Your search keyword '"Merilahti P"' showing total 32 results

1. An extracellular receptor tyrosine kinase motif orchestrating intracellular STAT activation

Author

Katri Vaparanta, Anne Jokilammi, Mahlet Tamirat, Johannes A. M. Merilahti, Kari Salokas, Markku Varjosalo, Johanna Ivaska, Mark S. Johnson, and Klaus Elenius

Subjects

Science

Abstract

Specificity in signaling activated by receptor tyrosine kinases is typically attributed to characteristics of their intracellular domains. Here, the authors demonstrate that an extracellular receptor sequence motif controls intracellular signaling as a result of extracellular glycan interactions.

Published

2022

2. STAT5b is a key effector of NRG‐1/ERBB4‐mediated myocardial growth

Author

Vaparanta, Katri, Jokilammi, Anne, Paatero, Ilkka, Merilahti, Johannes A, Heliste, Juho, Hemanthakumar, Karthik Amudhala, Kivelä, Riikka, Alitalo, Kari, Taimen, Pekka, and Elenius, Klaus

Published

2023

3. Isolation and characterization of phage display-derived scFv antibodies against human parechovirus 1 VP0 protein

Author

Eero Hietanen, Lav Tripathi, Eeva-Christine Brockmann, Pirjo Merilahti, Urpo Lamminmäki, and Petri Susi

Subjects

Medicine, Science

Abstract

Abstract Human parechoviruses (PeVs) are common viruses that are associated with a variety of diseases from mild gastrointestinal and respiratory symptoms to severe central nervous system infections. Until now there has not been antibodies for visualizing parechovirus infection. We used E. coli recombinant PeV-A1-VP0 protein as a target in phage display single chain variable fragment (scFv) antibody library panning. Three rounds of panning allowed identification and isolation of several candidate scFv clones, which tested positive in enzyme-linked immunosorbent assay (ELISA) against VP0. Three scFv clones (scFv-55, -59 and -71) with different CDR-3 sequences were further purified and tested in ELISA, Western blot and immunofluorescence microscopy (IFA) against a set of PeV-A1 isolates and a few isolates representing PeV types 2–6. In IFA, all three scFv binders recognized twenty PeV-A1 isolates. ScFv-55 and -71 also recognized clinical representatives of PeV types 1–6 both in IFA and in capture ELISA, while scFv-59 only recognized PeV-A1, -A2 and -A6. PeV-A1-VP0 (Harris strain) sequence was used to generate a peptide library, which allowed identification of a putative unique conformational antibody epitope with fully conserved flanking regions and a more variable core VVTYDSKL, shared between the scFv antibodies. Sequencing of the VP0 region of virus samples and sequence comparisons against parechoviral sequences in GenBank revealed 107 PeV-A1, -A3, -A8, -A17, -A (untyped) sequences with this exact epitope core sequence, which was most dominant among PeV-A1 isolates. These data suggest the first-time isolation of broad range phage display antibodies against human parechoviruses that may be used in diagnostic antibody development.

Published

2022

4. Isolation and characterization of phage display-derived scFv antibodies against human parechovirus 1 VP0 protein

Author

Hietanen, Eero, Tripathi, Lav, Brockmann, Eeva-Christine, Merilahti, Pirjo, Lamminmäki, Urpo, and Susi, Petri

Published

2022

5. An extracellular receptor tyrosine kinase motif orchestrating intracellular STAT activation

Author

Vaparanta, Katri, Jokilammi, Anne, Tamirat, Mahlet, Merilahti, Johannes A. M., Salokas, Kari, Varjosalo, Markku, Ivaska, Johanna, Johnson, Mark S., and Elenius, Klaus

Published

2022

6. Preperitoneal Fat Grafting Inhibits the Formation of Intra-abdominal Adhesions in Mice

Author

Laukka, Mervi, Hoppela, Erika, Salo, Jemiina, Rantakari, Pia, Gronroos, Tove J., Orte, Katri, Auvinen, Kaisa, Salmi, Marko, Gerke, Heidi, Thol, Kerstin, Peuhu, Emilia, Kauhanen, Saila, Merilahti, Pirjo, and Hartiala, Pauliina

Published

2020

7. Gamma-secretase-dependent signaling of receptor tyrosine kinases

Author

Merilahti, Johannes A.M. and Elenius, Klaus

Published

2019

8. Human Parechovirus 1 Infection Occurs via αVβ1 Integrin.

Author

Pirjo Merilahti, Sisko Tauriainen, and Petri Susi

Subjects

Medicine, Science

Abstract

Human parechovirus 1 (HPeV-1) (family Picornaviridae) is a global cause of pediatric respiratory and CNS infections for which there is no treatment. Although biochemical and in vitro studies have suggested that HPeV-1 binds to αVβ1, αVβ3 and αVβ6 integrin receptor(s), the actual cellular receptors required for infectious entry of HPeV-1 remain unknown. In this paper we analyzed the expression profiles of αVβ1, αVβ3, αVβ6 and α5β1 in susceptible cell lines (A549, HeLa and SW480) to identify which integrin receptors support HPeV-1 internalization and/or replication cycle. We demonstrate by antibody blocking assay, immunofluorescence microscopy and RT-qPCR that HPeV-1 internalizes and replicates in cell lines that express αVβ1 integrin but not αVβ3 or αVβ6 integrins. To further study the role of β1 integrin, we used a mouse cell line, GE11-KO, which is deficient in β1 expression, and its derivate GE11-β1 in which human integrin β1 subunit is overexpressed. HPeV-1 (Harris strain) and three clinical HPeV-1 isolates did not internalize into GE11-KO whereas GE11-β1 supported the internalization process. An integrin β1-activating antibody, TS2/16, enhanced HPeV-1 infectivity, but infection occurred in the absence of visible receptor clustering. HPeV-1 also co-localized with β1 integrin on the cell surface, and HPeV-1 and β1 integrin co-endocytosed into the cells. In conclusion, our results demonstrate that in some cell lines the cellular entry of HPeV-1 is primarily mediated by the active form of αVβ1 integrin without visible receptor clustering.

