Proteolytic activation of latent transforming growth factor-beta from fibroblast-conditioned medium.

Transforming growth factor-beta (TGF beta) is produced by most cultured cells in an inactive form. Potential activation mechanisms of latent TGF beta were studied using fibroblastic (NRK-49F and AKR-MCA) cell-conditioned medium as a model. Active TGF beta was monitored by radioreceptor and soft agar assays as well as by antibody inhibition and immunoprecipitation. Little or no TGF beta was detected in untreated conditioned medium. Treatment of the medium with extremes of pH (1.5 or 12) resulted in significant activation of TGF beta as shown by radioreceptor assays, while mild acid treatment (pH 4.5) yielded only 20-30% of the competition achieved by pH 1.5. In an effort to define more physiological means of TGF beta activation, the effects of some proteases were tested. Plasmin and cathepsin D were found to generate 25-kD bands corresponding to the active form of TGF beta as shown by immunoprecipitation analysis of radiolabeled cell-conditioned medium. Plasmin treatment of the medium resulted in activity that was quantitatively similar to that of mild acid treatment as measured by radioreceptor and soft agar assays. In addition, the plasmin-generated activity was inhibited by anti-TGF beta antibodies. Sequential treatments of AKR-MCA cell-conditioned medium with mild acid followed by plasmin or plasmin followed by mild acid gave activation comparable to either treatment alone. The data suggest that conditioned medium may contain at least two different pools of latent TGF beta. One pool is resistant to mild acid and/or plasmin and requires strong acid or alkali treatment for activation. A second pool is activated by mild pH change and/or plasmin. Activation of this form of latent TGF beta may take place by dissociation or proteolytic digestion from a precursor molecule or hypothetical TGF beta-binding protein complex.

Mechanism of activation of latent recombinant transforming growth factor beta 1 by plasmin.

Medium conditioned by Chinese hamster ovary (CHO) cells transfected with the simian pre-pro-TGF beta 1 cDNA contains high levels of latent TGF beta 1. The amino-terminal region of the TGF beta 1 precursor is secreted and can be detected in the conditioned medium by immunoblotting using peptide antibodies specific for amino-terminal peptides. Chemical cross-linking of CHO-conditioned medium using bis-(sulfosuccinimidyl)-suberate (BS3) followed by immunoblot analyses indicates that latent recombinant TGF beta 1 contains both the cleaved amino-terminal glycopeptide and mature TGF beta 1 polypeptide in a noncovalent association and that this association confers latency. The data presented here do not support the involvement of a unique TGF beta binding protein(s) in latent recombinant TGF beta 1. Plasmin treatment of CHO-conditioned medium resulted in the appearance of TGF beta competing activity. In addition, immunoblot analysis of plasmin-treated CHO-conditioned medium indicates that the amino-terminal glycopeptide is partially degraded and that mature TGF beta 1 is released. Thus, activation of latent TGF beta 1 may occur by proteolytic nicking within the amino-terminal glycopeptide thereby causing a disruption of tertiary structure and noncovalent bonds, which results in the release of active, mature TGF beta 1. Acid activation of latent TGF beta, in comparison, appears to be due to dissociation of the amino-terminal glycopeptide from the mature polypeptide.

Interaction of Ca2+ and protein phosphorylation in the rabbit platelet release reaction.

