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2. A subpopulation of Talin 1 resides in the nucleus and regulates\ud gene expression

Author

Da Silva, AJ, Hästbacka, HSE, Puustinen, MC, Pessa, JC, Goult, Benjamin T, Jacquemet, Guillaume, Henriksson, E, and Sistonen, L

Subjects
QH581.2
Abstract

Talin 1 (TLN1) is best known for its role at focal adhesions, where it activates β-integrin\ud receptors and transmits mechanical stimuli to the actin cytoskeleton. Interestingly, the\ud localization of TLN1 is not restricted to the focal adhesions, but its function in other cellular\ud compartments remains poorly understood. By utilizing both biochemical and confocal\ud microscopy analyses, we show that TLN1 localizes to the nucleus and that it strongly\ud interacts with the chromatin. Importantly, depletion of endogenous TLN1 results in extensive\ud changes in the gene expression profile of human breast epithelial cells. To determine the\ud impact of nuclear TLN1 on gene regulation, we expressed a TLN1 fusion protein containing\ud a nuclear localization signal. Our results reve aled that nuclear TLN1 regulates a specific\ud subset of the TLN1-dependent genes. Taken together, we show that apart from localizing at\ud the plasma membrane and cytoplasm, TLN1 also resides in the nucleus where it functions in\ud the regulation of gene expression.

Published
2022

3. Quantifying RNA synthesis at rate-limiting steps of transcription using nascent RNA-sequencing data

Author

Rabenius, Adelina, Chandrakumaran, Sajitha, Sistonen, L., Vihervaara, A., Rabenius, Adelina, Chandrakumaran, Sajitha, Sistonen, L., and Vihervaara, A.

Abstract

Nascent RNA-sequencing tracks transcription at nucleotide resolution. The genomic distribution of engaged transcription complexes, in turn, uncovers functional genomic regions. Here, we provide analytical steps to (1) identify transcribed regulatory elements de novo genome-wide, (2) quantify engaged transcription complexes at enhancers, promoter-proximal regions, divergent transcripts, gene bodies, and termination windows, and (3) measure distribution of transcription machineries and regulatory proteins across functional genomic regions. This protocol tracks engaged transcription complexes across functional genomic regions demonstrated in human K562 erythroleukemia cells. For complete details on the use and execution of this protocol, please refer to Vihervaara et al. (2021)., QC 20220930

Published
2022
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4. HSFs drive transcription of distinct genes and enhancers during oxidative stress and heat shock

Author

Himanen, S. V., Puustinen, M. C., Da Silva, A. J., Vihervaara, Anniina, Sistonen, L., Himanen, S. V., Puustinen, M. C., Da Silva, A. J., Vihervaara, Anniina, and Sistonen, L.

Abstract

Reprogramming of transcription is critical for the survival under cellular stress. Heat shock has provided an excellent model to investigate nascent transcription in stressed cells, but the molecular mechanisms orchestrating RNA synthesis during other types of stress are unknown. We utilized PRO-seq and ChIP-seq to study how Heat Shock Factors, HSF1 and HSF2, coordinate transcription at genes and enhancers upon oxidative stress and heat shock. We show that pause-release of RNA polymerase II (Pol II) is a universal mechanism regulating gene transcription in stressed cells, while enhancers are activated at the level of Pol II recruitment. Moreover, besides functioning as conventional promoter-binding transcription factors, HSF1 and HSF2 bind to stress-induced enhancers to trigger Pol II pause-release from poised gene promoters. Importantly, HSFs act at distinct genes and enhancers in a stress type-specific manner. HSF1 binds to many chaperone genes upon oxidative and heat stress but activates them only in heat-shocked cells. Under oxidative stress, HSF1 localizes to a unique set of promoters and enhancers to trans-activate oxidative stress-specific genes. Taken together, we show that HSFs function as multi-stress-responsive factors that activate distinct genes and enhancers when encountering changes in temperature and redox state., QC 20230515

Published
2022
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6. Editorial Acknowledgment

