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PETER CARMELIET,
LIEVE MOONS,
M. DEWERCHIN,
NIGEL MACKMAN,
THOMAS LUTHER,
GEORG BREIER,
V. PLOPLIS, M. MÜLLER,
A. NAGY,
E. PLOW,
R. GERARD,
THOMAS EDGINGTON,
W. RISAU,
DÉSIRÉ COLLEN
Annals of the New York Academy of Sciences 12/2006; 811(1):191 - 206. · 3.15 Impact Factor
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ABSTRACT: This work presents a new procedure to determine the nucleation kinetics during the reactive precipitation of an organic substance. The new method has been applied to the pH-shift precipitation of L-glutamic acid upon mixing of an aqueous monosodium glutamate solution with hydrochloric acid. The induction time has been measured precisely in a stirred batch reactor by the combination of two in-situ measurement techniques, namely ATR-FTIR spectroscopy (attenuated total reflection Fourier Transform technique) and Focused Beam Reflectance Measurement (FBRM). It is shown that ATR-FTIR is a suitable tool to measure the concentrations of the different L-glutamic acid ions, and can be used to determine the starting time of the process when the desired supersaturation is established in the reactor. The onset of particle formation is detected through FBRM. The precipitated polymorph is identified using in-situ Raman spectroscopy and Particle Vision & Measurement (PVM). Finally, the induction time is used together with the independently measured growth kinetics to determine the nucleation rate.
Chemical Engineering & Technology 01/2006; 29(2):257 - 264. · 1.60 Impact Factor
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ABSTRACT: Recently published studies suggest that the procoagulant receptor protein tissue factor (TF) is involved in vitro in cell adhesion and migration, via an interaction of its cytoplasmic domain with cytoskeletal proteins. Interestingly, TF is abundantly expressed in myocardium, but not in skeletal muscle. To elucidate the possible roles of TF in the myocardium, this study examined the cellular distribution of TF in relation to cytoskeletal proteins, as well as its relative amounts in different segments of premature, mature, and pathologically altered cardiac muscle. In juvenile and adult hearts, TF was predominantly detectable in the transverse part of the intercalated discs, where it co-localized with cytoskeletal proteins such as desmin and vinculin. The lowest amount of TF was observed in right atrial and the highest in left ventricular myocardium, which correlated with the number of contact sites of cardiomyocytes in these segments of the cardiac muscle. Lower levels of TF were present in structurally altered myocardium from patients with hypertension or ventricular hypertrophy. In addition, TF expression was decreased in human heart during sepsis and transiently decreased in rabbit heart in an endotoxaemia model, which indicates that a reduction in TF may contribute to cardiac failure in sepsis. The microtopography of TF at cardiomyocyte contact sites indicates that TF may play a structural role in the maintenance of cardiac muscle.
The Journal of Pathology 10/2000; 192(1):121-30. · 6.32 Impact Factor
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ABSTRACT: Keratinocyte growth factor (KGF) induces rapid and transient hyperplasia of alveolar epithelial type II cells. We sought to determine components of the apoptotic process involved in the resolution of this hyperplasia and the fate of the apoptotic cells. Rats received intrabronchial instillation of 5 mg KGF/kg body weight or diluent. Lungs were fixed 1, 2, 3, 5, and 7 days later. Apoptosis was identified by TdT-mediated dUTP nick-end labeling (TUNEL), double-labeling for TUNEL and the type II cell marker MNF116, and electron microscopy. Fas, FasL, Bax, Bcl-2, and pro- and active caspase-3 were studied by immunohistochemistry. Changes were quantified by stereology. Cell type specificity was investigated by immunofluorescence double staining. Type II cells exhibited Fas, FasL, Bcl-2, and procaspase-3 irrespective of treatment and time. Immunoelectron microscopy revealed Fas at the apical type II cell membrane. Bax staining was prominent in controls (45-95% of type II cell surface fraction), markedly decreased during hyperplasia at days 2 (20-40%) and 3 (0-10%), and reappeared at day 7 (25-45%) when apoptosis was prominent. Remnants of apoptotic type II cells were incorporated in membrane-bound vacuoles of type II cell neighbors as well as alveolar macrophages. The results indicate that type II cells can enter the Fas/FasL/caspase-3 pathway regulated by Bax and Bcl-2. High Bcl-2:Bax levels favor type II cell survival and a low rate of apoptosis during hyperplasia. Low Bcl-2:Bax levels favor type II cell apoptosis during resolution. Because of time-dependent changes that occur within a short time, the KGF-treated rat lung provides a useful in vivo model to investigate apoptosis in the context of tissue remodeling and repair.
