Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P30536 (PBS)
9,886 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

RGTA, a new family of dextran-derived healing agents, promotes the repair of various tissues, including bone. In this study, we examined whether a dose of RGTA lower than in our previous studies could still modify the healing pattern in craniotomy defects. In 24 rats, two defects (3 mm diameter) were drilled on either side of the calvaria sagittal suture. The right defect was filled with a piece of collagen soaked with RGTA in phosphate-buffered saline (PBS; 4 microg/ml), and the left one with collagen soaked in PBS only. After 7, 14 and 21 days, the calvaria were removed and processed for histometry. On day 7, in contrast with the control defects, the treated sites were inflammation-free and centripetal bone plates had started to grow. By day 14, the bone filling was significantly enhanced in the treated defects (+290%, p<0.05), and isolated bone nodules had formed within the fibrous connective tissue (= fibrous hammock) joining the defect edges. The hammock had already differentiated by day 7 in all the RGTA-treated defects, and it was significantly thicker on days 14 (+190%, p<0.05) and 21 (+139%, p<0.05). The colonization of the hammock by mast cells was increased in the treated sites (+320%, p<0.05 on day 21). On day 7, most of the bony edges of the treated defects had been resorbed by osteoclasts, while the process only started in the controls. These data indicate that a low dose of RGTA modified the cascade of events occurring at the initial stages of repair, so that the tissular maturation of the treated defects was more rapid. In fact the use of RGTA in the wounds provoked a shift from a fibrous repair as seen in the controls, to a bone reconstruction favoring defect closure.
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PMID:A single low dose of RGTA, a new healing agent, hastens wound maturation and enhances bone deposition in rat craniotomy defects. 1035 45

The objective of the present study was to develop a single improved technique to culture human vaginal and buccal epithelial cells, whereby the cultured cells can be used in drug permeability studies. Cells were obtained from healthy human vaginal and buccal mucosa following vaginal hysterectomies and various oral surgical procedures. Tissue obtained was washed extensively in phosphate buffered saline (PBS, pH 7.3) containing antibiotics and amphotericin-B. Tissue specimens were cut into small pieces and plated out in 24-well plates. After drying, the full medium was added. Cell growth occurred within 4-6 days from primary explants and confluency was reached within 2-3 weeks. Primary explants yielded epithelial cells with minimal fibroblast contamination. After trypsinization, cells were seeded into collagen-coated wells and onto Transwell membranes. Trypsinized cells grew best on collagen-coated surfaces yielding more than one layer. The average steady state flux for the collagen-coated membranes (ccm's) containing either buccal or vaginal epithelial layers towards water was 6-10 times lower than that found for the cell-free ccm's. Fluxes for cultured cells on ccm's were 3x higher than those obtained for intact buccal and vaginal mucosa. Growth and permeability to water of the vaginal and buccal epithelial cells were comparable, confirming the similarity of these two tissues and the suitability of using the former as a model for the latter in permeability to tritiated water.
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PMID:The culture of human buccal and vaginal epithelial cells for permeability studies. 1051 19

The aim of the study was to determine the in vitro effects of porcine pancreatic elastase on the periosteum of long bones and to what extent the effects are selective for the elastic fibres of the tissue. Twenty-eight new-born chicks' tibiae were incubated for 1 or 3 hours in different experimental conditions (PBS, 30 or 60 units (U)/ml of porcine pancreatic elastase) or immediately formalin fixed. The tibiae were then processed for histo-chemical (Verhoeff and van Gieson stain), immunohistochemical (anti-elastin antibody) and histomorphometric analysis. A decrease of periosteal elastic fibres in all the specimens incubated with elastase in comparison with non incubated specimens was evident. The effect of elastase was easily detectable even at the lower concentration (30 U/ml) and at the shorter time of incubation (1 h). The amount of elastic fibres decreased in accordance with the rise of enzyme levels and incubation time, while periosteal collagen fibre content was not substantially modified by elastase activity. Present data are a prerequisite to evaluate the in vitro and in vivo effects of experimental destruction of periosteal elastic fibres by elastase and to assess the role of these fibres in the growth process of long bones.
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PMID:In vitro effects of elastase on periosteum of long bones: an histochemical, immunohistochemical and morphometric study. 1056 55