Author

Aarvak, T., Abedi-Valugerdi, M., Abrahamsen, T., Akdis, C., Akuffo, H.O., Alarcon-Riquelme, M., Andersen, P., Arstila, P., Austgulen, R., Baecker-Allan, C., Baggiolini, M., Baker, B.S., Bakke, O., Bakken, V., Barclay, A.N., Bemark, M., Benestad, H.B., Berzins, K., Bjerkvik, R., Bjørge, L., Bland, P., Bolstad, A.I., Born, W., Bowman, S., Brinchmann, J., Britton, S., Brokstad, K.A., Brunet, L.R., Bruserud, Ø., Cardona, P.J., Ceyppens, J.L., Cirino, G., Cohn, M., Cox, R.J., Cunliffe, J., Dahlgren, U., Dellacasagrande, J., Ditzel, H., Dobryszycka, E., Dyrhol-Riise, A.M., Edwards, J.C., Egeland, T., Elsayed, S., Eray, M., Erb, K.J., Esch, T., Eugen-Olsen, J., Everse, L.A., Fagerhol, M., Farstad, I., Feldmann, M., Fernandez, C., Fleck, M., Franksson, R., Freitas, A., Garred, P., Gidlund, M., Gilhus, N.E., Goldbach-Mansky, R., Gordon, J., Gordon, T., Grandien, A., Gregerson, P., Grewal, H., Hakulinen, J., Halstensen, T., Haneberg, B., Hanej, S.H.E., Hansen, T., Harley, J.B., Haukenes, G., Hengartner, H., Henz, B.M., Holen, E., Hurme, M., Husby, G., Husby, S., Hörnqvist-Hultgren, E., Haaheim, L.R., Isenberg, D., Jahnson, F., Jakobsen, H., James, J.A., Jansson, J.O., Jarva, H., Jeansson, S., Johannessen, A.C., Johansen, F.E., Julkunen, I., Kalland, K.H., Kaye, J., Kazatchkine, M., Kihlström, E., Kohler, L., Konttinen, Y., Kotenko, S., Koutzov, S., Krammer, P., Kristoffersen, E., Kunzendorf, U., Lachmann, P., Langman, R., Langner, J., Lanzavecchia, L., Lappalainen, M., Laskay, T., Lea, T., Lefvert, A.K., Lehmann, A.C., Louka, A, Lúdviksson, B.R., Mariette, X., Marion, T., Marker-Herrmann, E., Mattsson, R., McAdam, S., Mellbye, O.J., Mellgren, G., Mellgren, S.I., Mestecky, J., Michaelsen, T., Michalek, S., Miettinen, A., Moestrup, S.K., Moretta, A., Moser, M., Mountz, J., Moutsopoulos, H., Munthe, L.A., Mustafa, T., Myrmel, H., Nannemark, G., Netea, M.G., Nilsen, R., Notarangelo, L.D., Ögmundsdóttir, H., Olsson, I., Olweus, J., Osland, A., Paludan, S.R., Parsons, K.R., Patarroyo, M., Paul, W.E., Perlman, P., Pollock, J.M., Puolakkainen, M., Quale, A., Rajewsky, K., Raman, C., Reichlin, M., Renkonen, R., Rese Shadidi, K., Ricciardi-Castagnoli, P., Rickinson, A.B., Ringdén, O., Risto, R., Rodinov, D., Rosenkrands, I., Rottenberg, M., Russel, M., Rygaard, J., Rødahl, E., Röllinghof, M., Sandberg, M., Schenk, K., Seppälä, I., Shevach, E., Shortman, K., Siegrist, C.A., Sigurdardóttir, S., Silvennoinen, O., Sinigaglia, F., Sistonen, L., Skarstein, K., Skogh, T., Smith, E., Spurkland, A., Stendahl, O., Sugden, B., Suri-Payer, E., Svennerholm, A.M., Szodoray, P., Theofilopoulos, A., Thorley-Lawson, D.A., Timonen, T., Trowsdale, J., Tuomo, T., Ulmer, A.J., Ulvestad, E., Ulvik, R., Vaerman, J.P., van, der Merwe J.P., van Eden, W., Vedeler, C., Vintermyr, O.K., Vyse, J., Wahlgren, M., Wahren-Herlenius, M., Walsh, L.J., Weetman, A.P., Westermark, P., Wiker, H., Yang, J., Yewdell, J.W., Youinou, P., and Zouali, M.

Published
2002

7. Sumoylation of Notch1 represses its target gene expression during cell stress

Author

Antila, C.J.M., Rraklli, V., Blomster, H.A., Dahlström, K.M., Salminen, T.A., Holmberg, J., Sistonen, L., Sahlgren, C.M., Antila, C.J.M., Rraklli, V., Blomster, H.A., Dahlström, K.M., Salminen, T.A., Holmberg, J., Sistonen, L., and Sahlgren, C.M.