Histochemie 08/2000; 114(1):49-61. · 2.59 Impact Factor
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ABSTRACT: To determine changes in the expression and function of the transcription factor SP1 in radiation-induced pulmonary fibrosis.
The right lungs of female Fischer rats were irradiated with a fibrogenic single dose of 20 Gy gamma-irradiation. SP1 mRNA and protein expression was determined by Northern and Western blotting, respectively, between 30 min and 12 weeks after irradiation. Cellular localization of SP1 protein was characterized by immunohistochemistry (peroxidase labelling). SP1 DNA binding activity was studied with electrophoretic mobility shift assays (EMSA).
Eight weeks after irradiation, pulmonary fibrosis was first observed. SP1 DNA binding activity showed a short-term increase from 30 min to 12 h after irradiation. Thereafter it remained quite stable until 1 month after irradiation. However, 2 months after irradiation, SP1 DNA binding activity was no longer detectable. The SP1 mRNA level was not reduced at this time, nor was there a reduction in its size. However, Western blotting revealed the occurrence of at least two slightly smaller additional bands 2 months after irradiation whereas the original SP1 band vanished. This suggests a degradation event of SP1 taking place near one or both ends of the protein. Most of the SP1 protein was found in type II pneumocytes and alveolar macrophages of the normal and fibrotic lung. Bronchial epithelial cells were also positive. In the fibrotic lung, proliferating fibroblasts also become positive.
The functional knockout of the transcription factor SP1, in the process of irradiation-induced pulmonary fibrosis, is demonstrated. This should help elucidate the severe disturbances in transcriptional regulation, cellular proliferation and differentiation occurring in the lung at long intervals after irradiation.
International Journal of Radiation Biology 05/2000; 76(4):487-92. · 2.28 Impact Factor
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ABSTRACT: Keratinocyte growth factor (KGF) is a potent mitogen of alveolar epithelial type II cells (AEII). AEII hyperplasia is resolved within several days following intratracheal instillation of KGF by unknown mechanism(s). AEII hyperplasia was induced in rat lungs by intrabronchial instillation of 5 mg recombinant human (rh)KGF x kg body weight(-1) or an equivalent amount of diluent. Epithelial architecture, cell proliferation, transformation of AEII into type I cells (AEI) and apoptosis were investigated by means of immunohistochemistry, stereology, double immunofluorescence microscopy, electron microscopy and the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end-labelling (TUNEL) technique in lungs fixed 1, 2, 3 and 7 days after treatment. After 1 day of rhKGF instillation, an increase was observed in the nuclear antigen Ki-67, a proliferation marker detected by the antibody MIB-5-expressing surfactant protein (SP)-B, -C, -D-positive AEII. The incidence of mitosis was increased by day 2, resulting in AEII micropapillae with intense basolateral expression of the exon 6 containing isoform (v6) of CD446 (CD44v6), a marker for AEII. By day 3, monolayers of AEII exhibiting lateral CD44v6 covered 45% of the alveolar surface. After 7 days, there were numerous intermediate AEII/AEI cells characterized by a flat elongated shape, staining for SP-D, apical appearance of AEI marker Lycopersicon esculentum lectin and lateral staining for AEII marker CD44v6. Increased numbers of TUNEL-positive epithelial cells were seen at days 2-7. In conclusion, restoration of normal alveolar epithelium after instillation of recombinant human keratinocyte growth factor is accomplished by terminal differentiation and apoptosis of hyperplastic alveolar epithelial type II cells in vivo.
