface Area, ENCODE, Genome, Protein structure, X-Ray Diffraction, Structural Biology, Protein Data Bank, Dissociation Rate, Mutation A74S, Subunit Interface, Animals, Nanotechnology, Gene, lcsh:QH301-705.5, biology, Avidin, Molecular biology, Biochemistry, lcsh:Biology (General), biology.protein, Protein A, Carrier Proteins, Crystallization, Chickens, Research Article

Abstract

Background The chicken genome contains a BBP-A gene showing similar characteristics to avidin family genes. In a previous study we reported that the BBP-A gene may encode a biotin-binding protein due to the high sequence similarity with chicken avidin, especially at regions encoding residues known to be located at the ligand-binding site of avidin. Results Here, we expand the repertoire of known macromolecular biotin binders by reporting a novel biotin-binding protein A (BBP-A) from chicken. The BBP-A recombinant protein was expressed using two different expression systems and purified with affinity chromatography, biochemically characterized and two X-ray structures were solved – in complex with D-biotin (BTN) and in complex with D-biotin D-sulfoxide (BSO). The BBP-A protein binds free biotin with high, "streptavidin-like" affinity (Kd ~ 10-13 M), which is about 50 times lower than that of chicken avidin. Surprisingly, the affinity of BBP-A for BSO is even higher than the affinity for BTN. Furthermore, the solved structures of the BBP-A – BTN and BBP-A – BSO complexes, which share the fold with the members of the avidin and lipocalin protein families, are extremely similar to each other. Conclusion BBP-A is an avidin-like protein having a β-barrel fold and high affinity towards BTN. However, BBP-A differs from the other known members of the avidin protein family in thermal stability and immunological properties. BBP-A also has a unique ligand-binding property, the ability to bind BTN and BSO at comparable affinities. BBP-A may have use as a novel material in, e.g. modern bio(nano)technological applications., BMC Structural Biology, 7, ISSN:1472-6807

Published

2007

27. Controlling quaternary structure assembly: subunit interface engineering and crystal structure of dual chain avidin

Author

Einari A. Niskanen, Vesa P. Hytönen, Mark S. Johnson, Tomi T. Airenne, Henri R. Nordlund, Tiina A. Salminen, Kaisa Helttunen, Jarno Hörhä, and Markku S. Kulomaa

Subjects

Models, Molecular, Stereochemistry, Protein subunit, Biotin, Gene Expression, Crystal structure, Crystallography, X-Ray, Ligands, Protein Engineering, Protein–protein interaction, chemistry.chemical_compound, Structural Biology, Animals, Disulfides, Protein Structure, Quaternary, Molecular Biology, Chromatography, High Pressure Liquid, biology, Protein engineering, Hydrogen-Ion Concentration, Avidin, Crystallography, Protein Subunits, Monomer, chemistry, Mutation, biology.protein, Chromatography, Gel, Thermodynamics, Protein quaternary structure, Chickens

Abstract

Dual chain avidin (dcAvd) is an engineered avidin form, in which two circularly permuted chicken avidin monomers are fused into one polypeptide chain. DcAvd can theoretically form two different pseudotetrameric quaternary assemblies because of symmetry at the monomer-monomer interfaces. Here, our aim was to control the assembly of the quaternary structure of dcAvd. We introduced the mutation I117C into one of the circularly permuted domains of dcAvd and scanned residues along the 1-3 subunit interface of the other domain. Interestingly, V115H resulted in a single, disulfide locked quaternary assembly of dcAvd, whereas I117H could not guide the oligomerisation process even though it stabilised the protein. The modified dcAvd forms were found to retain their characteristic pseudotetrameric state both at high and low pH, and were shown to bind D-biotin at levels comparable to that of wild-type chicken avidin. The crystal structure of dcAvd-biotin complex at 1.95 Angstroms resolution demonstrates the formation of the functional dcAvd pseudotetramer at the atomic level and reveals the molecular basis for its special properties. Altogether, our data facilitate further engineering of the biotechnologically valuable dcAvd scaffold and gives insights into how to guide the quaternary structure assembly of oligomeric proteins.