Ca2+ flux and protein phosphorylation have been implicated as playing an important role in the induction of the platelet release reaction. However, the interactions between Ca2+, protein phosphorylation, and the release reaction have been difficult to study because secretion in human platelets is independent of extracellular Ca2+. Thus, we studied rabbit platelets, which, unlike human platelets, require extracellular Ca2+ for serotonin release to occur. Thrombin, basophil platelet-activating factor (PAF), or ionophore A23187 treatment of intact 32PO43--loaded rabbit platelets resulted in a 200-400% increase in phosphorylation of P7P and P9P, respectively. These peptides were similar in all respects to the peptides phosphorylated in thrombin-treated human platelets. When Ca2+ was replaced in the medium by EGTA, (a) thrombin- and PAF-induced rabbit platelet [3H]serotonin release was inhibited by 60-75%, whereas ionophore-induced release was blocked completely; (b) thrombin-, PAF-, or ionophore-induced P9P phosphorylation was inhibited by 60%; and (c) ionophore-induced P7P phosphorylation was decreased by 60%, whereas that caused by thrombin or PAF was decreased by only 20%. At 0.25-0.5 U/ml of thrombin, phosphorylation preceded [3H]serotonin release with the time for half-maximal release being 26.0 +/- 1.3 s SE (n = 3) and the time for half-maximal phosphorylation being 12.3 +/- 1.3 s SE (n = 3) for P7P and 3.7 +/- 0.17 s SE (n = 3) for P9P. P9P phosphorylation was significantly inhibited (P less than 0.015) by removal by Ca2+ from the medium at a time point before any thrombin- or ionophore-induced serotonin release was detectable. Thus, our data suggest that Ca2+ flux precedes the onset of serotonin secretion and that the rabbit platelet is an appropriate model in which to study the effects of Ca2+ on protein phosphorylation during the platelet release reaction.

Membrane changes associated with platelet activation. Exposure of actin on the platelet surface after thrombin-induced secretion.

The effect of aggregation and secretion on membrane proteins was studied in washed human platelets. Reversible aggregation without secretion was stimulated by ADP and secretion without aggregation was stimulated by thrombin in the presence of EDTA. No loss of platelet surface glycoproteins occurred during reversible ADP-induced platelet aggregation, as measured by quantitative polyacrylamide gel electrophoresis analysis of platelets that were labeled with (125)I-diazotized diiodosulfanilic acid (DD(125)ISA) before ADP stimulation. Also, no new proteins became exposed on the platelet surface after ADP aggregation, as determined by DD(125)ISA labeling after stimulation. Thrombin-induced platelet secretion also caused no loss of platelet surface glycoproteins. However, after platelet secretion two new proteins were labeled by DD(125)ISA: (a) actin and (b) the 149,000-mol wt glycoprotein (termed GP-G), which is contained in platelet granules and secreted in response to thrombin. The identity of DD(125)ISA-labeled actin was confirmed by four criteria: (a) comigration with actin in three different sodium dodecyl sulfate-polyacrylamide gel electrophoresis systems, (b) elution from a particulate fraction in low ionic strength buffer, (c) co-migration with actin in isoelectric focusing, and (d) binding to DNase I. The identity of actin and its appearance on the platelet surface after thrombin-induced secretion was also demonstrated by the greater binding of an anti-actin antibody to thrombin-treated platelets, measured with (125)I-staphylococcal protein A.Therefore, major platelet membrane changes occur after secretion but not after reversible aggregation. The platelet surface changes occurring with secretion may be important in the formation of irreversible platelet aggregates and in the final retraction of the blood clot.

Thrombin-induced protein phosphorylation in human platelets.

Intact human platelets loaded with 32PO4 contain multiple phosphorylated proteins. Thrombin treatment of intact 32PO4-loaded platelets results in a 2-6-fold increase in phosphorylation of a platelet protein (designated "peak 7" protein) of approximately 40,000 mol wt as determined by sodium dodecyl sulfate polyacrylamide gel electrophoresis and by gel filtration on Sephadex G-150. A similar increase in phosphorylation was observed in a platelet protein (designated "peak 9" protein) of approximately 20,000 mol wt. The time for half-maximal phosphorylation of peak 7 and peak 9 protein was 10-14 s. The concentration of thrombin at half-maximal phosphorylation was 0.25 U/ml for both proteins. Prior incubation of platelets with dibutyryl cyclic adenosine 3',5'-monophosphate or prostaglandin E1 inhibited thrombin-induced peak 7 and peak 9 protein phosphorylation. The erythroagglutinating phytohemagglutinin of Phaseolus vulgaris, a non-proteolytic release-inducing agent, induced peak 7 and peak 9 protein phosphorylation. Thus, the characteristics of peak 7 and peak 9 protein phosphorylation are similar to those of the platelet release reaction, suggesting that the phosphorylation of these proteins may play a role in the platelet release reaction. When platelet sonicates or the supernatant fraction from platelet sonicates were incubated with [gamma-32P]ATP there was phosphorylation of both peak 7 and peak 9 proteins. This phosphorylation was unaffected by either added thrombin or adenosine 3',5'-cyclic monophosphate (cAMP) despite the presence of the phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine. Thus, the thrombin-dependent phosphorylation depends upon intact platelets. When the supernatant fraction from platelet sonicates was fractionated by histone-Sepharose affinity chromatography, two distinct protein kinase enzymes were resolved, one a cAMP-dependent holoenzyme and the other a cAMP-independent enzyme. The isolated cAMP-dependent enzyme fraction catalyzed the cAMP-(but not thrombin-) stimulated phosphorylation of a protein that co-electrophoresed with peak 7 protein.