Abstract

The Notch signaling pathway is a key regulator of stem cells during development, and its deregulated activity is linked to developmental defects and cancer. Transcriptional activation of Notch target genes requires cleavage of the Notch receptor in response to ligand binding, production of the Notch intracellular domain (NICD1), NICD1 migration into the nucleus, and assembly of a transcriptional complex. Post-translational modifications of Notch regulate its trafficking, turnover, and transcriptional activity. Here, we show that NICD1 is modified by small ubiquitin-like modifier (SUMO) in a stress-inducible manner. Sumoylation occurs in the nucleus where NICD1 is sumoylated in the RBPJ-associated molecule (RAM) domain. Although stress and sumoylation enhance nuclear localization of NICD1, its transcriptional activity is attenuated. Molecular modeling indicates that sumoylation can occur within the DNA-bound ternary transcriptional complex, consisting of NICD1, the transcription factor Suppressor of Hairless (CSL), and the co-activator Mastermind-like (MAML) without its disruption. Mechanistically, sumoylation of NICD1 facilitates the recruitment of histone deacetylase 4 (HDAC4) to the Notch transcriptional complex to suppress Notch target gene expression. Stress-induced sumoylation decreases the NICD1-mediated induction of Notch target genes, which was abrogated by expressing a sumoylation-defected mutant in cells and in the developing central nervous system of the chick in vivo. Our findings of the stress-inducible sumoylation of NICD1 reveal a novel context-dependent regulatory mechanism of Notch target gene expression.

Published
2018

11. HSF2 contributes to inducible expression of hsps through interplay with HSF1

Author

Östling, P., Björk, J., Roos-Mattjus, P., Mezger, V., Sistonen, L., Régulation de l'expression génétique (REG), Département de Biologie - ENS Paris, École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-École normale supérieure - Paris (ENS Paris), Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Centre National de la Recherche Scientifique (CNRS), and Duponchelle, Martine

Subjects
[SDV.BBM] Life Sciences [q-bio]/Biochemistry, Molecular Biology, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2007

12. Suppression of Fas/APO-1-mediated apoptosis by mitogen-activated kinase signaling

Author

Th, Holmström, Sc, Chow, Elo I, Eleanor Coffey, Orrenius S, Sistonen L, and Je, Eriksson

Subjects
Enzyme Activation, Flavonoids, Jurkat Cells, T-Lymphocytes, Calcium-Calmodulin-Dependent Protein Kinases, Tumor Cells, Cultured, Humans, Apoptosis, fas Receptor, Lymphocyte Activation
Abstract

Jurkat T cells undergo rapid apoptosis upon stimulation of the Fas/APO-1 (CD95) receptor. We examined the role of the mitogen-activated protein kinase (MAPK) cascade as a negative regulator of Fas-mediated apoptosis. To this end, we used both physiologic and artificial activators of MAPK, all of which activate MAPK by distinct routes. MAPK activity could be efficiently elevated by two T cell mitogens, the lectin PHA and an agonistic Ab to the T cell receptor complex as well as by the type 1 and 2A phosphatase inhibitor, calyculin A, and the protein kinase C-activating phorbol ester, tetradecanoyl phorbol acetate. All these treatments were effective in preventing the characteristic early and late features of Fas-mediated apoptosis, including activation of caspases. Our results indicate that the elevated MAPK activities intervene upstream of caspase activation. The degree of MAPK activation by the different stimuli used in our study corresponds well to their potency to inhibit apoptosis, indicating that MAPK activation serves as an efficient modulator of Fas-mediated apoptosis. The role of MAPK in modulation of Fas-mediated apoptosis was further corroborated by transient transfection with constitutively active MAPK kinase, resulting in complete inhibition of the Fas response, whereas transfection with a dominant negative form of MAPK kinase had no effect. Furthermore, the apoptosis inhibitory effect of the MAPK activators could be abolished by the specific MAPK kinase inhibitor PD 098059. Modulation of Fas responses by MAPK signaling may determine the persistence of an immune response and may explain the insensitivity of recently activated T cells to Fas receptor stimulation.

Published
1998

22. £89.00, A point worth stressing. In: U. Feige, R.I. Morimoto, I. Yahara and B.S. Polla, Editors, , Birkhäuser (1996) ISBN 3 7643 5205 1, p. 492.O. Bensaude, C. Babinet, M. Morance and F. Jacob, (1983), pp. 331–333.E. Christians, E. Michel, P. Adenot, M. Rallu, M. Morance and J-P. Renard, (1997), pp. 778–788. In: R.I. Morimoto, A. Tissières and C. Georgopoulos, Editors, , Cold Spring Harbor Laboratory Press (1994).J.S. Cox and P. Walter, (1996), pp. 391–404.M.M. Hiller, A. Finger, M. Schweiger and D.H. Wolf, (1996), pp. 1725–1728.C. Wu, (1995), pp. 441–469.

Author

MAKAROW, M, primary and SISTONEN, L, additional

Published
1997
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30. Evidence that the p38 MAP kinase pathway is dysregulated in HLA-B27-expressing human monocytic cells: correlation with HLA-B27 misfolding.

