Artificial exon shuffling between tissue-type plasminogen activator (t-PA) and urokinase (u-PA): a comparative study on the fibrinolytic properties of t-PA/u-PA hybrid proteins

We constructed two human tissue-type plasminogen activator/urokinase (t-PA/u-PA) hybrid cDNAs which were expressed by transfection of mouse Ltk- cells. The properties of the secreted proteins were compared with those of recombinant t-PA (rt-PA) and high molecular weight (HMW) u-PA. The hybrid proteins each contain the amino-terminal fibrin-binding chain of t-PA fused to the carboxy-terminal serine protease moiety of u-PA but differ by a stretch of 13 amino acid residues between kringle 2 of t-PA and the plasmin cleavage site of u-PA. Hybrid protein rt-PA/u-PA I contains amino acids 1-262 of t-PA connected with amino acids 147-411 of u-PA, whereas hybrid protein rt-PA/u-PA II consists of the same t-PA segment and residues 134-411 of u-PA. We demonstrated fibrin binding for rt-PA, whereas the hybrid proteins bind to a lesser extent and HMW u-PA has no affinity for fibrin. Plasminogen activation by either one of the hybrid proteins in the absence of a fibrin substitute was similar to that by HMW u-PA, while rt-PA was much less active. The catalytic efficiency, in the presence of a fibrin substitute, increases more than 2000-fold for rt-PA, about 250-fold for hybrid proteins I and II, and 12-fold for HMW u-PA, respectively. Under these conditions the hybrid proteins are more efficient plasminogen activators than the parental ones. The hybrid molecules form a 1:1 molar complex with the human endothelial plasminogen activator inhibitor (PAI-1), analogous to that formed by rt-PA and HMW u-PA. The relative affinity of rt-PA for PAI-1 is 4.6-fold higher than that of HMW u-PA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation and interrelationships of the multiple molecular tissue-type and urokinase-type plasminogen activator forms produced by cultured human umbilical vein endothelial cells

Primary and early subcultures (1st- to 3rd passage) of human umbilical vein endothelial cells produce tissue-type plasminogen activator (t-PA) antigen, consisting only of a major Mr 110,000 t-PA form. Later subcultures (greater than 4th passage) produce increasing amounts of t-PA antigen, consisting of a major Mr 110,000 and a minor Mr 68,000 form as well as increasing amounts of urokinase-type plasminogen activator (u-PA) antigen, consisting of a minor Mr 95,000 and major Mr 54,000 form. All of the major plasminogen activator forms were purified to homogeneity from 72 h serum-free conditioned media (3 liters, 1-1.8 x 10(9) cells) by a combination of immunoaffinity and gel filtration chromatography. Typically, 4th to 6th passage cultures produced/secreted t-PA-type proteins consisting of an inactive Mr 110,000 (220 IU/mg) and active Mr 68,000 (76,500 IU/mg) form representing about 39 and 8%, respectively, of the total starting sodium dodecyl sulfate stable t-PA activity, and u-PA-type proteins consisting of an inactive Mr 95,000 (700 IU/mg) and active Mr 54,000 (81,000 IU/mg) form representing about 9 and 38%, respectively, of the total starting sodium dodecyl sulfate stable u-PA activity. The isolated Mr 68,000 t-PA and Mr 54,000 u-PA proteins, exist only as two-chain forms in the absence of aprotinin and as mixtures of single- and two-chain proteins in the presence of aprotinin. Treatment with nucleophilic agents completely dissociated the Mr 110,000 t-PA and Mr 95,000 u-PA proteins into their respective Mr 68,000 t-PA and Mr 54,000 u-PA activity forms and a common Mr 46,000 protein, confirming the enzyme-inhibitor complex nature of these inactive plasminogen activator forms.     