Hepatic processing of transforming growth factor beta in the rat. Uptake, metabolism, and biliary excretion.

Transforming growth factor beta (TGF beta), a recently discovered polypeptide, modulates growth of normal and neoplastic cells. Since little is known concerning in vivo disposition of TGF beta, we performed studies to examine the hepatic processing of biologically active 125I-TGF beta in the rat. After intravenous injection, 125I-TGF beta disappeared from the plasma with an initial t1/2 of 2.2 min; partial hepatectomy delayed the plasma disappearance of 125I-TGF beta by 80%. 60 min after intrafemoral injection, 63% of the recovered label was present in liver and/or bile; by 90 min, most of the label removed by the liver (83%) had been slowly excreted into bile. Nearly all the label in bile (96%) was soluble in trichloracetic acid and not immunoprecipitable by specific antiserum. Colchicine and vinblastine inhibited cumulative biliary excretion of label by 28 and 37%, respectively; chloroquine and leupeptin each increased the amount of label in bile that was precipitable by trichloracetic acid and that coeluted with authentic 125I-TGF beta on molecular sieve chromatography. There was efficient first-pass hepatic extraction of 125I-TGF beta (36%) in the isolated perfused rat liver, which was inhibited by unlabeled TGF beta (but not by epidermal growth factor, EGF) and by lectins in a dose-dependent manner; prolonged fasting also decreased clearance (26%). After fractionation of liver by differential or isopycnic centrifugation, radiolabel codistributed with marker enzymes for lysosomes. The results indicate rapid, extensive, inhibitable, and organ-selective extraction of TGF beta by the liver. After extraction, TGF beta undergoes efficient transhepatic transport, extensive intracellular metabolism, and slow but complete biliary excretion of its metabolites. Liver fractionation studies and pharmacologic manipulations suggest that these processes are associated with organelles that include microtubules and lysosomes. The data suggest that the liver is a major target tissue or site of metabolism for biologically active TGF beta.

Transforming growth factor-beta activity in sheep lung lymph during the development of pulmonary hypertension.

Chronic pulmonary hypertension is associated with extensive structural remodeling of the pulmonary arterial bed. The structural changes in the arterial walls include increased production of extracellular matrix components and smooth muscle cell hypertrophy, changes that have been similarly induced by transforming growth factor-beta (TGF-beta) in culture. In the present study, experiments were performed to determine whether TGF-beta is present in sheep lung lymph, and whether TGF-beta levels were altered in an animal model of chronic pulmonary hypertension induced by continuous air embolization. Several standard biological assays for TGF-beta activity were used for these determinations including soft agar assays, inhibition of epithelial cell proliferation, and a TGF-beta-specific radioreceptor assay. In each case, control lung lymph contained high concentrations of TGF-beta (100 ng/ml) which required transient acidification for detection. Samples of lung lymph from hypertensive sheep showed a transient and early two- to threefold increase in concentrations of latent TGF-beta. This activity could be partially blocked by TGF-beta antibodies. These studies indicate that sheep lung lymph contains TGF-beta and that the level of TGF-beta increases early during the development of pulmonary hypertension. Thus, TGF-beta may contribute to the development of the structural changes in the pulmonary arteries that occur during the onset of chronic pulmonary hypertension.

Immunodetection and modulation of cellular growth with antibodies against native transforming growth factor-beta 1.