Author

Sahlberg AS, Penttinen MA, Heiskanen KM, Colbert RA, Sistonen L, and Granfors K

Abstract

OBJECTIVE: To investigate the cause of the enhanced intracellular replication of Salmonella enteritidis in HLA-B27-transfected U937 human monocytic cells and the contribution of HLA-B27 heavy chain (HC) misfolding. METHODS: U937 monocytic cell transfectants stably expressing pSV2neo resistant vector (mock), wild-type HLA-B27, or mutated HLA-B27 HCs with amino acid substitutions in the B pocket were differentiated, infected with S enteritidis, and treated with signaling pathway inhibitors or specific p38 small interfering RNA (siRNA). The numbers of living intracellular bacteria were determined with the colony-forming unit method. To visualize S enteritidis, the bacteria were transformed with green fluorescent protein, and studied by microscopy. RESULTS: Treatment with the p38 MAPK inhibitors or with p38 siRNA enhanced the replication of S enteritidis in U937 transfectants, whereas the other inhibitors had no effect. In mock-transfected cells and in cells expressing the mutated B27 HCs in which the misfolding had been corrected, p38 inhibitors impaired their ability to resist the replication of bacteria (mock, B27.A2B, B27.E45M, and B27.C67A). In contrast, the number of intracellular bacteria was not significantly increased in p38 inhibitor-treated cells expressing misfolded B27 HCs (B27g, B27cDNA, and B27.H9F). CONCLUSION: Our results show that p38 activity plays a crucial role in controlling intracellular S enteritidis in U937 cells. Enhanced replication of bacteria in B27-expressing cells requires that the HCs contain glutamic acid at position 45 and cysteine at position 67. Furthermore, in transfectants expressing misfolded B27 HCs, p38 inhibition had no significant effect on bacterial replication, suggesting that in these cells, the p38 pathway may not function properly. [ABSTRACT FROM AUTHOR]

Published
2007
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33. Evidence for common pharmacological properties of [H]5-hydroxytryptamine binding sites, presynaptic 5-hydroxytryptamine autoreceptors in CNS and inhibitory presynaptic 5-hydroxytryptamine receptors on sympathetic nerves.

Author

Engel, G., Göthert, M., Müller-Schweinitzer, E., Schlicker, E., Sistonen, L., and Stadler, P.

Abstract

The affinities of 16 5-hydroxytryptamine (5-HT) receptor agonists (indole derivatives) and 7 5-HT receptor antagonists for [H]5-hydroxytryptamine ([H]5-HT) binding sites in rat cerebral cortex membranes were determined. In addition, the potencies of the agonists for inhibiting the electrically induced tritium overflow from rat brain cortex slices preincubated with [H]5-HT and from canine saphenous veins preincubated with [H]noradrenaline were measured. Furthermore, the potencies of the indole derivatives for inducing contractile responses of canine saphenous veins were recorded. In addition, the interaction of the antagonists with unlabelled 5-HT at the 5-HT autoreceptor was studied in rat brain cortex slices. There was a good correlation between the binding affinities of the indole derivatives for the [H]5-HT sites of rat brain cortex membranes and their potencies for inhibiting the evoked tritium overflow from both rat brain cortex slices and strips of canine saphenous vein. Comparison of the inhibition constants derived from the overflow experiments in both tissues again revealed a high correlation coefficient while there was only weak correlation between the binding affinities in rat brain cortex and the contractile potencies of the drugs in canine saphenous vein strips. When 5-HT receptor antagonists were investigated, metitepin and metergoline showed moderate affinities for the 5-HT autoreceptors in rat brain cortex slices, whereas quipazine had only weak affinity, and ketanserin, metoclopramide, cinanserin and cyproheptadine exhibited no antagonistic property. In binding experiments, the competition curves of most 5-HT receptor antagonists were biphasic, suggesting that the [H]5-HT binding sites are heterogeneous. The affinities of the antagonists to the low affinity binding sites were roughly in accordance with their affinities for the 5-HT autoreceptors determined in release experiments. It is concluded that [H]5-HT binding sites, presynaptic 5-HT autoreceptors in the rat brain cortex and inhibitory presynaptic 5-HT receptors on sympathetic nerve endings in the canine saphenous vein possess common pharmacological properties. In the rat brain cortex, the 5-HT sites are not homogeneous. Part of the [H]5-HT binding sites (low affinity sites rather than high affinity sites) may be localized on the serotoninergic neurones and, hence, be identical with the serotonin autoreceptors. The results are also compatible with the suggestion that there may exist even more than two subtypes of [H]5-HT binding sites in the rat brain cortex. [ABSTRACT FROM AUTHOR]

Published
1983
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34. Differential induction of Hsp70-encoding genes in human hematopoietic cells.