The present study was aimed at investigating whether the expression of Fas ligand (FasL) by CHO cells transfected with IL-4 (CHO/IL-4) or IL-10 (CHO/IL-10) genes would improve the effect of the cytokine. DBA/ 1 mice immunized with type II collagen were treated with suboptimal doses of transfected CHO cells (a single s. c. injection of 2 x 10(5) cells) around onset of arthritis. Severe collagen-induced arthritis (CIA) developed in the control groups injected with PBS, CHO /beta-galactosidase/FasL, CHO/IL-4 or CHO/IL-10 cells. In contrast, administration of CHO/IL-4/FasL, but not CHO/IL-10/FasL, cells significantly reduced the clinical severity and resulted in rapid and sustained suppressive effect. Amelioration of CIA was not due to a prolonged in vivo secretion of IL-4 since expression of FasL by CHO cells shortened the in vivo survival of the xenogeneic cells. In fact, administration of FasL(+) cells was associated with a decreased proportion of Mac1(+) neutrophils in the blood and an increased expression of myeloperoxidase at the site of engineered cell engraftment. These findings suggest that the mechanism underlying the beneficial effect of IL-4 delivered by cells expressing FasL involves the combination of the anti-inflammatory properties of IL-4 and the apoptosis of Fas(+) Mac1(+) granulocytes participating in the pathogenic process.
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PMID:Expression of Fas ligand improves the effect of IL-4 in collagen-induced arthritis. 1060 54

Patients with paracoccidioidomycosis often present pulmonary fibrosis and exhibit important respiratory limitations. Based on an already established animal model, the contribution of viable and non-viable P. brasiliensis propagules to the development of fibrosis was investigated. BALB/c male mice, 4-6 weeks old were inoculated intranasally either with 4x10(6) viable conidia (Group I), or 6. 5x10(6) fragmented yeast cells (Group II). Control animals received PBS. Six mice per period were sacrificed at 24, 48, 72h (initial) and 1, 2, 4, 8, 12 and 16 weeks post-challenge (late). Paraffin embedded lungs were sectioned and stained with H&E, trichromic (Masson), reticulin and Grocot&tacute;s. During the initial period PMNs influx was important in both groups and acute inflammation involving 34% to 45% of the lungs was noticed. Later on, mononuclear cells predominated. In group I, the inflammation progressed and granulomas were formed and by the 12th week they fussed and became loose. Thick collagen I fibers were observed in 66.6% and 83.3% of the animals at 8 and 12 weeks, respectively. Collagen III, thick fibers became apparent in some animals at 4 weeks and by 12 weeks, 83% of them exhibited alterations in the organization and thickness of these elements. In group II mice, this pattern was different with stepwise decrease in the number of inflammatory foci and lack of granulomas. Although initially most animals in this group had minor alterations in thin collagen I fibers, they disappeared by the 4th week. Results indicate that tissue response to fragmented yeast cells was transitory while viable conidia evoked a progressive inflammatory reaction leading to granuloma formation and to excess production and/or disarrangement of collagens I and III; the latter led to fibrosis.
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PMID:Fibrotic sequelae in pulmonary paracoccidioidomycosis: histopathological aspects in BALB/c mice infected with viable and non-viable paracoccidioides brasiliensis propagules. 1081 Mar 19

IL-18 expression has recently been detected in rheumatoid arthritis (RA) synovial membrane. We investigated the mechanisms by which IL-18-induced collagen-induced arthritis in DBA/1 mice primed intradermally with type II bovine collagen in IFA and boosted i.p. 21 days later with CII in saline. Mice were injected i.p. with rIL-12, rIL-18, or both (100 ng) during days -1 to 4 and again on days 20-24. Control mice received PBS. Mice treated with IL-12 or IL-18 alone developed significantly higher incidence and more severe disease compared with controls. These were elevated further by combination treatment with IL-12 and IL-18. The cytokine treatments led to markedly enhanced synovial hyperplasia, cellular infiltration, and cartilage erosion compared with controls. Cytokine-treated mice produced significantly more IFN-gamma, TNF-alpha, and IL-6 than the controls. Interestingly, IL-18-treated mice produced more TNF-alpha and IL-6, but less IFN-gamma, compared with mice treated with IL-12. Furthermore, splenic macrophages from DBA/1 mice cultured in vitro with IL-18, but not IL-12, produced substantial amounts of TNF-alpha. Mice treated with IL-18 or IL-18 plus IL-12 produced markedly more IgG1 and IgG2a anti-collagen Ab compared with controls, whereas IL-12 treatment only led to an enhanced IgG2a response. Together these results demonstrate that IL-18 can promote collagen-induced inflammatory arthritis through mechanisms that may be distinct from those induced by IL-12.
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PMID:Combined effects of IL-12 and IL-18 on the induction of collagen-induced arthritis. 1084 7

Tumor invasion and associated angiogenesis evoke a remodeling of extracellular matrix components. Retroviral vectors bearing auxiliary matrix-targeting motifs (ie., collagen-binding polypeptides) accumulate at sites of newly exposed collagen, thus promoting tumor site-specific gene delivery. In this study, we assessed the antitumor effects of serial portal vein infusions of matrix-targeted vectors bearing a mutant cyclin G1 (dnG1) construct in a nude mouse model of liver metastasis. The size of tumor foci was dramatically reduced in dnG1 vector-treated mice compared with that in control vector- or PBS-treated animals (P = 0.0002). These findings represent a definitive advance in the development of targeted injectable vectors for metastatic cancer.
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PMID:Inhibition of metastatic tumor growth in nude mice by portal vein infusions of matrix-targeted retroviral vectors bearing a cytocidal cyclin G1 construct. 1091 35