Urokinase-type plasminogen activator and its inhibitor secreted by cultured human monocyte-macrophages

Human blood monocytes in culture differentiate to macrophagelike cells within 1 week. Coinciding with this morphological transition the cells started releasing increasing amounts of the serine proteinase plasminogen activator (PA; Mr 56,000) of the urokinase (u-PA) type and the proteinase inhibitor alpha-2-macroglobulin (alpha 2M). Unlike the cell-associated PA activity, which was also readily detected in fresh monocytes, the activity secreted into the serum-free culture medium could be measured only after treatment of the samples with sodium dodecyl sulphate. Heat or acid treatment of the medium was not sufficient to reveal the PA activity, suggesting that, apart from alpha 2M, another PA-inhibiting substance was present in the culture medium. The inhibitor (Mr 65,000) was found to be synthesized by macrophages and specifically inhibited u-PA activity but not tissue-type PA (t-PA) or plasmin activity. Dexamethasone decreased the secretion of PA by differentiated macrophages without affecting the production of alpha 2M or the PA inhibitor. Dexamethasone also inhibited the morphological differentiation of the cells when added to the monocyte-phase cells.     

Human high molecular weight kininogen as a thiol proteinase inhibitor: presence of the entire inhibition capacity in the native form of heavy chain

High molecular weight (HMW) kininogen was purified from fresh human plasma by two successive column chromatographies on DEAE-Sephadex A-50 and Zn-chelate Sepharose 4B. The purified HMW kininogen appeared to be a single band on sodium dodecyl sulfate (SDS)-polyacrylamide disc gel electrophoresis in both the presence and absence of beta-mercaptoethanol. However, it gave two bands on nonreduced SDS-polyacrylamide slab gel electrophoresis, a major band of dimeric form (Mr 200 000, ca. 95%) and a minor band of monomeric form (Mr 105 000, ca. 5%). Under reduced conditions, the dimeric form was converted stoichiometrically to a monomeric form (Mr 110 000), and the monomeric form observed under nonreduced conditions (Mr 105 000) was converted to a heavy chain (Mr 60 000) and a light chain (Mr 50 000). The formation of a dimer of HMW kininogen was also confirmed by an immunoblotting experiment. This unique property of intact HMW kininogen to form a dimer was further utilized in studies on the kininogens and their derivatives as thiol proteinase inhibitors. The purified HMW kininogen strongly inhibited the caseinolytic activities of calpain I, calpain II, and papain but not those of trypsin, chymotrypsin, and thermolysin, indicating that it was a group-specific inhibitor for thiol proteinases. When HMW kininogen was reduced with 0.14 or 1.4 M beta-mercaptoethanol, its inhibitory activity was partially or mostly inactivated, but on subsequent air oxidation its activity was almost completely recovered. In addition, kinin-free and fragment 1,2 free HMW kininogen showed higher inhibitory activity than the intact HMW kininogen.(ABSTRACT TRUNCATED AT 250 WORDS)     

Purification and properties of a single-chain urokinase-type plasminogen activator form produced by subcultured human umbilical vein endothelial cells