Published

2016

9. Role of Heparan Sulfate in Cellular Infection of Integrin-Binding Coxsackievirus A9 and Human Parechovirus 1 Isolates.

Author

Pirjo Merilahti, Eveliina Karelehto, and Petri Susi

Subjects

Medicine, Science

Abstract

Heparan sulfate/heparin class of proteoglycans (HSPG) have been shown to function in cellular attachment and infection of numerous viruses including picornaviruses. Coxsackievirus A9 (CV-A9) and human parechovirus 1 (HPeV-1) are integrin-binding members in the family Picornaviridae. CV-A9 Griggs and HPeV-1 Harris (prototype) strains have been reported not to bind to heparin, but it was recently shown that some CV-A9 isolates interact with heparin in vitro via VP1 protein with a specific T132R/K mutation. We found that the infectivity of both CV-A9 Griggs and HPeV-1 Harris was reduced by sodium chlorate and heparinase suggestive of HSPG interactions. We analyzed the T132 site in fifty-four (54) CV-A9 clinical isolates and found that only one of them possessed T132/R mutation while the other nine (9) had T132K. We then treated CV-A9 Griggs and HPeV-1 Harris and eight CV-A9 and six HPeV-1 clinical isolates with heparin and protamine. Although infectivity of Griggs strain was slightly reduced (by 25%), heparin treatment did not affect the infectivity of the CV-A9 isolates that do not possess the T132R/K mutation, which is in line with the previous findings. Some of the HPeV-1 isolates were also affected by heparin treatment, which suggested that there may be a specific heparin binding site in HPeV-1. In contrast, protamine (a specific inhibitor of heparin) completely inhibited the infection of both prototypes and clinical CV-A9 and HPeV-1 isolates. We conclude that T132R/K mutation has a role in heparin binding of CV-A9, but we also show data, which suggest that there are other HSPG binding sites in CV-A9. In all, we suggest that HSPGs play a general role in both CV-A9 and HPeV-1 infections.

Published

2016

10. Macrodomain binding compound MRS 2578 inhibits alphavirus replication

Author

Mattila, S. (Sari), Merilahti, P. (Pirjo), Wazir, S. (Sarah), Quirin, T. (Tania), Maksimainen, M. M. (Mirko M.), Zhang, Y. (Yuezhou), Xhaard, H. (Henri), Lehtiö, L. (Lari), Ahola, T. (Tero), Mattila, S. (Sari), Merilahti, P. (Pirjo), Wazir, S. (Sarah), Quirin, T. (Tania), Maksimainen, M. M. (Mirko M.), Zhang, Y. (Yuezhou), Xhaard, H. (Henri), Lehtiö, L. (Lari), and Ahola, T. (Tero)

Abstract

Alphaviruses are positive-strand RNA viruses causing febrile disease. Macrodomain-containing proteins, involved in ADP-ribose-mediated signaling, are encoded by both host cells and several virus groups, including alphaviruses. In this study, compound MRS 2578 that targets the human ADP-ribose glycohydrolase MacroD1 inhibited Semliki Forest virus production as well as viral RNA replication and replicase protein expression. The inhibitor was similarly active in alphavirus trans-replication systems, indicating that it targets the viral RNA replication stage.

Published

2021

11. Erratum to 'Endocytosis of Integrin-Binding Human Picornaviruses'

Author

Pirjo Merilahti, Satu Koskinen, Outi Heikkilä, Eveliina Karelehto, and Petri Susi

Subjects

Microbiology, QR1-502

Published

2013

12. Endocytosis of Integrin-Binding Human Picornaviruses

Author

Pirjo Merilahti, Satu Koskinen, Outi Heikkilä, Eveliina Karelehto, and Petri Susi

Subjects

Microbiology, QR1-502

Abstract

Picornaviruses that infect humans form one of the largest virus groups with almost three hundred virus types. They include significant enteroviral pathogens such as rhino-, polio-, echo-, and coxsackieviruses and human parechoviruses that cause wide range of disease symptoms. Despite the economic importance of picornaviruses, there are no antivirals. More than ten cellular receptors are known to participate in picornavirus infection, but experimental evidence of their role in cellular infection has been shown for only about twenty picornavirus types. Three enterovirus types and one parechovirus have experimentally been shown to bind and use integrin receptors in cellular infection. These include coxsackievirus A9 (CV-A9), echovirus 9, and human parechovirus 1 that are among the most common and epidemic human picornaviruses and bind to αV-integrins via RGD motif that resides on virus capsid. In contrast, echovirus 1 (E-1) has no RGD and uses integrin α2β1 as cellular receptor. Endocytosis of CV-A9 has recently been shown to occur via a novel Arf6- and dynamin-dependent pathways, while, contrary to collagen binding, E-1 binds inactive β1 integrin and enters via macropinocytosis. In this paper, we review what is known about receptors and endocytosis of integrin-binding human picornaviruses.