In an attempt to identify and quantitate latent and active forms of transforming growth factor beta (TGF beta) without the use of cell cultures and to test for autocrine stimulation by TGF beta, rabbit antibodies were raised against native human and porcine platelet-derived TGF beta. A radioimmunoassay for TGF beta was developed using radioiodinated TGF beta, anti-TGF beta antibodies, and protein A. Inhibition in the radioimmunoassay was achieved with nanogram quantities of TGF beta, comparable to the sensitivity of radioreceptor assays. Analyses of the TGF beta levels of conditioned medium from cultured cells indicated that the latent form(s) of TGF beta is not detectable in the radioimmunoassay established using antibodies raised against native TGF beta. Immunoprecipitation analysis of radiolabeled conditioned medium revealed a specific Mr 25,000 band only after acidification. A Mr 62,000 protein was observed with and without prior acidification of the medium but could not be competed with unlabeled TGF beta in the immunoprecipitation indicating antigenic unrelatedness. The anti-TGF beta IgG inhibited the binding of [125I]TGF beta to the cell surface receptors in a radioreceptor assay. TGF beta inhibition of A549 cell growth was reversed by the antibodies, which also neutralized the growth inhibitory effects of TGF beta on AKR-2B cells in a monolayer [3H]thymidine incorporation assay as demonstrated by prevention of TGF beta inhibition of insulin and epidermal growth factor-stimulated DNA synthesis. The antibodies also effectively inhibited spontaneous soft agar growth of AKR-MCA fibroblasts, providing evidence for autocrine secretion of TGF beta as a mechanism of their anchorage-independent growth.

Mid-G1 arrest and epidermal growth factor independence of ras-transfected mouse cells.

Transfection of C3H/10T1/2 cells with either a c-myc or an activated c-Ha-ras gene decreased the cellular dependence for serum-derived factors to proliferate in monolayer. The c-myc-transfected cells did, however, require a high plasma concentration for significant growth, while the ras transfectants grew extremely well in either low or high concentrations of either plasma or serum. Stimulation of quiescent cultures with purified growth factors demonstrated that c-myc transfection did not alter qualitatively or quantitatively the requirement for both epidermal growth factor (EGF) and insulin to progress to DNA synthesis. Cells transfected with either a ras gene alone or a combination of ras plus c-myc lost their dependence on EGF for DNA synthesis; cultures became committed to S phase in serum-free medium supplemented with insulin alone. The ras transfectants arrested in mid-G1, 6 h prior to S phase. The EGF independence of the ras transfectants is consistent with the mid-G1 arrest of these cells at a point(s) distal to the primary action of EGF in early G0-G1.

Human carcinoid cell production of paracrine growth factors that can stimulate fibroblast and endothelial cell growth.

A serotonin-secreting human pancreatic carcinoid cell line (BON) is demonstrated to express transcripts for all three mammalian types of transforming growth factor beta (TGF beta 1, 2, and 3). Similarly, freshly excised carcinoid tumors from six patients were also found to express mRNA for all three of the type-beta TGFs. Medium conditioned by BON cells had detectable TGF beta activity, although most of the activity was latent as determined by radioreceptor assay with and without prior acid treatment. However, nonactivated BON-conditioned medium stimulated DNA synthesis, soft agar growth, and an increase in TGF beta 1 and fibronectin mRNA expression in AKR-2B fibroblasts. In addition, BON-conditioned medium had a potent endothelial cell growth-stimulatory activity. Since the TGF beta s inhibit growth of endothelial cells, the presence of other growth factors was suspected. TGF alpha, c-sis, and basic fibroblast growth factor transcripts were also found to be expressed by the BON carcinoid cells. These data indicate that multiple peptide growth factors may have a paracrine role in the desmoplastic reaction accompanying carcinoid tumors.

Requirements for different Ca2+ pools in the activation of rabbit platelets. I. release reaction and protein phosphorylation.