Single-chain Mr 54,000 u-PA (scu-PA) was isolated, in the presence of aprotinin, from 3-liter batches of 60-h serum-free conditioned media obtained from subcultured (4-6th passage) human umbilical vein endothelial cells (HUVECs, approximately 1.8 x 10(9) cells). In the presence of heparin and endothelial cell growth factor, subcultured human umbilical vein endothelial cells produced u-PA proteins consisting of about 85-90% Mr 54,000 scu-PA and 10-15% two-chain Mr 54,000. The major scu-PA form was purified to homogeneity by ion-exchange chromatography on CM-Sephadex C-50, immunoadsorption on purified anti-u-PA IgG-Sepharose and affinity chromatography on p-amino-benzamidine-Agarose. Typically, about 8-10 micrograms of purified scu-PA protein (antigen/protein ratio = 1) was isolated from 3-liter batches of heparin-containing serum-free conditioned media with a yield of about 41% of the total starting u-PA antigen. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of this purified u-PA protein showed a single Ag-stained band (nonreduced and reduced), with an estimated molecular weight of about 54,000, which exhibited very low fibrinolytic activity. Purified HUVEC-derived scu-PA did not incorporate 3H-labeled diisopropyl fluorophosphate. This protein did, however, exhibit very low amidolytic activity (approximately 5,000 IU/mg) on the u-PA-specific synthetic substrate pyroglu-Gly-Arg-p-nitroanilide, very low plasminogen-dependent fibrinolytic activity on 125I-labeled fibrin coated plates, and directly activated 125I-labeled plasminogen following Michaelis-Menten kinetics with high affinity, Km = 0.72 microM and low turnover number, kcat = 0.0005 s-1. Treatment with plasmin rapidly converted the HUVEC-derived scu-PA to the active two-chain Mr 54,000 u-PA form (approximately 90,000 IU/mg). Binding to fibrin clots, using antigen quantitation, indicated about 20, 10, and 90% binding for equimolar amounts of HUVEC-derived scu-PA, two-chain u-PA, and tissue plasminogen activator standards, respectively. These results indicate that subcultured HUVECs synthesize and secrete their u-PA protein as a single-chain molecule with low intrinsic amidolytic and fibrinolytic activity, high affinity for plasminogen and no specific affinity for fibrin. The role of scu-PA in endothelial cell-mediated vascular function has yet to be clearly defined.     

Interactions of gold with cytosolic selenium-containing proteins in rat kidney and liver

Rats injected with aurothioglucose (ATG) for 5 days were subsequently injected with [75Se]selenious acid and killed after 3 days. Kidney and liver cytosols were chromatographed on Sephadex G-150. 75Se in kidney was associated with high molecular weight (HMW), 85,000 Mr, 26,000 Mr, and 10,000 Mr proteins and with a nonprotein fraction. The elution profile of liver cytosol was similar to that of kidney, but without a 26,000 Mr protein. ATG injection increased the association of 75Se with all fractions of kidney cytosol except the 85,000 Mr fractions, which contained Se-glutathione peroxidase (SeGSHPx) activity; 75Se in liver was increased only in HMW fractions. Unfractionated kidney cytosolic SeGSHPx activity was decreased 14% by ATG injection, but liver enzyme activity was not changed. However, Sephadex G-150 chromatography showed that total and specific activities, respectively, were decreased 28 and 23% in kidney and 25 and 16% in liver. Au coeluted with HMW and 10,000 Mr 73Se-containing kidney proteins; the latter contained 50% of the Au eluted from the column. DEAE Sephacel chromatography of the 10,000 Mr kidney protein showed that both Au and 75Se were tightly associated with metallothionein-like proteins. This study demonstrates the interaction of Au with rat liver and kidney 75Se-containing proteins.     

Interleukin 1 preferentially stimulates the production of tissue-type plasminogen activator by human articular chondrocytes

Interleukin 1, derived from human placenta, stimulates plasminogen activator activity in human articular chondrocytes. The stimulation of plasminogen activator activity can be abolished by preincubation of placental interleukin 1 with an antiserum to homogeneous 22K factor, a species of interleukin 1 beta, indicating that the stimulation of plasminogen activator activity is due to interleukin 1 and not contaminating factors. Chondrocytes produce three species of plasminogen activator, with apparent Mr approximately 50,000, 65,000 and 100,000 as determined after sodium dodecyl sulphate (SDS)-polyacrylamide gel electrophoresis with gels containing casein and plasminogen. Both placental interleukin 1 and 22K factor enhance the production of the species of Mr approximately 65,000 and 100,000. Comparison of the mobility of the plasminogen activator species on SDS-polyacrylamide gel electrophoresis with human urokinase (u-PA) and human melanoma tissue-type plasminogen activator (t-PA) and studies with antibodies to these enzymes indicate that the Mr approximately 50,000 species is a u-PA and the Mr approximately 65,000 a t-PA. The Mr approximately 100,000 species is possibly an enzyme-inhibitor complex. Interleukin 1 therefore appears to enhance the production of t-PA and a putative enzyme-inhibitor complex. Abolition of plasminogen activator activity in the fibrin plate assay with antibodies to t-PA and u-PA also confirms enhanced t-PA production on interleukin 1 stimulation, though there is also evidence for increased cell-associated production of u-PA.     