Published

2012

13. De NovoMulti-Omics Pathway Analysis Designed for Prior Data Independent Inference of Cell Signaling Pathways

Author

Vaparanta, Katri, Merilahti, Johannes A.M., Ojala, Veera K., and Elenius, Klaus

Abstract

New tools for cell signaling pathway inference from multi-omics data that are independent of previous knowledge are needed. Here, we propose a new de novomethod, the de novomulti-omics pathway analysis (DMPA), to model and combine omics data into network modules and pathways. DMPA was validated with published omics data and was found accurate in discovering reported molecular associations in transcriptome, interactome, phosphoproteome, methylome, and metabolomics data, and signaling pathways in multi-omics data. DMPA was benchmarked against module discovery and multi-omics integration methods and outperformed previous methods in module and pathway discovery especially when applied to datasets of relatively low sample sizes. Transcription factor, kinase, subcellular location, and function prediction algorithms were devised for transcriptome, phosphoproteome, and interactome modules and pathways, respectively. To apply DMPA in a biologically relevant context, interactome, phosphoproteome, transcriptome, and proteome data were collected from analyses carried out using melanoma cells to address gamma-secretase cleavage-dependent signaling characteristics of the receptor tyrosine kinase TYRO3. The pathways modeled with DMPA reflected the predicted function and its direction in validation experiments.

Published

2024

14. Treatment of Chronic Reactive Arthritis with a 3-Month Course of Ciprofloxacin

Author

Yli-Kerttula, Timo, Luukkainen, Reijo, Merilahti-Palo, Riitta, Granfors, Kaisa, Seppälä, Jouko, and Toivanen, Auli

Published

1993

15. IX Eular Workshop for Rheumatology Research: Molecular biology of autoantigens, autoantibodies and immunopeptides. Vienna, Austria, March 9–12, 1989