Author

Leppä, S, Kajanne, R, Arminen, L, and Sistonen, L

Abstract

The rapid transcriptional activation of heat shock genes in response to stress is crucial for the cellular survival and the development of thermotolerance. Although heat shock response is a widespread phenomenon, certain cells exhibit a diminished induction of heat shock gene expression upon stress stimuli. Here we have analyzed the development of thermotolerance and induction of distinct Hsp70 encoding genes in three cell lines representing different hematopoietic cell types. We show that in response to heat shock, cell survival and induction of thermotolerance are impaired in Raji and HL60 cells, as compared with K562 cells. Accordingly, transcriptional induction of the hsp70 gene is diminished in Raji and HL60 cells. This appears to be due to inability of transcription factors, including HSF1 to bind to the hsp70.1 promoter in vivo. Consistent with the genomic footprint, analysis of hsp70.1 mRNA expression using a specific 3'-untranslated region probe reveals that induction of the hsp70.1 gene upon heat shock is completely abolished in Raji and HL60 cells. The suppression of the hsp70.1 promoter is not caused by impaired function of HSF1, since HSF1 is equally activated in all cell types and occupies another heat-inducible promoter, hsp90 alpha. Furthermore, among distinct inducible hsp70 genes, suppression seems to be specific for the hsp70.1 gene, since heat shock results in induction of hsp70.2 and hsp70B' mRNA expression in all cell lines. Taken together, our results demonstrate that distinct Hsp70-encoding genes contribute to the heat shock response in a cell type-dependent manner.

Published
2001
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36. The cellular response to induction of the p21 c‐Ha‐ras oncoprotein includes stimulation of jun gene expression.

Author

Sistonen, L., Hölttä, E., Mäkelä, T. P., Keski‐Oja, J., and Alitalo, K.

Abstract

We have studied the effects of c‐Ha‐ras oncogene in mouse NIH 3T3 fibroblasts by DNA transfection and analysis of gene expression at the mRNA and protein level in a heat‐ and heavy metal‐inducible model system. The human c‐Ha‐ras proto‐oncogene and oncogene were cloned under the hsp70 heat‐shock promoter. Clonal lines of cells with negligible basal expression of the hsp‐c‐Ha‐ras oncogene construct were chosen on the basis of the inducibility of p21c‐Ha‐ras protein and several transformation parameters. We demonstrate that the expression of ornithine decarboxylase (ODC) mRNA is enhanced approximately 4‐6 h after the induction of the p21c‐Ha‐ras oncoprotein. This increase was reversible upon cessation of c‐Ha‐ras mRNA and protein synthesis, while constitutively elevated ODC was characteristic for stably c‐Ha‐ras‐transformed cells. The high‐level expression of ODC in ras‐transformed cells was insensitive to tumour promoter stimulation. A similar mRNA induction by c‐Ha‐rasVal‐12 was also observed for two other serum‐ and tumour promoter‐regulated genes associated with the transformed phenotype: transin (stromelysin) and the glucose transporter. This prompted us to examine also potential changes in the expression of the serum‐ and tumour promoter‐induced transcription factor genes junB and c‐jun after induction of the hsp–c‐Ha‐ras construct. The junB mRNA was enhanced approximately 10‐fold and the c‐jun oncogene mRNA to a lesser degree in the hsp–c‐Ha‐ras‐transfected cells after zinc activation of the hsp70 promoter. These effects were not seen in similarly treated control cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1989
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37. A chimeric EGF‐R‐neu proto‐oncogene allows EGF to regulate neu tyrosine kinase and cell transformation.

Author

Lehväslaiho, H., Lehtola, L., Sistonen, L., and Alitalo, K.