Plasminogen activation by t-PA on the surface of human melanoma cells in the presence of alpha 2-macroglobulin secretion.

Several human melanoma cell lines produced tissue-type plasminogen activator (t-PA), as detected by zymography and immunocapture assay of culture media and cell lysates. Urokinase (u-PA) was found at only less than or equal to 1% the level of t-PA. Acid eluates of the cell surface indicated that the melanoma cells had t-PA bound on their surface, but no u-PA, and also had a very low capacity to bind exogenous u-PA. After incubation of the melanoma cells with 10% plasminogen-depleted fetal calf serum and human plasminogen, bound plasmin activity could be eluted from the cell surface with tranexamic acid, an analogue of lysine. This indicated that plasminogen was activated on the cell surface. The cell-surface plasmin formation was inhibited by an anti-catalytic monoclonal antibody to human t-PA, and not by an anti-catalytic antibody to u-PA. The melanoma cells also synthesized and secreted alpha 2-macroglobulin (alpha 2M), as shown by alpha 2M-specific mRNA in Northern blotting and detection of alpha 2M protein in conditioned cell culture media. The media were found to inhibit u-PA but not t-PA. This inhibition was related to their alpha 2M content, and immunoabsorption of alpha 2M removed the inhibitory activity. These studies suggest that t-PA can bind to the surface of melanoma cells and generate surface-bound plasmin. Because t-PA and cell-bound plasmin are unaffected by alpha 2M, t-PA may, in the case of melanoma cells, serve an analogous function to u-PA in supporting tumor cell invasion.     

Characterization of a chimeric plasminogen activator consisting of a single-chain Fv fragment derived from a fibrin fragment D-dimer-specific antibody and a truncated single-chain urokinase

An Mr 57,000 single-chain chimeric plasminogen activator, K12G0S32, consisting of a variable region fragment (Fv) derived from the fibrin fragment D-dimer-specific monoclonal antibody MA-15C5 and of a 33-kDa (amino acids Ala132 to Leu411) recombinant single-chain urokinase-type plasminogen activator (rscu-PA-33k) was studied. K12G0S32, secreted by infected Spodoptera frugiperda insect cells at a rate of 1.5 micrograms/10(6) cells/48 h, was purified to homogeneity by ion-exchange chromatography and gel filtration. It was obtained essentially as a single-chain molecule with a Ka = 5.5 x 10(9) M-1 for immobilized fragment D-dimer, similar to that of MA-15C5. The specific activity of both its single-chain and two-chain forms on fibrin plates was 100,000 IU/mg of urokinase-type plasminogen activator (u-PA) equivalent. Activation of plasminogen by two-chain K12G0S32 obeyed Michaelis-Menten kinetics with Km = 2.9 +/- 0.6 microM and a k2 = 3.7 +/- 0.6 s-1 (mean +/- S.D.; n = 3), as compared to Km = 12 microM and k2 = 4.8 s-1 for rtcu-PA-32k (recombinant low Mr two-chain u-PA consisting of amino acids Leu144 to Leu411). Single-chain K12G0S32 induced a dose- and time-dependent lysis of a 125I-fibrin-labeled human plasma clot immersed in citrated human plasma; 50% lysis in 2 h was obtained with 0.70 +/- 0.07 micrograms/ml (mean +/- S.D.; n = 5), as compared with 8.8 +/- 0.1 micrograms/ml for rscu-PA-32k (recombinant low Mr single-chain u-PA consisting of amino acids Leu144 to Leu411) (mean +/- S.D.; n = 3). With two-chain K12G0S32, 50% clot lysis in 2 h required 0.25 +/- 0.03 micrograms/ml (mean +/- S.D.; n = 3), as compared with only 0.62 +/- 0.04 micrograms/ml (mean +/- S.D.; n = 2) for rtcu-PA-32k. These results indicate that low Mr single-chain u-PA can be targeted to a fibrin clot with a single-chain Fv fragment of a fibrin-specific antibody, resulting in a 13-fold increase of the fibrinolytic potency of the single-chain form and a 2.5-fold increase of the potency of the two-chain form.     