Author

Fournier, C., Texier, B., Chiocchia, G., Boissier, M. C., Herbage, D., Brown, C. M. S., Zyberk, C. Plater, Maini, R. N., Palacios, A., Sieper, J., Heinegard, D., Panayi, G. S., Gentric, A., Mackenzie, L., Lydyard, P. M., Youinou, P., Menzel, E. J., Kaik, B., Sykulev, Yu. K., Guschin, A. Je., Vasiljev, V. I., Ostreiko, K. K., Yeronina, T. V., Tumanova, I. A., Moynier, M., Abderrazik, M., Combe, B., Rucheton, M., Brochier, J., Tuomi, T., Palosuo, T., Heliövaara, M., Aho, K., McHugh, N. J., James, I. E., Kallenberg, C. G. M., Tervaert, J. W. Cohen, Goldschmeding, R., Von Dem Borne, A. E. G. K. R., Bouanani, M., Piechaczyk, M., Pau, B., Bastide, M., Le Page, S., Williams, W., Parkhouse, D., Cambridge, G., Isenberg, D. A., Nimmegeers, J., De Keyser, F., Verbruggen, G., Veys, E. M., Walravens M. J. F., Verdeyen I., Vandepol B., Cortens W., Schatteman, L., Goethals, K., Wu, D. -H., Tavoni, A., Neri, R., Garzelli, C., Vitali, C., Bombardieri, S., Logar, D., Kveder, T., Dobovisek, J., Rozman, B., Menard, H. A., Boire, G., Lopez-Longo, F. J., Masson, Ch., Lapointe, S., Clair, E. W. St., Zerva, L., Moutsopoulos, H. M., Keene, J. D., Pisetsky, D. S., Van Dam, A. P., Cuypers, H. T. M., Winkel, I., Smeenk, R. J. T., Taylor, D., Valente, E., Foster, J. P., Williams, D. G., Stocks, M. R., Caporali, R., De Gennaro, F., Cerino, A., Cobianchi, F., Astaldi-Ricotti, G. C. B., Montecucco, C., Habets, W., Sillekens, P. T. G., Hoet, M. H., McAllister, G., Lerner, M. R., Van Venrooij, W. J., Habets, W. J., Van Der Kemp, A., De Jong, B., Scarpa, R., Pucino, A., Di Girolamo, C., della Valle, G., Larizza, G., Casiere, D., Oriente, P., Paimela, L., Palvimo, J., Kurki, P., Hassfeld, W., Steiner, G., Graninger, W., Smolen, J. S., Lopez-Longo, E. J., Larose, A., Hoet, R., Zewald, R., Smeenk, R., Brinkman, K., Van Den Brink, H., Westgeest, A., Huss, R., Krapf, E. F., Herrmann, M., Leitmann, W., Kalden, J. R., Merétey, K., Cebecauer, L., Böhm, U., Kozakova, D., Brózik, M., Temesvári, P., Nagy, L., Bozic, B., Stegnar, M., Vene, N., Peternel, P., Giuggioli, C., Monti, P., Rossi, G., Ferri, C., Chiellini, S., Baboonian, C., Venables, P. J. W., Roffe, L., Booth, J., Krapf, F., Abuljadayel, I., Ebringer, A., Cox, N. L., Brand, S. R., McIntosh, D. P., Bernstein, R. M., Van Den Broek, M. F., Van Bruggen, M. C. J., Smetsers, T., Kuyer, P., Van De Putte, L., Van Den Berg, W. B., Toivanen, A., Jalkanen, S., Lahesmaa-Rantala, R., Isomäki, O., Pekkola-Heino, K., Merilahti-Palo Saario, R., Von Essen, R., Isomäki, H., Granfors, K., Gaston, J. S. H., Life, P. F., Bailey, L., Bacon, P. A., Khalafpour, S., Wilson, C., Awad, J., Toivanen, P., Saario, R., Skurnik, M., Van Der Straeten, C., Mielants, H., Gazic, M., Hartung, K., Riedel, T., Stannat, S., Specker, Ch., Röther, E., Pirner, K., Schendel, D., Baur, M., Corvetta, A., Peter, H. H., Lakomek, H. J., Deicher, H., Andonopoulos, A. P., Papasteriades, C. A., Drosos, A. A., Dimou, G. S., Shattles, W., Venables, P., Charles, P. J., Markwick, J. R., Venables, P. J., Galeazzi, M., Lulli, P., Tuzi, T., Cappellacci, S., Morellini, M., Trabace, S., Cutrupi, F., Sorrentino, R., Botti, S., Iannicola, C., Costanzi, S., Tosi, R., Gospodinoff, A., Eliaou, J. F., Humbert, H., Balaguer, P., Nicolas, J. C., Sany, J., Clot, J., Sakkas, L. I., Bird, H., Welsh, K. I., Pitzalis, C., Kingsley, G., Haskard, D., Vischer, T. L., Bas, S., Werner-Favre, C., Wohlwend, D., Zubler, R. H., Afeltra, A., De Pita, O., Basso, P., Pietrucci, A., Ferri, G. M., Bonomo, L., Gerli, R., Cernetti, C., Bertotto, A., Agea, E., Arcangeli, C., Lanfrancone, L., Rambotti, P., Crupi, S., Baglioni, A., Spinozzi, F., Papazoglou, S., Skoumi, D., Athanasiou, P., Iliopoulos, A., Stavropoulou, A., Kontomerkos, T., Hendrich, G., Kuipers, J. G., Hammer, M., Schmidt, R. E., Manoussakis, M. N., Germandis, G., Zerva, L. V., Siouna-Fatourou, H. J., Katsikis, P. D., Mavridis, A., Toubert, A., Sadouk, M., de la Tour, B., Vaquero, C., Amor, B., Miossec, P., Naviliat, M., Cretien, I., Banchereau, J., Graninger, P., Aschauer, B., Sinski, A., Smolen, J., Krutmann, J., Kirnbauer, R., Köck, A., Schwarz, T., May, L. T., Sehgal, P. B., Luger, T. A., Field, M., Chu, C. Q., Feldmann, M., Wilbrink, B., Nietfeld, J. J., Helle, M., Boeije, L. C. M., Van Roy, J. L. A. M., Den Otter, W., Aarden, L. A., Huber-Bruning, O., Malejczyk, J., Urbanski, A., Malejczyk, M., Karbowski, A., Völker, W., Feige, U., Otter, W. Den, Malfait, A. M., Wieme, N., Gyselbrecht, L., Van de Loo, A. A. J., Van Lent, P. L. E. M., Haskard, D. O., Wellicome, S., Lanchbury, J., Thornhill, M., Krutmann, K., Gschnait, F., Yaron, M., Yaron, I., Dayer, J. -M., Bleiberg, I., Meyer, F. -A., Maury, C. P. J., Teppo, A. -M., Salo, E., Pelkonen, P., Malfait, A., Cochez, Ph., Gruschwitz, M., Müller, P. U., Wick, G., Madhok, R., Wilson, R., Frame, M., Thompson, J., Sturrock, R. D., Partsch, G., Matucci-Cerinic, M., Marabini, S., Jantsch, S., Neumüller, J., Eberl, R., van Beuningen, H. M., Arntz, O. J., Zlabinger, G. J., Steffen, C., Brand, H. S., Van Kampen, G. P. J., De Koning, M. H. M. T., Kiljan, E., Van Der Korst, J. K., Gemmell, C. G., Swaak, A. J. G., Van Rooyen, A., Hall, N. D., Woolf, A. D., Kantharia, B., Maymo, J., Blake, D. R., Goulding, N. J., Maddison, P. J., Munthe, E., Berntzen, H. B., Fagerhol, M., Mathieu, A., Pala, R., Contu, L., Cirillo, R., Garau, P., Nurchis, P., Viberti, G. C., Meyer, O., Zenklusen, C., Le Thi Huong Du, Z., Gaudouen, C., Mery, J. Ph., Ronco, P., Kahn, M. F., Rasmussen, N., Szpirt, W., Thomsen, B., Humbel, R. L., Ter Borg, E. J., Horst, G., Hummel, E., Limburg, P. C., Aeschilmann, A., Bourgeois, P., De Rooij, D. J., Van de Putte, L. B. A., Verbeek, L., Farinaro, C., Infranzi, E., Couret, M., Ackerman, C., De Vlam, K., Carapic, V., Carapic, D., Annefeld, M., Erne, B., Rosenwasser, L. J., Pazoles, C. J., Otterness, I. G., Hanson, D. C., McDonald, B., Loose, L. D., Dougados, M., Machold, K. P., Wiesenberg-Böttcher, I., Wanner, K., Pignat, W., Altmann, H., Tuschl, H., Bröll, H., Balestrieri, G., Tincani, A., Cattaneo, R., Bertoli, M. T., Martinelli, M., Allegro, F., Meroni, P. L., Balesini, G., Aichinger, G., Schlögl, E., Huber, Ch., Shoenfeld, Y., Fleishmaker, E., Mendlovic, S., Mozes, E., Blank, M., Talal, N., Hogervorst, E. J. M., Van Eden, W., Van Der Zee, R., Psychos, D., Dimou, G., Stefanaki-Nikou, S., Papadimitriou, C. S., Settas, L., Alexiou, P., Dimitriadis, G., Mataftsi, E., Soliou, E., Tourkantonis, A., Babic, M., Jeurissen, M. E. C., and Boerbooms, A. MTh