Published

2006

28. Isolated hevein-like domains, but not 31-kd endochitinases, are responsible for IgE-mediated in vitro and in vivo reactions in latex-fruit syndrome

Author

Annika Kotovuori, S. Poikonen, Harri Alenius, Nisse Kalkkinen, Markku S. Kulomaa, Timo Reunala, Timo Palosuo, Kristiina Turjanmaa, Piia Karisola, and Einari A. Niskanen

Subjects

Adult, Male, Latex, Immunology, Molecular Sequence Data, Enzyme-Linked Immunosorbent Assay, medicine.disease_cause, Immunoglobulin E, Cross-reactivity, Microbiology, 03 medical and health sciences, 0302 clinical medicine, Food allergy, Chitin binding, Latex Hypersensitivity, medicine, Immunology and Allergy, Humans, Amino Acid Sequence, 030304 developmental biology, DNA Primers, Skin Tests, 0303 health sciences, biology, Sequence Homology, Amino Acid, Chemistry, Persea, Chitinases, food and beverages, Musa, Allergens, Middle Aged, medicine.disease, In vitro, Wheat germ agglutinin, 3. Good health, Protein Structure, Tertiary, 030228 respiratory system, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, biology.protein, Female, Antibody, Plant Lectins, Anaphylaxis, Food Hypersensitivity, Antimicrobial Cationic Peptides

Abstract

Background Individuals with natural rubber latex allergy often have immediate reactions to plant-derived foods and fresh fruits, such as avocado and banana. IgE of these patients has been shown to bind endochitinases containing an N-terminal hevein-like domain (HLD). However, evidence on 31-kd endochitinase-induced reactions in vivo is lacking. Objective We sought to assess the clinical significance of 31-kd endochitinases and isolated HLDs in latex-fruit syndrome. Methods The 31-kd endochitinases and corresponding HLDs were purified or produced from avocado, banana, latex, and wheat germ. Skin prick test reactivities against purified proteins were examined in 15 patients with natural rubber latex allergy. The binding efficiency of IgE to purified proteins was studied by using an inhibition ELISA. Experimentally resolved or modeled structures of the proteins were compared to clarify the molecular basis of clinical reactions. Results Eleven (73%) patients had skin prick test reactions to isolated HLDs of avocado and banana, but only 1 (7%) patient reacted to their corresponding 31-kd endochitinases. HLDs from avocado and banana inhibited binding of IgE to prohevein (Hev b 6.01) in 59% and 38% of patients, respectively, whereas corresponding percentages for 31-kd endochitinases were 17% and 20%, respectively. Isolated HLDs of wheat germ agglutinin and 18-kd wheat germ agglutinin did not significantly inhibit IgE binding to hevein. Conclusion The isolated HLD molecules alone, but not when linked to endochitinases, seem to be responsible for IgE-mediated clinical reactions in latex-fruit syndrome. Careful selection of relevant allergens in their proper molecular form is therefore crucial in forming a reliable diagnosis of latex-fruit syndrome.

Published

2005

29. Design and construction of highly stable, protease-resistant chimeric avidins

Author

Thomas K.M. Nyholm, Patrick S. Stayton, Olli H. Laitinen, Vesa P. Hytönen, Juha A. E. Määttä, David E. Hyre, Tuomas Kulomaa, Henri R. Nordlund, Markku S. Kulomaa, Eevaleena J. Porkka, Yael Eisenberg-Domovich, Einari A. Niskanen, Oded Livnah, Tiina Paldanius, and Jarno Hörhä

Subjects

Models, Molecular, Biotin binding, Insecta, Protein family, Protein subunit, Recombinant Fusion Proteins, Molecular Sequence Data, Biotin, Biosensing Techniques, Biology, Protein Engineering, Biochemistry, Protein Structure, Secondary, Protein structure, Animals, Amino Acid Sequence, Molecular Biology, Thermostability, Calorimetry, Differential Scanning, Sequence Homology, Amino Acid, Temperature, Cell Biology, Protein engineering, Avidin, Recombinant Proteins, Protein Structure, Tertiary, Kinetics, Microscopy, Fluorescence, Mutagenesis, Biotinylation, Mutation, biology.protein, Chromatography, Gel, Thermodynamics, Electrophoresis, Polyacrylamide Gel, Endopeptidase K, Baculoviridae, Chickens, Chromatography, Liquid, Peptide Hydrolases, Protein Binding

Abstract

The chicken avidin gene family consists of avidin and seven separate avidin-related genes (AVRs) 1-7. Avidin protein is a widely used biochemical tool, whereas the other family members have only recently been produced as recombinant proteins and characterized. In our previous study, AVR4 was found to be the most stable biotin binding protein thus far characterized (T(m) = 106.4 degrees C). In this study, we studied further the biotin-binding properties of AVR4. A decrease in the energy barrier between the biotin-bound and unbound state of AVR4 was observed when compared with that of avidin. The high resolution structure of AVR4 facilitated comparison of the structural details of avidin and AVR4. In the present study, we used the information obtained from these comparative studies to transfer the stability and functional properties of AVR4 to avidin. A chimeric avidin protein, ChiAVD, containing a 21-amino acid segment of AVR4 was found to be significantly more stable (T(m) = 96.5 degrees C) than native avidin (T(m) = 83.5 degrees C), and its biotin-binding properties resembled those of AVR4. Optimization of a crucial subunit interface of avidin by an AVR4-inspired point mutation, I117Y, significantly increased the thermostability of the avidin mutant (T(m) = 97.5 degrees C) without compromising its high biotin-binding properties. By combining these two modifications, a hyperthermostable ChiAVD(I117Y) was constructed (T(m) = 111.1 degrees C). This study provides an example of rational protein engineering in which another member of the protein family has been utilized as a source in the optimization of selected properties.