Lipopolysaccharide-induced modulation of human monocyte urokinase production and activity

Cells of the monocyte/macrophage lineage are known to produce urokinase type plasminogen activator (u-PA) and are active participants in the inflammatory response. Modulation of cellular u-PA production, for instance in response to LPS, may have an important impact on the evolution of inflammatory lesions. A definitive picture of how monocyte u-PA production and activity are regulated by LPS is lacking. We addressed this issue directly by measuring u-PA Ag and activity in mononuclear cell cultures. By using a competition ELISA to quantitate u-PA Ag, we found that LPS-stimulated mononuclear cells in culture increased u-PA production in a dose-dependent manner and that all the u-PA detected was attributable to the monocytes therein. Increasing amounts of u-PA were secreted into the medium, bound to the cell surface, and found intracellularly. Although the absolute amounts of u-PA varied from donor to donor, the increases seen with LPS stimulation were a consistent and statistically significant finding. Only the cell-surface-bound u-PA was fibrinolytically active, however, with this activity increasing upon LPS stimulation. All monocyte cell-surface-associated fibrinolytic activity was attributed to u-PA, as shown by plasminogen dependence, neutralization by antibodies to u-PA, and identification of fibrinolytically active molecules eluted from the cell surface. The surface bound u-PA was not inhibited by its physiologic inhibitors, PAI-1 or PAI-2, whereas free u-PA was. Hence LPS stimulation results in monocytes exhibiting increased cell-surface-associated u-PA Ag and fibrinolytic activity, in spite of concomitant high levels of plasminogen activator inhibitor type 2 production. This surface-bound enzymatic activity may influence the ability of monocytes to migrate in and interact with an inflammatory microenvironment.     

Characterization of a tissue-type plasminogen activator from porcine urine

Porcine urine, unlike human urine, does not contain detectable amounts of urokinase-type plasminogen activator (u-PA). The plasminogen activator present in porcine urine is of tissue-type (t-PA) as identified by the following criteria. (1) Porcine urine PA exhibits an Mr of 65,000 similar to the Mr of human t-PA (64-70,000) but distinct from the Mr of human u-PA (55,000). (2) Antibodies against human t-PA bind and inhibit crude and purified porcine urine PA, while human u-PA-specific antibodies do not react with porcine urine PA. (3) Plasminogen activation by porcine urine PA is markedly stimulated in the presence of fibrinogen fragments. (4) Porcine urine PA activity is not affected by concentration of amiloride substantially suppressing human u-PA activity.     

The high molecular weight and the low molecular weight acid phosphatases of the frog liver and their phosphotyrosine activity

1. Two molecular weight classes of non-specific acid phosphatases (AcPases) (3.1.3.2) are present in the frog (Rana esculenta) liver: a higher molecular weight (HMW) of Mr 140,560 and a lower molecular weight (LMW) of Mr 38,180 enzyme. 2. The LMW AcPase was described earlier and the HMW AcPase of optimum pH 4.8 is shown to be a L(+)-tartrate sensitive, thermolabile, dimeric glycoenzyme slightly activated by DTT. 3. The HMW and the LMW AcPases exhibit activity for phosphotyrosine which showed similar sensitivity to various effectors as the p-nitrophenyl phosphatase activity; however, both enzymes differed substantially in this respect suggesting that they might be involved in different metabolic steps.     