Published

1989

16. Simplified distinction of rheumatoid synovial histopathology from that of degenerative joint diseases

Author

Kouri, T., Saario, R., Merilahti-Palo, R., and Söderström, K. -O.

Published

1987

17. Genome-wide screen of gamma-secretase–mediated intramembrane cleavage of receptor tyrosine kinases

Author

Merilahti, Johannes A. M., Ojala, Veera K., Knittle, Anna M., Pulliainen, Arto T., and Elenius, Klaus

Abstract

Receptor tyrosine kinases (RTKs) can signal via regulated intramembrane proteolysis, leading to release of an intracellular receptor fragment with functional activity. A system-wide screen covering 45 of the 55 human RTKs identified 12 novel gamma-secretase substrates and indicated that at least half of all RTKs are susceptible to cleavage.

Published

2017

18. Proceedings of the Annual Meeting of the Finnish Society for Rheumatology, Heinola 18-19 February 1988

Author

Merilahti-Palo, R., Gripenberg, C., Lahesmaa-Rantala, R., U-m, Jaakkola, K-o, SÖDerstrÖM, and Toivanen, P.

Published

1988

19. Risk of yrsinia infection among butchers

Author

Merilahti-Palo, Riitta, Lahesmaa, Riitta, Granfors, Kaisa, Gripenberg-Lerche, Christel, and Toivanen, Paavo

Abstract

The purpose of this study was to evaluate the risk of yersinia infection among butchers. Serum samples were collected from 146 abattoir workers, stratified into 3 groups according to exposure to swine throats and intestines. 100 healthy blood donors were used as controls. Antibodies against Yersinia enterocolitica O:3 and O:9 and Y. pseudotuberculosis I and III were measured using ELISA. Symptoms associated with yersiniosis were recorded in a questionnaire. Antibodies against Y. enterocolitica O:3 were observed more often in the sera of abattoir workers (19%), especially in butchers handling swine throats and intestines (27%), than in the sera of healthy blood donors (10%). During the 6 months preceding this study, 30-40% of the workers reported symptoms of abdominal pains and diarrhoea. However, the symptoms did not correlate with the occurrence of antibodies. One butcher had developed a yersinia-triggered prolonged reactive arthritis. Tonsil samples were collected from 120 pigs to determine the extent of yersinia contamination. Positive isolates were obtained from 54 pigs (45%). Y. enterocolitica O:3 was isolated from 31 pigs and Y. pseudotuberculosis III from 11 pigs. All of these strains shared characteristics typical for virulent strains. We conclude that yersinia infections are an occupational health risk to workers slaughtering swine in the abattoirs.

Published

1991

20. Prognostic Significance of Synovial Fluid Analysis in Rheumatoid Arthritis

Author

Luukkainen, Reijo, Kaarela, Kalevi, Huhtala, Heini, Auerma, Kalevi, and Merilahti-palo, Riitta

Abstract

Thirty patients with definite rheumatoid arthritis and hydropsy in a knee joint were followed for 42 months in a prospective study. The knee joints were initially aspirated and 15 synovial fluid variables investigated. The patients were split into two groups, those with and those without progress of radiologically detected destruction in the knee joints during the follow-up. Of the synovial fluid variables at the start synovial fluid proteins (P = 0,002) and acid phosphatase (P = 0,03) differed statistically significantly between the groups, both being higher in patients with worsening of knee joint. The results suggest that high synovial fluid proteins and acid phosphatase are predictors of poor prognosis in a joint affected by rheumatoid arthritis.

Published

1989

21. Methimazole-induced Arthritis

Author

Hietarinta, M. and Merilahti-Palo, R.

Published

1989

22. User Acceptance and Technology Supporting Rehabilitation at Home

Author

PetäkoskiHult, Tuula, Merilahti, Juho, Kailanto, Harri, Zakrzewski, Mari, and Lahti, Heidi

Published

2009

23. EXPRESSION OF bcl-2 IN RHEUMATOID ARTHRITIS

Author

ISOMÄKI, P., SÖDERSTRÖM, K.-O., PUNNONEN, J., ROIVAINEN, A., LUUKKAINEN, R., MERILAHTI-PALO, R., NIKKARI, S., LASSILA, O., and TOIVANEN, P.