Abstract

The neu oncogene, characterized by Weinberg and colleagues, is a transforming gene found in ethylnitrosourea‐induced rat neuro/glioblastomas; its human proto‐oncogene homologue has been termed erbB2 or HER2 because of its close homology with the epidermal growth factor receptor (EGF‐R) gene (c‐erbB1). Expression of the rat neu oncogene is sufficient for transformation of mouse NIH 3T3 fibroblasts in culture and for the development of mammary carcinomas in transgenic mice, but the neu proto‐oncogene has not been associated with cell transformation. We constructed a vector for expression of a chimeric cDNA and hybrid protein consisting of the EGF‐R extracellular, transmembrane and protein kinase C‐substrate domains linked to the intracellular tyrosine kinase and carboxyl terminal domain of the rat neu cDNA. Upon transfection with the construct, NIH 3T3 cells gave rise to EGF‐R antigen‐positive cell clones with varying amounts of specific EGF binding. Immunofluorescence and immunoprecipitation using neu‐ and EGF‐receptor specific antibodies demonstrated a correctly oriented and positioned chimeric EGF‐R‐neu protein of the expected apparent mol. wt on the surface of these cells. EGF or TGF alpha induced tyrosine phosphorylation of the chimeric receptor protein, stimulated DNA synthesis of EGF‐R‐neu expressing cells and led to a transformed cell morphology and growth in soft agar. In contrast, the neu proto‐oncogene did not show kinase activity or transforming properties when expressed at similar levels in NIH 3T3 cells.(ABSTRACT TRUNCATED AT 250 WORDS)

Published
1989
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38. Conventional and novel PKC isoenzymes modify the heat-induced stress response but are not activated by heat shock.

Author

Holmberg, C I, Roos, P M, Lord, J M, Eriksson, J E, and Sistonen, L

Abstract

In mammalian cells, the heat-induced stress response is mediated by the constitutively expressed heat shock transcription factor 1 (HSF1). Upon exposure to elevated temperatures, HSF1 undergoes several post-translational modifications, including inducible phosphorylation or hyperphosphorylation. To date, neither the role of HSF1 hyperphosphorylation in regulation of the transcriptional activity of HSF1 nor the signaling pathways involved have been characterized. We have previously shown that the protein kinase C (PKC) activator, 12-O-tetradecanoylphorbol 13-acetate (TPA), markedly enhances the heat-induced stress response, and in the present study we elucidate the mechanism by which PKC activation affects the heat shock response in human cells. Our results show that several conventional and novel PKC isoenzymes are activated during the TPA-mediated enhancement of the heat shock response and that the enhancement can be inhibited by the specific PKC inhibitor bisindolylmaleimide I. Furthermore, the potentiating effect of TPA on the heat-induced stress response requires an intact heat shock element in the hsp70 promoter, indicating that PKC-responsive pathways are able to modulate the activity of HSF1. We also demonstrate that PKC is not activated by heat stress per se. These results reveal that PKC exhibits a significant modulatory role of the heat-induced stress response, but is not directly involved in regulation of the heat shock response.

Published
1998

39. Thioredoxin is transcriptionally induced upon activation of heat shock factor 2.

Author

Leppä, S, Pirkkala, L, Chow, S C, Eriksson, J E, and Sistonen, L

Abstract

Heat shock gene expression is differentially regulated in cells exposed to stress stimuli and in cells undergoing processes of differentiation and development. Regulation of the classical heat shock response is mediated by heat shock factor 1 (HSF1), whereas heat shock factor 2 (HSF2) is activated in certain differentiating cells, for example during hemin-mediated differentiation of human K562 erythroleukemia cells. Hence, the signaling pathways leading to induction of heat shock gene expression upon different stimuli are likely to be distinct. We have used RNA arbitrarily primed polymerase chain reaction to identify genes that are differentially regulated upon activation of HSF1 and HSF2. In this study, we report that thioredoxin (TRX) expression is induced in K562 cells in response to hemin in an HSF2-dependent manner. Increased TRX expression was primarily detected on the transcriptional level, subsequently leading to elevated TRX mRNA and protein levels. Hemin treatment caused no reduction in cellular glutathione concentrations, indicating that the increased TRX expression was not due to oxidative stress. Studies using cell lines where overexpression of the HSF2-beta isoform represses HSF2 activation implied that active HSF2 is required for transcriptional induction of TRX. Unlike HSF2, activation of HSF1 did not induce TRX expression. Taken together, our results suggest that HSF1 and HSF2 may regulate distinct target genes, and activation of HSF2 could be involved in the regulation of TRX expression during hemin-mediated differentiation of K562 cells.

Published
1997

40. Overexpression of HSF2-beta inhibits hemin-induced heat shock gene expression and erythroid differentiation in K562 cells.