Inhibition of urokinase by protein C-inhibitor (PCI). Evidence for identity of PCI and plasminogen activator inhibitor 3

Human protein C-inhibitor (PCI) was isolated from human citrated plasma by combining rivanol precipitation, ammonium sulfate precipitation, ion-exchange chromatography on DEAE-Sephacel and affinity chromatography on dextran sulfate Sepharose. The purified PCI migrated with the beta-globulins and was free from protein contaminations as judged by immunoelectrophoresis. In SDS-PAGE under reducing and unreducing conditions PCI showed a single band at Mr = 57,000. The specific activity of the inhibitor was 226 units/mg. Surprisingly, the isolated PCI inhibited the amidolytic activity of urokinase (u-PA) on Glu-Gly-Arg-pNA (S-2444) in a time-dependent manner. Heparin, dextran sulfate and pentosanpolysulfate accelerated the reaction catalytically. PCI revealed itself as a non-competitive inhibitor of u-PA. The Ki-value was determined to be 7.9 x 10(-8)M. Inhibition of amidolytic activity was found to be associated with the formation of an 1:1 equimolar complex with a Mr of 110,000 as demonstrated by means of polyacrylamide gel electrophoresis and following Western blotting technique using polyclonal antibodies against u-PA and PCI. The specific activity of the isolated PCI of 226 units/mg, which approximates the theoretical value of pure PCI, indicates a highly purified preparation of PCI. The heparin-dependent inhibition of urokinase by this highly purified protein as well as comparison of the kinetic data and amino-acid composition of both PCI and the recently described plasminogen activator inhibitor (PAI) 3 give high evidence of identity of PCI and PAI-3.     

Expression of cDNAs encoding barley alpha-amylase 1 and 2 in yeast and characterization of the secreted proteins

Amylolytic strains of the yeast, Saccharomyces cerevisiae, were constructed by transformation with expression plasmids containing cDNAs encoding either AMY1 (clone E) or AMY2 (clone pM/C). The alpha-amylases were efficiently secreted into the culture medium directed by their own signal peptides. When clone E without its 5'-noncoding region was expressed from the yeast PGK promoter, AMY1 was produced as 1% of total cell protein and was thus the major protein secreted, whereas a similar construct derived from pM/C produced much less AMY2. This level is the highest reported for a plant protein secreted by yeast as mediated by the endogenous signal peptide. Production of AMY1 increased 25-fold when the 5'-noncoding part of clone E which contains a 12-bp dG.dC homopolymer tail had been removed. Moreover, expression was one to two orders of magnitude higher when genes encoding AMY1 or AMY2 were inserted between promoter and terminator of the yeast PGK gene in comparison to expression directed from the ADC1 or GAL1 promoters. Recombinant AMY1 and AMY2 had the same Mr and N-terminal sequence as the corresponding barley malt enzymes. Furthermore, none of the enzymes were found to be N-glycosylated. Isoelectric focusing indicated that transformed yeast cells secreted one major form of AMY2 and four dominant forms of AMY1. One AMY1 form corresponded to one of the major forms found in malt while the others, having either low activity or unusually high pI, probably reflect inefficient/incorrect processing. Enzyme kinetic properties and pH activity-dependence of recombinant AMY2 were essentially identical to those of malt AMY2.(ABSTRACT TRUNCATED AT 250 WORDS)     

Alpha 2-macroglobulin restricts plasminogen activation to the surface of RC2A leukemia cells.

Human RC2A myelomonocytic leukemia cells are able to activate the prourokinase (pro-u-PA) they secrete so that active u-PA is present both in serum-free conditioned medium from these cells, as well as on the cell surface. When the cells are grown in serum-containing medium, no u-PA activity can be found in the medium but active u-PA is found bound to the cell surface where it can generate bound plasmin. This distribution of u-PA activity was shown to be, first, the net result of slow inactivation of free active u-PA by serum inhibitor(s) and simultaneous rapid uptake of u-PA onto the cell surface. Binding to cells was at least six times faster than inactivation by 10% serum. The principal serum inhibitor of u-PA was identified as alpha 2-macroglobulin (alpha 2M), and prior inactivation of u-PA by purified human alpha 2M was also shown to prevent uptake of u-PA activity onto cells. Second, although endogenous u-PA could form covalent complexes with purified alpha 2M in the culture medium of RC2A cells, covalent alpha 2M complexes were not formed by u-PA on the cell surface; the u-PA taken up in this compartment was protected against alpha 2M inhibition. u-PA anchored to plastic surfaces via monoclonal antibodies to the amino-terminal region of u-PA was also protected against alpha 2M, suggesting that the protection of cell surface u-PA results from a steric effect. These results provide evidence as to how the active u-PA produced by leukemia cells can contribute to proteolytic activity on their cell surface in the presence of serum inhibitors.     