We examined the role of Ca2+, both extracellular and intracellular in origin, in the release reaction and protein phosphorylation in rabbit platelets stimulated with platelet activating factor (acetylglyceryl ether phosphorylcholine), thrombin, or ionophore A23187. In the presence of extracellular Ca2+, 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8), a putative antagonist of intracellular Ca2+ transport, blocked platelet activating factor-initiated serotonin release at a half-maximal inhibitor concentration of 40 microM, compared to 350 microM for thrombin-induced release and greater than 500 microM, for A23187-induced release. Platelet activating factor-induced phosphorylation of two platelet proteins of Mr = 41,000 (P7P) and 20,000 (P9P) was inhibited by TMB-8, an effect which was additive to that caused by removing extracellular Ca2+. TMB-8 demonstrated only minor to non-existent inhibitory effect on phosphorylation in thrombin- or A23187-stimulated platelets. In contrast to P9P phosphorylation, phosphorylation of P7P caused by platelet activating factor was more dependent on a TMB-8 sensitive step than on the availability of extracellular Ca2+. Experiments with buffers containing fixed concentrations of free Ca2+ revealed that both processes (release and phosphorylation), when stimulated by platelet activating factor and thrombin, had the same threshold requirement (1-3 microM) for extracellular free Ca2+. These studies provide evidence tht stimulation of rabbit platelets by platelet activating factor is more dependent on a TMB-8-sensitive intracellular Ca2+ source than is stimulation caused by thrombin. Furthermore, our data indicate that activation of different intracellular processes involved in platelet secretion (such as P7P and P9P phosphorylation) may require Ca2+ from different pools.

Requirement for different Ca2+ pools in the activation of rabbit platelets II. Phospholipase activity.

The effects of extracellular Ca2+ concentration and the putative antagonist of intracellular Ca2+ movement, 8-(N,N-diethylamino)octyl-3,4,5-trimethoxybenzoate (TMB-8) on platelet phospholipase activity and thromboxane B2 synthesis were examined in rabbit platelets stimulated by platelet activating factor, thrombin and ionophore A23187. TMB-8 markedly inhibited the platelets stimulated by platelet activating factor, thrombin and ionophore A23187. TMB-8 markedly inhibited the platelet activating factor-induced decrease in [14C]arachidonate content in platelet phosphatidylcholine and phosphatidylinositol, while showing minimal effects on thrombin-induced phospholipase activation. A23187 stimulation of these processes was inhibited to an intermediate degree by TMB-8. In contrast, extracellular Ca2+ removal inhibited phospholipase activity to a similar degree with all three stimuli. Moreover, the threshold concentration of extracellular Ca2+ for phospholipase activation, as measured by thromboxane B2 synthesis, was similar for platelet activating factor- and thrombin-stimulated platelets. These data provide evidence that, while platelet activating factor and thrombin may, to some extent, have similar requirements for extracellular Ca2+, they utilize a TMB-8 sensitive step to different degrees during activation of platelet phospholipase.

The cell biology of transforming growth factor beta.

The TGF beta family of polypeptide growth factors regulates a remarkable diversity of cellular functions, many of which are not directly associated with cell growth. The present review has summarized many of the recent studies that have just begun to conceptually integrate this expanding array of TGF beta functions into the context of a three-dimensional, multicellular organ or tissue, be it normal or diseased. This fascinating research strongly implicates TGF beta as a key modulator of a wide variety of important physiologic and pathophysiologic processes.

Differential binding of transforming growth factor-beta 1, -beta 2, and -beta 3 by fibroblasts and epithelial cells measured by affinity cross-linking of cell surface receptors.

A murine fibroblast cell line (AKR-2B clone 84A) and an epithelial cell line (BALB/MK) were compared for their ability to bind different transforming growth factor-beta (TGF beta) species. The results of competitive binding assays indicated that the epithelial cells had a higher affinity for TGF beta than the fibroblasts. This difference may be the basis for the sensitivity of epithelial cells to much lower concentrations of TGF beta than fibroblasts. Affinity cross-linking studies showed that both cell types express the three cell surface TGF beta-binding molecules that have been previously described for a variety of cell types. The complexity of these cell surface binding proteins was further evaluated using all possible combinations of radiolabeled ligands in competition with each of the three unlabeled TGF beta species. Differences in the ability of specific TGF beta types to compete with radiolabeled TGF beta 2 for binding to the type I and II receptors were observed, with TGF beta 1 being more potent for epithelial cells, and TGF beta 2 being more potent for fibroblasts. In addition, a difference in the ability of different TGF beta species to compete the [125I]TGF beta 3 from epithelial cell surface receptors was apparent. TGF beta 2 was not able to compete with [125I]TGF beta 3 for binding to the type II receptor at any concentration tested, while TGF beta 1 and TGF beta 3 were about equally potent in competition for this receptor type. These differences in cell surface receptor binding of structurally and biologically similar molecules may reflect different functions for these molecules.