Abstract

Since defective apoptosis has been suggested to play a role in the development of autoimmune diseases, we have investigated the expression of the proto-oncogene bcl-2 in patients with rheumatoid arthritis (RA). The expression of bcl-2 was studied in peripheral blood (PB) and synovial fluid (SF) lymphocytes and synovial tissues (ST) from patients with RA using immunohistochemistry, flow cytometry and nucleic acid hybridization. Patients with reactive arthritis (ReA) or osteoarthritis (OA) and healthy individuals were used as controls. The expression of bcl-2 protein in PB lymphocytes and the expression of bcl-2 mRNA in PB mononuclear cells (PBMC) was similar in healthy controls and patients with RA. However, bcl-2 protein expression was significantly reduced in SF lymphocytes when compared to PB lymphocytes. Similar results were observed with lymphocytes from patients with ReA, and irrespective of whether total lymphocytes, T cells or different T-cell subsets were studied. In the synovial sections, the expression of bcl-2 was restricted to lymphocytes, and bcl-2+ cells were observed in the majority of samples from patients with RA, OA and ReA. These data indicate that the expression of bcl-2 is not increased in the lymphocytes or ST derived from patients with RA. Instead, decreased expression of bcl-2 protein in SF lymphocytes compared to PB lymphocytes was demonstrated. We suggest that bcl-2 does not play a significant role in the pathogenesis of RA.

Published

1996

24. ONCOPROTEIN EXPRESSION IN HUMAN SYNOVIAL TISSUE: AN IMMUNOHISTOCHEMICAL STUDY OF DIFFERENT TYPES OF ARTHRITIS

Author

ROIVAINEN, A., SÖDERSTRÖM, K.-O., PERILÄ, L., ARO, H., KORTEKANGAS, P., MERILAHTI-PALO, R., YLI-JAMA, T., TOIVANEN, A., and TOIVANEN, P.

Abstract

Based on the fact that synovial lining cells have some properties of transformed-appearing cells, we have examined the expression of Myc, Myb, Fos, Jun and Ras oncoproteins in synovial tissues from patients with different types of arthritis. Formalin-fixed and paraffin-embedded sections of synovial tissue from 12 patients with rheumatoid arthritis (RA), 14 with reactive arthritis (ReA), nine with other seronegative arthritis (OSA), seven with bacterial arthritis (BA), eight with probable bacterial arthritis (PBA) and eight with osteoarthritis (OA) were studied using the immunoperoxidase staining technique. The oncoproteins studied were expressed both in the synovial lining layer and in the sublining layer, consisting of lymphocytes, other inflammatory cells and blood vessels. Among the six disease entities, RA and OA appeared to be the most distinct, whereas the results obtained for ReA and OSA, and on the other hand for BA and PBA, closely resembled each other. The expression of Myc, Myb, Fos and Jun was significantly correlated both to the degree of synovial hypercellularity and the synovial lymphocytic infiltration. For Ras, such a correlation could not be seen. We conclude that we find no evidence of a cell lineage-specific or a disease-specific abnormality of proto-oncogene products in RA, and the expression of these oncoproteins is consistent with inflammation rather than with any primary abnormality of cell growth.

Published

1996

25. Macrodomain Binding Compound MRS 2578 Inhibits Alphavirus Replication.

Author

Mattila S, Merilahti P, Wazir S, Quirin T, Maksimainen MM, Zhang Y, Xhaard H, Lehtiö L, and Ahola T

Subjects

Humans, Isothiocyanates, RNA, Viral genetics, Thiourea analogs & derivatives, Viral Nonstructural Proteins, Virus Replication, Alphavirus genetics

Abstract

Alphaviruses are positive-strand RNA viruses causing febrile disease. Macrodomain-containing proteins, involved in ADP-ribose-mediated signaling, are encoded by both host cells and several virus groups, including alphaviruses. In this study, compound MRS 2578 that targets the human ADP-ribose glycohydrolase MacroD1 inhibited Semliki Forest virus production as well as viral RNA replication and replicase protein expression. The inhibitor was similarly active in alphavirus trans -replication systems, indicating that it targets the viral RNA replication stage.

Published

2021

26. Monoclonal antibody against VP0 recognizes a broad range of human parechoviruses.

Author

Tripathi L, Hietanen E, Merilahti P, Teixido L, Sanchez-Alberola N, Tauriainen S, and Susi P

Subjects

Antibodies, Monoclonal, Capsid Proteins genetics, Cross Reactions, Humans, Infant, Enterovirus Infections, Parechovirus genetics, Picornaviridae Infections diagnosis

Abstract

Parechoviruses (PeVs) are common viruses that cause mild gastrointestinal or respiratory symptoms to severe central nervous system infections. In infants, parechovirus infection is one of the leading causes of life-threatening viral disease. High-quality antibodies with broad binding specificities are essential to improve accurate parechovirus diagnosis in diagnostic laboratories. Such antibodies have potential in the development of rapid antigen detection assay against PeVs. In the present study, VP4 and VP2 genes from human parechovirus A1 (PeV-A1) were cloned and VP0 fusion protein produced to develop monoclonal antibodies against PeVs. Two pan-parechovirus antibodies, one IgG and one IgM isotype, were isolated. The properties of IgG1/κ monoclonal (designated as Mab-PAR-1) was studied further. Mab-PAR-1 was shown to be functional in western blot against denatured recombinant protein and viral particles. In immunofluorescence assay, the antibody tested positive for nineteen PeV-A1 isolates while showing no cross-reactivity to fourteen entero- and rhinovirus types. In addition, Mab-PAR-1 showed positive reactivity against five other cultivable parechovirus types 2-6. A unique Mab-PAR-1 epitope located in the junction of the three capsid proteins VP0, VP1, and VP3 was identified using a peptide library screen. This study demonstrates that PeV-A1-VP0 protein is functional antigen for developing monoclonal antibody for diagnosis of broad range of parechovirus infections., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021

