Your search keyword '"Masse, E"' showing total 3 results

1. Modulation of transgene expression in mesothelial cells by activation of an inducible promoter.

Author

Hoff CM, Cusick JL, Masse EM, Jackman RW, Nagy JA, and Shockley TR

Subjects

Animals, Animals, Genetically Modified, Base Sequence, Clone Cells, DNA Primers genetics, Dexamethasone pharmacology, Epithelial Cells drug effects, Epithelial Cells metabolism, Glucocorticoids pharmacology, Human Growth Hormone biosynthesis, Human Growth Hormone genetics, Humans, Mice, Peritoneal Dialysis, Peritoneum drug effects, Polymerase Chain Reaction, Promoter Regions, Genetic drug effects, Rats, Zinc pharmacology, Gene Expression Regulation drug effects, Gene Transfer Techniques, Peritoneum cytology, Peritoneum metabolism

Abstract

Background: The efficacy of peritoneal dialysis and its success as a long-term treatment depends on the preservation of the integrity of the peritoneal membrane. With increasing time on dialysis, the membrane may become compromised resulting in decreased dialysing capacity. We have pursued an innovative strategy, i.e. genetic modification of the mesothelial cell to change the properties of the membrane to potentially improve its dialysing capacity and longevity, and have demonstrated the feasibility of this approach in a rat model of ex vivo gene transfer. The potential to regulate transgene expression in this model is examined here., Methods: Rat peritoneal mesothelial cells (MCs) were stably modified to express human growth hormone (hGH) under control of the heavy metal ion and glucocorticoid-regulatable murine metallothionein-1 promoter. The effect of zinc and the synthetic glucocorticoid dexamethasone on hGH expression was analysed in MC clones maintained in continuous passage or stationary phase, and in our rat model of ex vivo gene transfer., Results: Exposure of these clones to zinc and dexamethasone, either singly or in combination, resulted in significant (i.e. 2-200-fold) increases in hGH production. Zinc-induced modulation of hGH production was demonstrated in cells in continuous passage and stationary culture. Regulation was also demonstrated after ex vivo gene transfer by both the intraperitoneal administration of zinc ions or the systemic administration of dexamethasone., Conclusions: Our results demonstrate the modulation of transgene expression in MCs in vitro and in vivo, and suggest the potential for the regulation of gene expression in a genetically modified mesothelium that may ultimately be used for the delivery of therapeutic proteins to maintain peritoneal membrane viability in the peritoneal dialysis patient.

Published

1998

2. Pathogenesis of ascites tumor growth: fibrinogen influx and fibrin accumulation in tissues lining the peritoneal cavity.

Author

Nagy JA, Meyers MS, Masse EM, Herzberg KT, and Dvorak HF

Subjects

Animals, Ascites metabolism, Female, Fibrin analysis, Iodine Radioisotopes pharmacokinetics, Male, Mammary Neoplasms, Animal metabolism, Mice, Mice, Inbred C3H, Muscle, Skeletal metabolism, Ovarian Neoplasms metabolism, Peritoneum chemistry, Peritoneum metabolism, Ascites etiology, Capillary Permeability, Fibrinogen metabolism, Peritoneal Cavity blood supply, Peritoneum blood supply

Abstract

In the immediately preceding paper, we demonstrated that the microvasculature supplying peritoneal lining tissues of mice bearing either of two transplantable ascites carcinomas was hyperpermeable to circulating macromolecules. Solid tumors have been shown to exhibit similar levels of microvascular hyperpermeability, leading to extravasation of plasma proteins, including fibrinogen which clots on extravasation to form an extravascular fibrin gel. To determine whether similar extravasation and clotting of plasma fibrinogen occurred in ascites tumors, we used 125I-labeled fibrinogen (125I-F) as a tracer to measure inflow of fibrinogen into the peritoneal cavities, and influx and accumulation of fibrinogen/fibrin in the peritoneal lining tissues (peritoneal wall, mesentery, and diaphragm) of mice bearing syngeneic TA3/St or MOT ascites tumors. The percentage of circulating 125I-F that extravasated into the peritoneal cavity was increased from 10- to 50-fold in mice bearing either ascites tumor. Influx into the peritoneal walls of ascites tumor-bearing mice was 3-7 times that of control mice and became maximal on day 8 (TA3/St) and day 15 (MOT). Accumulation of 125I-F in ascites fluid and peritoneal lining tissues was also increased substantially in mice bearing these ascites tumors, reaching maximal values on days 7-8 (TA3/St) and 19-29 (MOT) at levels 2- to 3-fold (peritoneal wall) and 33- to 148-fold (ascites fluid) above control levels. Significant amounts of the 125I-F that accumulated in the peritoneal lining tissues of ascites tumor-bearing animals were insoluble in 3 M urea, consistent with clotting of 125I-F to cross-linked fibrin. Autoradiographs of SDS-PAGE gels performed on extracts of peritoneal lining tissues of both ascites tumors revealed the characteristic signature of cross-linked fibrin, i.e., gamma-gamma dimers and alpha-polymers. Fibrin was also identified in peritoneal lining tissues of both ascites tumors by immunohistochemistry. Taken together, these data indicate that fibrinogen, like other circulating macromolecules, extravasates into the peritoneal cavity and peritoneal lining tissues of ascites tumor-bearing mice and does so with kinetics similar to those of other macromolecular tracers we have studied. Moreover, a portion of the fibrinogen that extravasated into peritoneal lining tissues clotted to form a cross-linked fibrin meshwork which trapped tumor cells and favored their attachment to the peritoneal surface. By analogy with solid tumors, such fibrin deposits may also be expected to have a role in initiating angiogenesis and the generation of mature tumor stroma.