Human transforming growth factor-beta 3: recombinant expression, purification, and biological activities in comparison with transforming growth factors-beta 1 and -beta 2.

Recent cDNA characterization has predicted the existence of a new member of the transforming growth factor family, transforming growth factor-beta 3 (TGF beta 3). However, nothing is known about the biological activities of the TGF beta 3 protein, since it has not been purified from any natural sources. We report here the recombinant expression in mammalian cells and the purification to apparent homogeneity of human TGF beta 3. The TGF beta 3 was evaluated in comparison with purified TGF beta 1 and TGF beta 2 in several assays for its effects on stimulation or inhibition of proliferation of mammalian cells. These analyses revealed that TGF beta 3 exerts activities similar to the two other TGF beta species, but that there are distinct differences in potencies between the different TGF beta forms depending on the cell type and assay used.

Comparing different routes and doses of phytonadione for reversing excessive anticoagulation.

BACKGROUND: Significant controversy exists concerning how best to reverse excessive anticoagulation (due to warfarin sodium therapy) with phytonadione (vitamin K1) while avoiding overcorrection in patients who need to have anticoagulation therapy maintained. METHODS: A retrospective review of phytonadione use in reversing excessive anticoagulation was performed in 3 institutions. The effectiveness of low-dose (< or =0.5 mg) intravenous (LDIV), high-dose (1-10 mg) intravenous (HDIV), subcutaneous (1-10 mg) (SC), and oral (2.5 or 5 mg) (PO) phytonadione was evaluated within 48 hours of administration. Anticoagulation correction (international normalized ratio [INR], > or =2.0 and < or =5.0) occurred in 5 of 8 patients in the LDIV, 5 of 9 in the HDIV, 7 of 10 in the SC, and 5 of 6 in the PO groups. Correction was inadequate (INR >5.0) in 2 of 8 patients in the LDIV, 0 of 9 in the HDIV, 3 of 10 in the SC, and 1 of 6 in the PO groups. Overcorrection (INR <2.0) occurred in 1 patient in the LDIV, 4 patients in the HDIV, 0 in the SC, and 0 in the PO groups. CONCLUSIONS: Anticoagulation correction was achieved in most patients in all 4 groups. The HDIV method was most effective in lowering the INR to less than 5.0, but overcorrection occurred more frequently (4 patients in the HDIV vs 1 patient in the LDIV and 0 patients in the SC and PO groups). Failure to achieve an INR of less than 5.0 was a greater problem in the SC group (3 patients in the SC vs 2 patients in the LDIV and 1 patient in the PO groups). The LDIV and PO methods appear to be acceptable alternatives to the HDIV and SC methods currently recommended.

Adenoviral vector-mediated expression of physiologic levels of human factor VIII in nonhuman primates.

An E1-, E2a-, E3-deleted adenoviral vector (Av3H82) encoding an epitope-tagged B domain-deleted human factor VIII cDNA (flagged FVIII) was evaluated in nonhuman primates. Twelve cynomolgus monkeys received intravenous administration of Av3H82; 6 monkeys received 6 x 10(11) particles/kg and another 6 received 3 x 10(12) particles/kg. Adenoviral vector transduction of the liver was efficient, reproducible, and linearly dose dependent. Physiologic levels of flagged FVIII were readily detected in plasma samples obtained from monkeys that received the higher dose of vector and human FVIII mRNA was detected in their livers. Expression of transgene mRNA was restricted to the liver by the albumin promoter. Although vector DNA was readily detected in the liver of monkeys that received the lower dose, neither human FVIII mRNA nor flagged FVIII protein could be detected. Vector distribution was widespread, with the highest levels observed in liver and spleen. Histopathology, hematology, and serum chemistry analysis identified the liver and blood as major sites of toxicity. Transient mild serum elevations of liver enzymes were observed, along with a dose-dependent inflammatory response in the liver. In addition, mild lymphoid hyperplasia was observed in the spleen. Mild anemia and a transient decrease in platelet count were observed, as was marrow hyperplasia and extramedullary hematopoiesis.

