Hannele Tapiovaara scite author profile

Abstract. Human HT-1080 fibrosarcoma cells produce urokinase-type plasminogen activator (u-PA) and type 1 plasminogen activator inhibitor (PAI-1). We found that after incubation of monolayer cultures with purified native human plasminogen in serumcontaining medium, bound plasmin activity could be eluted from the cells with tranexamic acid, an analogue of lysine. The bound plasmin was the result of plasminogen activation on the cell surface; plasmin activity was not taken up onto cells after deliberate addition of plasmin to the serum-containing medium. The cell surface plasmin formation was inhibited by an anticatalytic monoclonal antibody to u-PA, indicating that this enzyme was responsible for the activation.

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Heparin binding to the urokinase kringle domain

Stephens¹,

Am²,

Ht³

et al. 1992

Biochemistry

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The binding of urokinase to immobilized heparin and dextran sulfate was studied using activity assays of the bound urokinase. The markedly higher binding observed with high M(r) urokinase compared to low M(r) urokinase indicated a role for the amino-terminal fragment (ATF). This was confirmed by the use of inactive truncated urokinase and monoclonal antibodies specific for the ATF in competition assays of urokinase binding. Antibody competition assays suggested a site in the kringle domain, and a synthetic decapeptide Arg-52-Trp-62 from the kringle sequence (kringle numbering convention) was competitive in assays of urokinase binding to dextran sulfate and heparin. Heparin binding to the urokinase kringle was unambiguously demonstrated via 1H NMR spectroscopy at 500 MHz. Effective equilibrium association constants (K(a)*) were determined for the interaction of isolated kringle fragment and low M(r) heparin at pH 7.2. The binding was strong in salt-free 2H2O (K(a)* approximately 57 mM-1) and remained significant in 0.15 M NaCl (K(a)* approximately 12 mM-1), supporting a potential physiological role for the interaction. This is the first demonstration of a function for the kringle domain of urokinase, and it suggests that while the classical kringle structure has specificity for lysine binding, there may also exist a class of kringles with affinity for polyanion binding.

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Ranavirus phylogeny and differentiation based on major capsid protein, DNA polymerase and neurofilament triplet H1-like protein genes

Holopainen¹,

Ohlemeyer²,

Schütze³

et al. 2009

Dis. Aquat. Org.

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In this study, we developed new methods for differentiation of ranaviruses based on polymerase chain reaction and restriction enzyme analysis of DNA polymerase and neurofilament triplet H1-like (NF-H1) protein gene. Using these methods, we were able to differentiate the 6 known ranaviruses -Bohle iridovirus (BIV), European catfish virus (ECV), epizootic haematopoietic necrosis virus (EHNV), European sheatfish virus (ESV), frog virus 3 (FV3) and Singapore grouper iridovirus (SGIV) -with 3 less characterised virus isolates : short-finned eel ranavirus (SERV), Rana esculenta virus Italy 282/I02 (REV 282/I02) and pike-perch iridovirus (PPIV). Doctor fish virus (DFV) and guppy virus 6 (GV6) were distinguished as a group from the other viruses. In addition, all 11 isolates were analysed and compared based on nucleotide sequences from 3 different genomic regions: major capsid protein (MCP), DNA polymerase and NF-H1. The partial DNA polymerase gene was sequenced from all analysed viruses. The complete sequence of the MCP and a fragment of the NF-H1 gene were obtained from BIV, ECV, EHNV, ESV, FV3, PPIV, REV 282/I02 and SERV. With the exception of GV6, DFV and SGIV, the sequence analyses showed only a few variations within the analysed viruses. The sequence data suggest that PPIV, REV 282/I02 and SERV are new members of the genus Ranavirus. The methods developed in this study provide tools to differentiate between closely related ranaviruses of different host and geographical origin.

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Production of an active urokinase by leukemia cells: A novel distinction from cell lines of solid tumors

et al. 1988

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Viral haemorrhagic septicaemia (VHS) outbreaks in Finnish rainbow trout farms

Raja-Halli¹,

Vehmas²,

Rimaila‐Pärnänen³

et al. 2006

Dis. Aquat. Org.

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In Finland, viral haemorrhagic septicaemia virus (VHSV) was diagnosed for the first time in 2000 from 4 rainbow trout farms in brackish water. Since then the infection has spread and, by the end of 2004, VHSV had been isolated from 24 farms in 3 separate locations: 2 in the Baltic Sea and 1 in the Gulf of Finland. The pathogenicity of 3 of these isolates from 2 separate locations was analysed in infection experiments with rainbow trout fry. The cumulative mortalities induced by waterborne and intraperitoneal challenge were approximately 40 and 90%, respectively. Pair-wise comparisons of the G and NV gene regions of Finnish VHSV isolates collected between 2000 and 2004 revealed that all isolates were closely related, with 99.3 to 100% nucleotide identity, which suggests the same origin of infection. Phylogenetic analysis revealed that they were closely related to the old freshwater isolates from rainbow trout in Denmark and to one old marine isolate from cod in the Baltic Sea, and that they were located close to the presumed ancestral source. As the Finnish isolates induce lower mortality than freshwater VHSV isolates in infection experiments, they could represent an intermediate stage of marine isolates evolving towards pathogenicity in rainbow trout. KEY WORDS: Viral haemorrhagic septicaemia virus · VHSV · Rainbow trout · Epidemiology Resale or republication not permitted without written consent of the publisherDis Aquat Org 72: [201][202][203][204][205][206][207][208][209][210][211] 2006 also induce mortality in experimental infections (Kocan et al. 1997). In contrast, the European marine VHSV isolates originating from wild fish have exhibited no or very low pathogenicity in rainbow trout in immersion experiments .The role of these virus strains in maintaining infection in the marine environment remains unclear. Several VHSV strains isolated from fish farms have a high level of genetic similarity with some wild marine fish VHSV isolates (Einer-Jensen et al. 2004, Snow et al. 2004. The close genetic similarity of the pathogenic and non-pathogenic VHSV strains indicates that only small differences in the virus genome may be involved in the determination of VHSV virulence for rainbow trout (Betts & Stone 2000). Since RNA viruses are known to be highly adaptable and to have high mutation rates, VHSV in wild marine fish could pose a permanent threat to rainbow trout farming, especially in the marine environment.VHSV is an enveloped negative-strand RNA virus belonging to the genus Novirhabdovirus of the family Rhabdoviridae (Walker et al. 2000). The VHSV genome is a non-segmented, single-stranded RNA molecule with a length of approximately 11 200 nucleotides. The genome consists of 6 genes in the order 3'-N-P-M-G-NV-L-5', encoding 5 structural proteins: nucleocapsid-(N), phospho-(P), matrix-(M), glyco-(G) and RNA polymerase (L) protein and 1 non-structural (NV) protein (Schütze et al. 1999).VHSV isolates have been shown to cluster into 4 different genotypes, which seem to correlate with the geographical...

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