Published

1995

3. Exchange of macromolecules between plasma and peritoneal cavity in ascites tumor-bearing, normal, and serotonin-injected mice.

Author

Nagy JA, Herzberg KT, Masse EM, Zientara GP, and Dvorak HF

Subjects

Adenocarcinoma blood supply, Adenocarcinoma metabolism, Animals, Ascites blood, Biological Transport, Breast Neoplasms blood supply, Breast Neoplasms metabolism, Capillary Permeability drug effects, Dextrans blood, Female, Fluorescein, Fluoresceins, Mice, Molecular Weight, Ovarian Neoplasms blood supply, Ovarian Neoplasms metabolism, Peritoneum blood supply, Serotonin pharmacology, Ascites metabolism, Dextrans metabolism, Peritoneal Cavity metabolism, Peritoneum metabolism

Abstract

Fluorescein-labeled dextrans (FITC-D) from 3 to 5000 kDa (Stokes' radii from 1 to 40 nm) were used to study influx from the plasma into the peritoneum and efflux from the peritoneal cavity into the plasma in normal and ascites tumor-bearing mice and in mice whose peritoneal vessels had been rendered hyperpermeable by serotonin. Two syngeneic transplantable murine ascites tumors were studied: mouse ovarian tumor and the TA3/St breast adenocarcinoma. To control for effects of peritoneal fluid volume, influx and efflux were also analyzed in mice that had received 5 ml of 5% bovine serum albumin i.p. as "artificial ascites." Following i.v. or i.p. injection, levels of FITC-D in the plasma and peritoneal fluid were quantitated by fluorimetry at successive time intervals from 5 to 360 min posttracer injection. Influx and efflux data were analyzed with a model consisting of three compartments (plasma, peritoneal cavity, and the extravascular space of all other organs) to yield kinetic parameters that characterized macromolecular transport. Depending on the size of the FITC-D tracer, from 3- to 50-fold more FITC-D accumulated in mouse ovarian tumor or TA3/St tumor ascites fluid, and 3- to 10-fold more FITC-D accumulated in the peritoneum of serotonin-treated than normal mice, all of it intact by gel exclusion chromatography. Influx of the FITC-D from plasma into the peritoneum, as characterized by the rate constant k1, was 2- to 40-fold greater in ascites tumor-bearing animals and 2- to 10-fold greater in serotonin-treated animals than in controls. Control animals with artificial ascites showed at most a 4-fold increase in the value of k1. As judged by fluorescence microscopy, the permeability of peritoneal-lining vessels in ascites tumor-bearing animals was greatly increased to FITC-D of 70 to 5000 kDa. Efflux of FITC-D, characterized by the rate constant k2, was reduced from 5- to 50-fold in ascites tumor-bearing animals but was unchanged or actually somewhat enhanced following serotonin treatment. Efflux in animals that had received artificial ascites was reduced 2.5- to 12.5-fold, correlating increased peritoneal fluid volume with decreased efflux. We conclude that tracer accumulation in malignant ascites fluid results from both increased influx as well as impaired efflux. Influx, and to a lesser extent efflux, were significantly affected by tracer size. However, within the range of FITC-D tested, we found no absolute size barrier to macromolecular transport from plasma to the peritoneal cavity, or vice versa.(ABSTRACT TRUNCATED AT 400 WORDS)

Published

1989