European Respiratory Journal 10/1999; 14(3):534-44. · 5.89 Impact Factor
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ABSTRACT: Keratinocyte growth factor (KGF) is a potent mitogen of alveolar epithelial type II cells (AEII). AEII hyperplasia is resolved within several days following intratracheal instillation of KGF by unknown mechanism(s).AEII hyperplasia was induced in rat lungs by intrabronchial instillation of 5 mg recombinant human (rh)KGF·kg body weight-1 or an equivalent amount of diluent. Epithelial architecture, cell proliferation, transformation of AEII into type I cells (AEI) and apoptosis were investigated by means of immunohistochemistry, stereology, double immunofluorescence microscopy, electron microscopy and the terminal deoxynucleotidyl transferase-mediated deoxyuridine triphosphate nick end-labelling (TUNEL) technique in lungs fixed 1, 2, 3 and 7 days after treatment.After 1 day of rhKGF instillation, an increase was observed in the nuclear antigen Ki-67, a proliferation marker detected by the antibody MIB-5-expressing surfactant protein (SP)-B, -C, -D-positive AEII. The incidence of mitosis was increased by day 2, resulting in AEII micropapillae with intense basolateral expression of the exon 6 containing isoform (v6) of CD446 (CD44v6), a marker for AEII. By day 3, monolayers of AEII exhibiting lateral CD44v6 covered 45% of the alveolar surface. After 7 days, there were numerous intermediate AEII/AEI cells characterized by a flat elongated shape, staining for SP-D, apical appearance of AEI marker Lycopersicon esculentum lectin and lateral staining for AEII marker CD44v6. Increased numbers of TUNEL-positive epithelial cells were seen at days 2–7.In conclusion, restoration of normal alveolar epithelium after instillation of recombinant human keratinocyte growth factor is accomplished by terminal differentiation and apoptosis of hyperplastic alveolar epithelial type II cells in vivo.
European Respiratory Journal 08/1999; 14(3):534 - 544. · 5.89 Impact Factor
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ABSTRACT: To investigate the role of vascular endothelial growth factor (VEGF) in fibrogenesis, the distribution patterns of the VEGF receptors Flt1 and Flk1 were studied by immunohistochemistry, double immunofluorescence, and immunoelectron microscopy in normal (n=2) and bleomycin-treated (n=21) adult rats. Lungs were studied at 5, 24, 28, 35, and 42 days after treatment (p.t.). Flt1, Flk1, and VEGF immunoreactivity localised predominantly to the pulmonary epithelium. In control lungs, Flt1 immunoreactivity was present in ciliated bronchial epithelium and type 2 pneumocytes, Flk1 in Clara cells, and VEGF in Clara cells and type 2 pneumocytes. Flk1 localised to mast cells, present in the peribronchovascular and pleural interstitium only. Flt1- and Flk1-mRNAs were observed in Clara cells and type 2 pneumocytes. Bleomycin-induced fibrogenesis was characterised by a decrease in Flk1 immunoreactivity of Clara cells, and an increase in VEGF-immunoreactive myofibroblasts and type 2 pneumocytes by day 5 p.t., followed by a progressive accumulation of Flk1-immunoreactive mast cells by day 24 p.t. in fibrotic lesions containing VEGF-immunoreactive myofibroblasts. After 42 days, fibrotic regions were densely populated by mast cells. Since mast cells are known to be chemotactically attracted by VEGF, we suggest that VEGF/Flk1 represents the molecular link between proliferation of myofibroblasts, accumulation of mast cells, and the burst of fibrosis at sites of initial lesions in bleomycin-induced fibrosis.