Author

Leppä, S, Pirkkala, L, Saarento, H, Sarge, K D, and Sistonen, L

Abstract

Acquisition of heat shock factor 2 (HSF2) DNA binding activity is accompanied by induced transcription of heat shock genes in hemin-treated K562 cells undergoing erythroid differentiation. Previous studies revealed that HSF2 consists of two alternatively spliced isoforms, HSF2-alpha and HSF2-beta, whose relative abundance is developmentally regulated and varies between different tissues. To investigate whether the molar ratio of HSF2-alpha and HSF2-beta isoforms is crucial for the activation of HSF2 and whether the HSF2 isoforms play functionally distinct roles during the hemin-mediated erythroid differentiation, we generated cell clones expressing different levels of HSF2-alpha and HSF2-beta. We show that in parental K562 cells, the HSF2-alpha isoform is predominantly expressed and HSF2 can be activated upon hemin treatment. In contrast, when HSF2-beta is expressed at levels exceeding those of endogenous HSF2-alpha, the hemin-induced DNA binding activity and transcription of heat shock genes are repressed, whereas overexpression of HSF2-alpha results in an enhanced hemin response. Furthermore, the hemin-induced accumulation of globin, known as a marker of erythroid differentiation, is decreased in cells overexpressing HSF2-beta. We suggest that HSF2-beta acts as a negative regulator of HSF2 activity during hemin-mediated erythroid differentiation of K562 cells.

Published
1997

41. The phorbol ester 12-O-tetradecanoylphorbol 13-acetate enhances the heat-induced stress response.

Author

Holmberg, C I, Leppä, S, Eriksson, J E, and Sistonen, L

Abstract

Induction of heat shock gene expression is mediated by specific heat shock transcription factors (HSFs), but the signaling pathways leading to activation of HSFs are poorly understood. To elucidate whether protein kinase C-responsive signaling pathways could be involved in the regulation of heat shock gene expression, we have examined the effects of the protein kinase C activator 12-O-tetradecanoylphorbol 13-acetate (TPA) on the heat-induced stress response in K562 cells. We demonstrate that TPA treatment markedly enhances heat shock gene expression during heat stress, although TPA alone does not induce the heat shock response. This TPA-mediated enhancement can initially be detected as an accelerated acquisition of DNA binding and transcriptional activity of HSF1 resulting in elevated Hsp70 protein concentrations. In the presence of TPA, the attenuation of HSF1 DNA binding activity during continuous exposure to heat shock occurs more rapidly and in concert with the appearance of newly synthesized Hsp70, which supports earlier studies on the autoregulatory role of Hsp70 in deactivation of HSF1. During heat stress, a correlation between the hyperphosphorylation of HSF1 and its transcriptional activity was observed, in both the presence and the absence of TPA. Our results show that the heat-induced stress response can be significantly modulated by activation of protein kinase C-responsive signaling pathways.

Published
1997

42. The mechanisms of ornithine decarboxylase deregulation in c-Ha-ras oncogene-transformed NIH 3T3 cells.

Author

Hölttä, E, Sistonen, L, and Alitalo, K

Abstract

NIH 3T3 cells transformed with the human c-Ha-rasVal-12 oncogene showed markedly enhanced activity of ornithine decarboxylase (ODC), the key enzyme of polyamine biosynthesis, as compared with their nontransformed counterparts. While in normal and in c-Ha-ras proto-oncogene-transfected cells stimulation with serum caused a transient induction of ODC, in cells transfected with the mutant c-Ha-ras oncogene the activity of ODC persisted at high levels for greatly extended periods of time. The amounts of immunoreactive ODC protein roughly paralleled the changes in the enzyme activity. The augmentation of ODC content by transformation could be largely, but not solely, accounted for by an enhanced accumulation of ODC mRNA. Nuclear run-off transcription assays demonstrated that in transformed cells the rate of transcription of the ODC gene was increased but to a much lower extent than the increase in the level of ODC mRNA. The turnover of ODC mRNA, as measured after actinomycin D treatment, was negligible in transformed cells for up to 8 h, whereas in normal cells the messenger content was initially decreased, by 40% within 4 h, and then remained constant. In normal cells, however, actinomycin D depressed the expression of ODC by more than 80%, while in transformed cells the activity of ODC was slightly superinduced, corresponding to the changes of ODC mRNA. These findings suggest that labile proteins may be involved in the regulation of both the stability and translatability of the ODC mRNA. Transformation led also to about 3-fold stabilization of ODC as determined by an exposure of the cells to cycloheximide. The results thus suggest ODC deregulation at multiple levels in the ras-oncogene-transformed cells.

Published
1988
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43. Evidence for common pharmacological properties of [3H]5-hydroxytryptamine binding sites, presynaptic 5-hydroxytryptamine autoreceptors in CNS and inhibitory presynaptic 5-hydroxytryptamine receptors on sympathetic nerves

Author

Engel, G., Göthert, M., Müller-Schweinitzer, E., Schlicker, E., Sistonen, L., and Stadler, P. A.