Published

2005

30. Trapping of 27 bp–8 kbp DNA and immobilization of thiol-modified DNA using dielectrophoresis

Author

Sampo Tuukkanen, Marcus Rinkiö, J. Jussi Toppari, Anton Kuzyk, Hannu Häkkinen, Vesa P. Hytönen, Päivi Törmä, Einari A. Niskanen, and Tampere University

Subjects

Materials science, FOS: Physical sciences, Bioengineering, Trapping, Condensed Matter - Soft Condensed Matter, law.invention, chemistry.chemical_compound, Confocal microscopy, law, General Materials Science, Physics - Biological Physics, Electrical and Electronic Engineering, Nanoscopic scale, chemistry.chemical_classification, Mechanical Engineering, Biomolecules (q-bio.BM), General Chemistry, Dielectrophoresis, Condensed Matter - Other Condensed Matter, Quantitative Biology - Biomolecules, chemistry, Biological Physics (physics.bio-ph), Mechanics of Materials, FOS: Biological sciences, Electrode, Thiol, Biophysics, Soft Condensed Matter (cond-mat.soft), Density functional theory, DNA, Other Condensed Matter (cond-mat.other)

Abstract

Dielectrophoretic trapping of six different DNA fragments, sizes varying from the 27 to 8416 bp, has been studied using confocal microscopy. The effect of the DNA length and the size of the constriction between nanoscale fingertip electrodes on the trapping efficiency have been investigated. Using finite element method simulations in conjunction with the analysis of the experimental data, the polarizabilities of the different size DNA fragments have been calculated for different frequencies. Also the immobilization of trapped hexanethiol- and DTPA-modified 140 nm long DNA to the end of gold nanoelectrodes was experimentally quantified and the observations were supported by density functional theory calculations., 17 pages (1 column version), 8 figures

Published

2007

31. N-terminal hevein-like domains (4.3 kDa) but not 31 kDa endochitinases are responsible for IgE-mediated in vitro and in vivo reactions in latex-fruit syndrome

Author

Annika Kotovuori, S. Poikonen, T. Reunala, Einari A. Niskanen, Nisse Kalkkinen, Kristiina Turjanmaa, Markku S. Kulomaa, Harri Alenius, Timo Palosuo, and Piia Karisola

Subjects

0303 health sciences, 03 medical and health sciences, 0302 clinical medicine, Ige mediated, 030228 respiratory system, Biochemistry, Chemistry, In vivo, Immunology, Immunology and Allergy, Molecular biology, In vitro, 030304 developmental biology

Published

2005

32. Introduction of histidine residues into avidin subunit interfaces allows pH-dependent regulation of quaternary structure and biotin binding

Author

Janne Savolainen, Einari A. Niskanen, Vesa P. Hytönen, Markku S. Kulomaa, Henri R. Nordlund, Olli H. Laitinen, Sanna T.H. Uotila, and Eevaleena J. Porkka

Subjects

Models, Molecular, Biotin binding, Insecta, Protein subunit, Biophysics, Biotin, Biosensing Techniques, Biochemistry, Cell Line, Protein structure, Structural Biology, Genetics, Animals, Histidine, pH dependence, Protein Structure, Quaternary, Molecular Biology, biology, Chemistry, Cell Biology, Protein engineering, Hydrogen-Ion Concentration, Avidin, Recombinant Proteins, Molecular Weight, Protein Subunits, Spectrometry, Fluorescence, Amino Acid Substitution, Biotinylation, biology.protein, Protein quaternary structure, Baculoviridae, Protein Binding

Abstract

In order to turn the subunit association and biotin binding of avidin into pH-sensitive phenomena, we have replaced individually three amino acid residues in avidin (Met96, Val115 and Ile117) with histidines in the 1–3 interface, and in combination with a histidine conversion in the 1–2 interface (Trp110). The single replacements Met96His and Val115His in the 1–3 interface were found to have a clear effect on the quaternary structure of avidin, since subunit associations of these mutants became pH-dependent. The histidine replacement in the 1–2 interface affected the biotin-binding properties of the mutants, in particular reversibility of binding and protein–ligand complex formation were pH-sensitive, as measured by IAsys biosensor and fluorescence correlation spectroscopy, respectively. The possibility of regulating the quaternary structure and function of avidin in a controlled and predictable manner, due to introduced interface histidines, will expand even further the range and versatility of the avidin–biotin technology.