Vascular endothelial growth factor (VEGF) is required for endothelial cell differentiation, vasculogenesis, and normal glomerular vascularization. To examine whether VEGF plays a role as a chemoattractant for the developing kidney vasculature, avascular metanephric kidneys from rat embryos (E14) were cocultured with endothelial cells. To determine whether VEGF directly provides chemoattractive guidance for migration, we examined migration of endothelial cells toward VEGF-coated beads. Mouse glomerular endothelial cells expressing beta-galactosidase (MGEC) were isolated from Flk-1(+/-) heterozygous mice and passaged 4-12 times. Upon 24 h culture on collagen I gels MGEC formed a lattice or capillary-like network. Embryonic metanephroi were cocultured with MGEC on collagen I gels for 1-6 days in defined media, stained for beta-galactosidase, and examined by light microscopy. Metanephric organs induced a rearrangement of the endothelial cell lattice and attracted MGEC. MGEC invaded the metanephric organs forming capillary-like structures within and surrounding the forming nephrons. This process was accelerated and amplified by low oxygen (3% O(2)) and was prevented by anti-VEGF neutralizing antibodies. MGECs migrated toward VEGF-coated beads, whereas PBS-coated beads did not alter MGEC networks. We conclude that VEGF produced by the differentiating nephrons acts as a chemoattractant providing spatial direction to developing capillaries toward forming nephrons during metanephric development in vitro.
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PMID:VEGF spatially directs angiogenesis during metanephric development in vitro. 1107 74

In the present study, the mature epidermal growth factor (EGF) protein was engineered to incorporate a high affinity collagen-binding domain (CBD) derived from co-agulation von Willebrand factor, to specifically target EGF to colonic lesions. The fusion protein was expressed in an E. coli bacterial expression system, purified by metal chelate chromatography, and renatured by oxidative refolding into a soluble biologically active growth factor. The EGF-CBD fusion protein bound tightly to collagen matrices under conditions in which native non-targeted EGF was washed away. In biologic assays, the EGF-CBD fusion protein stimulated NIH3T3 cell proliferation with near wild-type biological activity. In vivo binding studies showed that the collagen-targeted EGF, but not the non-targeted EGF, accumulated at areas of exposed collagen on the luminal surface of the inflamed colon. Finally, a single colonic instillation of the collagen-targeted EGF-induced a more rapid regeneration of intestinal crypts 24 h after treatment (no. of crypts = 89.2+/-8.1) compared to the non-targeted EGF (no. of crypts = 52.2+/-29.8; p=0.027), and the PBS control (no. of crypts = 24. 0+/-22.9; p=0.001). Taken together, these findings indicate that intracolonic delivery of collagen-targeted EGF represents a potentially effective therapeutic strategy for acute or chronic inflammatory bowel disease.
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PMID:Design, expression, and renaturation of a lesion-targeted recombinant epidermal growth factor-von Willebrand factor fusion protein: efficacy in an animal model of experimental colitis. 1107 22

Targeting cytocidal vectors to tumors and associated vasculature in vivo is a long-standing goal of human gene therapy. In the present study, we demonstrated that intravenous infusion of a matrix (i.e., collagen)-targeted retroviral vector provided efficacious gene delivery of a cytocidal mutant cyclin G1 construct (designated Mx-dnG1) in human cancer xenografts in nude mice. A nontargeted CAE-dnG1 vector (p = 0.014), a control matrix-targeted vector bearing a marker gene (Mx-nBg; p = 0.004), and PBS served as controls (p = 0.001). Enhanced vector penetration and transduction of tumor nodules (35.7 +/- 1.4%, mean +/- SD) correlated with therapeutic efficacy without associated toxicity. Kaplan-Meier survival studies were conducted in mice treated with PBS placebo, the nontargeted CAE-dnG1 vector, and the matrix-targeted Mx-dnG1 vector. Using the Tarone log-rank test, the overall p value for comparing all three groups simultaneously was 0.003, with a trend that was significant to a level of 0.004, indicating that the probability of long-term control of tumor growth was significantly greater with the matrix-targeted Mx-dnG1 vector than with the nontargeted CAE-dnG1 vector or PBS placebo. The present study demonstrates that a matrix-targeted retroviral vector deployed by peripheral vein injection (1) accumulated in angiogenic tumor vasculature within 1 hr, (2) transduced tumor cells with high-level efficiency, and (3) enhanced therapeutic gene delivery and long-term efficacy without eliciting appreciable toxicity.
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PMID:Systemic administration of a matrix-targeted retroviral vector is efficacious for cancer gene therapy in mice. 1117 56


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