Phenotypic alterations in fibroblasts and fibrosarcoma cells that overexpress latent transforming growth factor-beta 1.

Mouse embryo-derived AKR-2B fibroblasts and murine fibrosarcoma cells (the 1591 cell line) were transfected with a murine transforming growth factor-beta 1 (TGF beta 1) cDNA under the transcriptional control of either the simian virus-40 early promoter or the cytomegalovirus promoter/enhancer. Selected clones secreted 2- to 4-fold more TGF beta-competing activity into their media than the parental cell line or neomycin-transfected controls. The TGF beta 1 released into the cell-conditioned medium was latent. Despite the latency of the overexpressed TGF beta 1, TGF beta 1-transfected cells exhibited phenotypic features of TGF beta 1-treated cells. When confluent, the TGF beta 1-transfected cells had the morphological characteristics of the parental cells that have been treated with active TGF beta 1. AKR-2B cells that expressed higher levels of TGF beta 1 also expressed high levels of c-sis and c-myc mRNAs and decreased TGF beta 2 and TGF beta 3 mRNAs in the same manner as parental AKR-2B cells that had been treated with active TGF beta 1. The transfected 1591 cells that overexpressed TGF beta 1 bound less [125I]TGF beta 1 than did parental 1591 cells, but after a mild acid wash demonstrated an increase in [125I]TGF beta 1 binding. Our results suggest that these TGF beta 1-transfected fibroblast and fibrosarcoma cells have the capacity to activate TGF beta; however, as very little activated TGF beta is detected in the medium, it is hypothesized that these cells activate latent TGF beta 1 and bind the activated TGF beta 1, thus acquiring a phenotype consistent with TGF beta 1-treated cells.

An improved retroviral vector encoding the herpes simplex virus thymidine kinase gene increases antitumor efficacy in vivo.

Brain tumors have been treated clinically by intratumoral injection of cells that produce retroviral vectors encoding the herpes simplex virus thymidine kinase (HSV-TK) gene followed by systemic administration of the antiviral drug ganciclovir. In vitro and in vivo comparisons of two different HSV-TK vector producer clones, which were made using standard transfection and transinfection techniques, were conducted. The two clones, PA317/G1TkSvNa.53 (TK.53) and PA317/G1Tk1SvNa.7 (TK1.7), both used in clinical trials, differ with respect to sequences 3' to the HSV-TK stop codon. The retroviral construct used to generate the TK.53 vector producer cell clone contains an open reading frame encoding a portion of the herpes simplex virus glycoprotein H (gH), a potential polyadenylation site and a putative splice site in this region. These sequences were removed from the retroviral construct used to create the TK1.7 vector producer cell clone. Supernatants obtained from TK1.7 vector producer cells had 100- to 1000-fold higher titers (G418 or HAT) than did corresponding supernatants from TK.53 vector producer cells. A murine subcutaneous tumor model was used to assess transduction efficiency and antitumor activity of each vector producer cell clone. In vivo tumor cell transduction was 13- to 18-fold more efficient with TK1.7 cells as compared with TK.53 cells at equivalent doses. Complete tumor ablation was achieved using a 10-fold lower dose of TK1.7 cells as compared with TK.53 cells. These results suggest that TK1.7 cells combined with ganciclovir may provide a more potent antitumor response in humans.

Plasminogen San Antonio: an abnormal plasminogen with a more cathodic migration, decreased activation and associated thrombosis.

An abnormal plasminogen (San Antonio) has been isolated from a patient with axillary vein thrombosis. A decreased level of fibrinolytic activity was detected in both plasma and a purified system. The molecular abnormalities were investigated with both functional and immunological tests. Slightly decreased antigen concentration was noted in plasma. By crossed immunoelectrophoresis, the patient and his two children had a second small arc and the primary arc migrated more cathodically. A distinct isozyme was detected in the abnormal plasminogen. Functionally, this abnormal plasminogen is characterized by failure to enhance maximal conversion to plasmin, especially by plasminogen activators, which are enhanced by fibrin or fibrin degradation products. The proband and his children are heterozygous for this abnormal plasminogen.