27. Genome Sequences of RIGVIR Oncolytic Virotherapy Virus and Five Other Echovirus 7 Isolates.

Author

Hietanen E, Smura T, Hakanen M, Chansaenroj J, Merilahti P, Nevalainen J, Pandey S, Koskinen S, Tripathi L, Poovorawan Y, Pursiheimo J, and Susi P

Abstract

We report here the nearly complete Illumina-sequenced consensus genome sequences of six isolates of echovirus 7 (E7), including oncolytic virotherapy virus RIGVIR and the Wallace prototype. Amino acid identities within the coding region were highly conserved across all isolates, ranging from 95.31% to 99.73%., (Copyright © 2018 Hietanen et al.)

Published

2018

28. Integrins are not essential for entry of coxsackievirus A9 into SW480 human colon adenocarcinoma cells.

Author

Heikkilä O, Merilahti P, Hakanen M, Karelehto E, Alanko J, Sukki M, Kiljunen S, and Susi P

Subjects

Cell Line, Tumor, Endoplasmic Reticulum Chaperone BiP, Humans, Antigens, Neoplasm metabolism, Enterovirus B, Human physiology, Epithelial Cells virology, Host-Pathogen Interactions, Integrins metabolism, Receptors, Virus metabolism, Virus Internalization

Abstract

Background: Coxsackievirus A9 (CV-A9) is a pathogenic enterovirus type within the family Picornaviridae. CV-A9 infects A549 human epithelial lung carcinoma cells by attaching to the αVβ6 integrin receptor through a highly conserved Arg-Gly-Asp (RGD) motif, which is located at the exposed carboxy-terminus of the capsid protein VP1 detected in all studied clinical isolates. However, genetically-modified CV-A9 that lacks the RGD motif (CV-A9-RGDdel) has been shown to be infectious in some cell lines but not in A549, suggesting that RGD-mediated integrin binding is not always essential for efficient entry of CV-A9., Methods: Two cell lines, A549 and SW480, were used in the study. SW480 was the study object for the integrin-independent entry and A549 was used as the control for integrin-dependent entry. Receptor levels were quantitated by cell sorting and quantitative PCR. Antibody blocking assay and siRNA silencing of receptor-encoding genes were used to block virus infection. Peptide phage display library was used to identify peptide binders to CV-A9. Immunofluorescence and confocal microscopy were used to visualize the virus infection in the cells., Results: We investigated the receptor use and early stages of CV-A9 internalization to SW480 human epithelial colon adenocarcinoma cells. Contrary to A549 infection, we showed that both CV-A9 and CV-A9-RGDdel internalized into SW480 cells and that function-blocking anti-αV integrin antibodies had no effect on the binding and entry of CV-A9. Whereas siRNA silencing of β6 integrin subunit had no influence on virus infection in SW480, silencing of β2-microglobulin (β2M) inhibited the virus infection in both cell lines. By using a peptide phage display screening, the virus-binding peptide identical to the N-terminal sequence of HSPA5 protein was identified and shown to block the virus infection in both A549 and SW480 cell lines. HSPA5 was also found to co-localize with CV-A9 at the SW480 cell periphery during the early stages of infection by confocal microscopy., Conclusions: The data suggest that while αVβ6 integrin is essential for CV-A9 in A549 cell line, it is not required in SW480 cell line in which β2M and HSPA5 alone are sufficient for CV-A9 infection. This suggests that the choice of CV-A9 receptor(s) is dependent on the tissue/cellular environment.

Published

2016

29. Human Parechovirus 1 Infection Occurs via αVβ1 Integrin.

Author

Merilahti P, Tauriainen S, and Susi P

Subjects

Animals, Antigens, Neoplasm physiology, Cell Line, Cell Line, Tumor, HeLa Cells, Humans, Integrin alphaVbeta3 physiology, Integrins physiology, Mice, Parechovirus physiology, Picornaviridae Infections physiopathology, Picornaviridae Infections virology, Receptors, Virus physiology, Parechovirus pathogenicity, Picornaviridae Infections etiology, Receptors, Vitronectin physiology, Virus Internalization