Abstract

The affinities of 16 5-hydroxytryptamine (5-HT) receptor agonists (indole derivatives) and 7 5-HT receptor antagonists for [3H]5-hydroxytryptamine ([3H]5-HT) binding sites in rat cerebral cortex membranes were determined. In addition, the potencies of the agonists for inhibiting the electrically induced tritium overflow from rat brain cortex slices preincubated with [3H]5-HT and from canine saphenous veins preincubated with [3H]noradrenaline were measured. Furthermore, the potencies of the indole derivatives for inducing contractile responses of canine saphenous veins were recorded. In addition, the interaction of the antagonists with unlabelled 5-HT at the 5-HT autoreceptor was studied in rat brain cortex slices.

Published
1983
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44. Activation of the neu tyrosine kinase induces the fos/jun transcription factor complex, the glucose transporter and ornithine decarboxylase.

Author

Sistonen, L, Hölttä, E, Lehväslaiho, H, Lehtola, L, and Alitalo, K

Abstract

We have studied the ability of the neu tyrosine kinase to induce a signal for the activation of cell growth-regulated genes. Serum-starved NIH 3T3 cells expressing an epidermal growth factor receptor (EGF-R)/neu construct encoding a hybrid receptor protein were stimulated with EGF and the activation of the neu tyrosine kinase and stimulation of growth factor inducible genes were followed at the mRNA, protein, and activity levels, and compared to the corresponding responses in the neu proto-oncogene and oncogene expressing cells. Induction of the expression of jun mRNAs was an immediate early effect of EGF stimulation, followed by a marked increase in the biosynthesis of the fos/jun transcription factor complex and an increased transcription factor activity as measured by a recombinant transcription unit using chloramphenicol acetyltransferase assays. In distinction, elevated AP-1/PEA-1 activity in the absence of a significant increase in jun and fos expression was characteristic of the neu oncogene-expressing cells. The glucose transporter mRNA increased at 2 h of EGF stimulation and was associated with enhanced glucose transport of the EGF-treated cells. An increase of ornithine decarboxylase (ODC) mRNA and activity followed these changes. In contrast, serum-starved, EGF-treated neu proto-oncogene- and oncogene-expressing cells showed constitutively low and high glucose transporter and ODC activities, respectively. These findings demonstrate that the chimeric EGF-R/neu receptor is capable of activating the expression of both immediate early genes and biochemical activities associated with cell growth stimulation.

Published
1989
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45. Enhanced jun gene expression is an early genomic response to transforming growth factor beta stimulation

Author

Pertovaara, L, Sistonen, L, Bos, T J, Vogt, P K, Keski-Oja, J, and Alitalo, K

Abstract

Transforming growth factor beta (TGF beta) is a multifunctional polypeptide that regulates proliferation, differentiation, and other functions of many cell types. The pathway of TGF beta signal transduction in cells is unknown. We report here that an early effect of TGF beta is an enhancement of the expression of two genes encoding serum- and phorbol ester tumor promoter-regulated transcription factors: the junB gene and the c-jun proto-oncogene, respectively. This stimulation was observed in human lung adenocarcinoma A549 cells which were growth inhibited by TGF beta, AKR-2B mouse embryo fibroblasts which were growth stimulated by TGF beta, and K562 human erythroleukemia cells, which were not appreciably affected in their growth by TGF beta. The increase in jun mRNA occurred with picomolar TGF beta concentrations within 1 h of TGF beta stimulation, reached a peak between 1 and 5 h in different cells, and declined gradually to base-line levels. This mRNA response was followed by a large increase in the biosynthesis of the c-jun protein (AP-1), as shown by metabolic labeling and immunoprecipitation analysis. However, differential and cell type-specific regulation appeared to determine the timing and magnitude of the response of each jun gene in a given cell. In AKR-2B and NIH 3T3 cells, only junB was induced by TGF beta, evidently in a protein synthesis-independent fashion. The junB response to TGF beta was maintained in c-Ha-ras and neu oncogene-transformed cells. Thus, one of the earliest genomic responses to TGF beta may involve nuclear signal transduction and amplification by the junB and c-jun transcription factors in concert with c-fos, which is also induced. The differential activation of the jun genes may explain some of the pleiotropic effects of TGF beta.

Published
1989
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46. Effect of sodium salicylate on the human heat shock response.

Author

Jurivich, D.A. and Sistonen, L.

Subjects
*BIOCHEMISTRY
Abstract

Reports on research into the effects of sodium salicylate, an anti-inflammatory agent, on the heat shock response in human cultured cells. Comparison of salicylate activation of DNA binding by the heat shock transcription factor (HSF) and activation attained during heat shock; Failure of sodium salicylate to induce heat shock gene transcription; Multistep process involved in activation of the heat shock transcriptional response.

Published
1992
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