Plasminogen activators in human breast cancer cell lines: hormonal regulation and properties

To understand the hormonal regulation of plasminogen activators (PAs) in human breast cancer, we have examined the hormonal regulation and properties of PAs in four human breast cancer cell lines that differ markedly in their estrogen receptor (ER) content: MCF-7 cells contain high levels of ER (approx 7 pmol/mg DNA) and their PA activity was increased 3-4-fold by physiological concentrations of estradiol; T47-D and ZR-75-1 cells contain lower levels of ER (0.9 and 2.1 pmol/mg DNA respectively) and their PA activity was also increased 3-4-fold by estradiol. In contrast, MDA-MB-231 cells, which do not contain ER, showed a high level of PA activity that was not modulated by estradiol. SDS-PAGE followed by zymography indicated that MCF-7 cells secreted tissue-type PA (t-PA), T47-D and ZR-75-1 cells secreted urokinase-type PA (u-PA), and MDA-MB-231 cells secreted both types of PAs. The types of PAs secreted by these cell lines did not change upon treatment with estradiol. Dose-response curves for the stimulation of MCF-7 PA activity by different estrogens showed an excellent correlation between affinities of the estrogens for ER and their potency in stimulating PA activity. With a clonal subline of MCF-7 cells, MCF-L, a soluble inhibitor of both t-PA and u-PA was secreted. Incubation of purified t-PA or u-PA with the serum-free conditioned medium from MCF-L cells resulted in a shift in the mobility of t-PA and u-PA in SDS-polyacrylamide gels to forms increased in molecular mass by about 50,000-70,000. The shifts in molecular mass could be prevented by the presence of the competitive inhibitor p-aminobenzamidine, indicating that the active sites of the PAs were involved in the formation of these complexes. Furthermore, co-cultivation, of RT4-D rat neuroblastoma cells, which exhibit high levels of t-PA activity, with MCF-L cells resulted in a marked decrease in the PA activity of the RT4-D cells. Our results were consistent with the following conclusions: t-PA, u-PA or both were secreted by human breast cancer cells. In the ER-containing cell lines, depending upon the specific cell line, t-PA or u-PA was stimulated by estrogens. The unstimulated levels of PA activity and the magnitude of PA stimulation by estrogens were not closely related to ER content.(ABSTRACT TRUNCATED AT 400 WORDS)     

Nerve growth factor: biosynthetic products of the mouse salivary glands. Characterization of stable high molecular weight and 32,000-dalton nerve growth factors

Nerve growth factor (NGF) is a protein required for the growth and development of sensory and sympathetic neurons. The NGF is present in high concentrations in male mouse salivary glands, bovine seminal plasma, and snake venom. The physiological significance of NGF in these sources is not known: it might be a part of a high molecular weight (HMW) protein with possibly different biological function and be cleaved to the functional size by proteases. In an attempt to isolate a HMW protein containing as part of its structure the low molecular weight (LMW) NGF (2.5S), mouse salivary glands were homogenized in the presence of either 8 M urea or 6 M guanidine hydrochloride (Gdn X HCl) in order to denature proteases. This procedure revealed that the LMW NGF is a part of two HMW proteins that are biologically and immunologically homologous to the mouse 2.5S NGF. One of these HMW proteins (Mr 32,000 NGF) was purified and shown to be biologically active in the NGF bioassay. Furthermore, this Mr 32,000 NGF was cleaved by the gamma subunit of mouse HMW NGF to the 2.5S NGF. Evidence is also presented that there may be a HMW protein(s) with apparent molecular weights ranging from 94,000 to 200,000 and immunologically homologous to the three subunits (alpha, beta, gamma) of 7S NGF. This HMW NGF is biologically active in the NGF bioassay, and its activity is inhibited by antibody to the beta subunit. Furthermore, in contrast to mouse 7S NGF, this HMW NGF does not dissociate in either 8 M urea or 6 M Gdn X HCl.(ABSTRACT TRUNCATED AT 250 WORDS)     