Abstract

Human parechovirus 1 (HPeV-1) (family Picornaviridae) is a global cause of pediatric respiratory and CNS infections for which there is no treatment. Although biochemical and in vitro studies have suggested that HPeV-1 binds to αVβ1, αVβ3 and αVβ6 integrin receptor(s), the actual cellular receptors required for infectious entry of HPeV-1 remain unknown. In this paper we analyzed the expression profiles of αVβ1, αVβ3, αVβ6 and α5β1 in susceptible cell lines (A549, HeLa and SW480) to identify which integrin receptors support HPeV-1 internalization and/or replication cycle. We demonstrate by antibody blocking assay, immunofluorescence microscopy and RT-qPCR that HPeV-1 internalizes and replicates in cell lines that express αVβ1 integrin but not αVβ3 or αVβ6 integrins. To further study the role of β1 integrin, we used a mouse cell line, GE11-KO, which is deficient in β1 expression, and its derivate GE11-β1 in which human integrin β1 subunit is overexpressed. HPeV-1 (Harris strain) and three clinical HPeV-1 isolates did not internalize into GE11-KO whereas GE11-β1 supported the internalization process. An integrin β1-activating antibody, TS2/16, enhanced HPeV-1 infectivity, but infection occurred in the absence of visible receptor clustering. HPeV-1 also co-localized with β1 integrin on the cell surface, and HPeV-1 and β1 integrin co-endocytosed into the cells. In conclusion, our results demonstrate that in some cell lines the cellular entry of HPeV-1 is primarily mediated by the active form of αVβ1 integrin without visible receptor clustering.

Published

2016

30. Role of Heparan Sulfate in Cellular Infection of Integrin-Binding Coxsackievirus A9 and Human Parechovirus 1 Isolates.

Author

Merilahti P, Karelehto E, and Susi P

Subjects

Amino Acid Sequence, Binding Sites, Coxsackievirus Infections metabolism, Humans, Molecular Sequence Data, N-Acetylglucosaminyltransferases antagonists & inhibitors, N-Acetylglucosaminyltransferases genetics, Picornaviridae Infections metabolism, Sequence Homology, Amino Acid, Viral Proteins metabolism, Coxsackievirus Infections virology, Enterovirus B, Human isolation & purification, Heparitin Sulfate metabolism, Integrins metabolism, Parechovirus isolation & purification, Picornaviridae Infections virology

Abstract

Heparan sulfate/heparin class of proteoglycans (HSPG) have been shown to function in cellular attachment and infection of numerous viruses including picornaviruses. Coxsackievirus A9 (CV-A9) and human parechovirus 1 (HPeV-1) are integrin-binding members in the family Picornaviridae. CV-A9 Griggs and HPeV-1 Harris (prototype) strains have been reported not to bind to heparin, but it was recently shown that some CV-A9 isolates interact with heparin in vitro via VP1 protein with a specific T132R/K mutation. We found that the infectivity of both CV-A9 Griggs and HPeV-1 Harris was reduced by sodium chlorate and heparinase suggestive of HSPG interactions. We analyzed the T132 site in fifty-four (54) CV-A9 clinical isolates and found that only one of them possessed T132/R mutation while the other nine (9) had T132K. We then treated CV-A9 Griggs and HPeV-1 Harris and eight CV-A9 and six HPeV-1 clinical isolates with heparin and protamine. Although infectivity of Griggs strain was slightly reduced (by 25%), heparin treatment did not affect the infectivity of the CV-A9 isolates that do not possess the T132R/K mutation, which is in line with the previous findings. Some of the HPeV-1 isolates were also affected by heparin treatment, which suggested that there may be a specific heparin binding site in HPeV-1. In contrast, protamine (a specific inhibitor of heparin) completely inhibited the infection of both prototypes and clinical CV-A9 and HPeV-1 isolates. We conclude that T132R/K mutation has a role in heparin binding of CV-A9, but we also show data, which suggest that there are other HSPG binding sites in CV-A9. In all, we suggest that HSPGs play a general role in both CV-A9 and HPeV-1 infections.

Published

2016

31. Genome Sequence of Coxsackievirus A6, Isolated during a Hand-Foot-and-Mouth Disease Outbreak in Finland in 2008.

Author

Osterback R, Koskinen S, Merilahti P, Pursiheimo JP, Blomqvist S, Roivainen M, Laiho A, Susi P, and Waris M

Abstract

Reports of hand-foot-and-mouth disease (HFMD) outbreaks caused by coxsackievirus A6 have increased worldwide after the report of the first outbreak in Finland in 2008. The complete genome of the first outbreak strain from a vesicle fluid specimen was determined., (Copyright © 2014 Österback et al.)

Published

2014

32. Endocytosis of integrin-binding human picornaviruses.

Author

Merilahti P, Koskinen S, Heikkilä O, Karelehto E, and Susi P

Abstract

Picornaviruses that infect humans form one of the largest virus groups with almost three hundred virus types. They include significant enteroviral pathogens such as rhino-, polio-, echo-, and coxsackieviruses and human parechoviruses that cause wide range of disease symptoms. Despite the economic importance of picornaviruses, there are no antivirals. More than ten cellular receptors are known to participate in picornavirus infection, but experimental evidence of their role in cellular infection has been shown for only about twenty picornavirus types. Three enterovirus types and one parechovirus have experimentally been shown to bind and use integrin receptors in cellular infection. These include coxsackievirus A9 (CV-A9), echovirus 9, and human parechovirus 1 that are among the most common and epidemic human picornaviruses and bind to αV-integrins via RGD motif that resides on virus capsid. In contrast, echovirus 1 (E-1) has no RGD and uses integrin α2β1 as cellular receptor. Endocytosis of CV-A9 has recently been shown to occur via a novel Arf6- and dynamin-dependent pathways, while, contrary to collagen binding, E-1 binds inactive β1 integrin and enters via macropinocytosis. In this paper, we review what is known about receptors and endocytosis of integrin-binding human picornaviruses.

Published

2012