Various properties and kinetics of interaction of high and low molecular weight human kininogens with human plasma kallikrein

A relatively simple procedure for isolation and purification of human blood plasma kallikrein (HPK) by QAE-Sephadex A-50 SP-Sephadex C-50 and affinity chromatography on Sepharose 4B with immobilized soybean trypsin inhibitor with the activity yield of about 40% has been developed. The method allows for simultaneous isolation of low (LMW) and high molecular weight (HMW) kininogens from the same HPK sample. HPK preparations are homogeneous upon 7.5% polyacrylamide gel electrophoresis in the presence of 0.1% SDS; its Mr is 90,000. After treatment with beta-mercaptoethanol, HPK dissociates into two fragments with Mr of 43,000 and 37,000. HPK preparations have high specific activities of esterase (31 microM/min), amidase (78 microM/min), and kininogenase (420 micrograms equiv. bradikinin/min). The high degree of protein purification was demonstrated by titration of active centers with 4-methylumbelliferylguanidine benzoate. The values of equilibrium dissociation constants for the HPK complex with aprotinin (Ki) equal to 1 X 10(-8) M (ethyl ester of N-alpha-benzoyl-L-arginine) and 1,5 X 10(-9) M (HMW) were determined. The kinetics of HPK-induced liberation of bradikinin from purified preparations of HMW and LMW was studied. The kinetic parameters (Km, kcat and kcat/Km) of this reaction suggest a high affinity of HPK for HMW, but not for LMW. LMW does not compete with HMW for the enzyme active center. It is assumed that LMW is not a physiological substrate for HPK.     

Expression of the high molecular weight fibroblast growth factor-2 isoform of 210 amino acids is associated with modulation of protein kinases C delta and epsilon and ERK activation

The high molecular weight (HMW) fibroblast growth factor (FGF)-2 isoform of 210 amino acids initiated at a CUG start codon possesses a nuclear localization sequence and is not secreted. In contrast, the low molecular weight (LMW) isoform of 155 amino acids initiated at the AUG start codon can be secreted and activates the cell surface FGF receptors. The two isoforms possess different biological properties; however, little is known about the intracrine regulatory mechanisms involved in the biological effects of the HMW FGF-2 isoform. Using pancreatic cells stably transfected with cDNAs leading to the expression of either the HMW FGF-2 (A3 cells) or the LMW form (A5 cells), we provide evidence that the two FGF-2 isoforms differentially modulate PKC levels. The LMW FGF-2 up-regulated the PKC epsilon levels by 1.6-fold; by contrast the HMW isoform down-regulated the level of this PKC isotype by about 3-fold and increased the amount of PKC delta by 1.7-fold. PKC mRNAs were also modified, suggesting that PKC expression was regulated at a pretranslational level. Additionally, expression of different levels of the HMW FGF-2 with an inducible expression system confirmed the role of this isoform on PKC delta and epsilon expressions. Increased activation of ERK-1 and -2 was also observed in cells expressing the HMW FGF-2. By using different PKC inhibitors and a dominant negative PKC delta, it was found that ERK activation was PKC delta-dependent. These data indicate that expression of HMW FGF-2 can modify PKC levels by acting at the intracellular level and that the overexpression of PKC delta induces ERK-1/2 activation. The expression of a dominant negative FGFR1 did not reduce ERK-1/2 activation by the HMW FGF-2, suggesting that ERK activation does not require FGFR activity. The signaling cascade downstream of ERK might be involved in the known mitogenic effect exerted by this FGF-2 isoform.