Archiv für Pathologische Anatomie und Physiologie und für Klinische Medicin 08/1999; 435(1):20-31. · 2.49 Impact Factor
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ABSTRACT: The pathogenetic role of Mycobacterium tuberculosis (M. tuberculosis) in tuberculosis is well defined, whereas its role in sarcoidosis is controversial. In sarcoidosis, activation of T-helper cells is observed, which is comparable to tuberculosis. The aim of this study was first to investigate whether M. tuberculosis DNA could be retrospectively detected in samples of patients with clinically verified sarcoidosis by polymerase chain reaction (PCR) and second, to analyze the relationship between M. tuberculosis DNA positive samples and T-cell response in sarcoidosis patients. Formalin fixed paraffin-embedded lung tissues or cell sediments of bronchoalveolar lavage, respectively, from 65 patients with sarcoidosis and lung tissues from 40 tuberculosis patients were investigated by means of different PCR assays in comparison to control samples. The primers used were derived from insertion sequence IS 986/6110 specific for the M. tuberculosis complex (123 bp PCR) and from the gene encoding the 38 kDa protein antigen b (419 bp PCR). The 123 bp assay yielded a specificity of 97% and a sensitivity of 95%. In contrast, the 419 bp PCR method showed a lower sensitivity of only 8% likely because of possible DNA degradation during fixation and embedding procedures of the tissue and the fact that this PCR uses a single copy element as target. We amplified the M. tuberculosis complex specific 123 bp fragment in 64% of samples from sarcoidosis patients. The specificity of PCR products in these cases was confirmed by DNA sequencing. Interestingly in the M. tuberculosis positive sarcoidoses, we found increased serum levels of soluble interleukin-2 receptor in correlation to the sarcoidosis stages (p < 0.05). In conclusion, the determination of M. tuberculosis by PCR alone does not permit a differentiation between sarcoidosis and tuberculosis. However these results support the contention that M. tuberculosis may play a pathogenetic role at least in the part of sarcoidosis patients with elevated interleukin-2 receptor values.
Laboratory Investigation 07/1999; 79(7):775-84. · 3.64 Impact Factor
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ABSTRACT: Tissue factor (TF), the cellular receptor and cofactor for clotting factor VII/VIIa (FVII/VIIa), is known mainly as the initiator of the coagulation protease cascade. Recently, it was shown that inactivation of the murine TF gene (TF-/-) results in embryonic lethality which is most likely due to some failure of vascular integrity. On the other hand, gene disruption in mice of coagulation proteins like FVII, prothrombin, and fibrinogen results in phenotypes of embryonic development that contrast with that of TF-/-, suggesting a role for TF beyond fibrin formation in embryogenesis. In addition, there is a growing body of evidence that cellular TF may be involved in nonhemostatic functions. To determine the microtopography of membrane TF with regard to the cytoskeleton organization, we examined the expression patterns of TF and cytoskeletal proteins in various cell lines by means of double immunofluorescence and electron microscopy (EM). In spreading cells, a granular membrane TF expression of the cell cortex and a pronounced granular TF staining of microspikes, lamellipodes, and ruffled membrane areas were observed. Especially, actin and alpha-actinin were in close proximity to TF in these regions. Colocalization of TF and nonmuscle filamin (ABP-280) at the leading edge of spreading cells indicated an association of TF with the actin filament system, too. Using scanning EM we found gold-labeled TF at long processes and actin-filament-containing microspikes of neighboring cells in both branching and contact sites. By the means of immunogold EM we observed that TF is localized at the cell surface in a spotty pattern, at the base and at the top of budding processes. The observed staining pattern points to a connection of TF with elements of the cytoskeleton in these highly dynamic membrane regions, a fact which is underlined by the recently described molecular interaction of TF's cytoplasmic domain with ABP-280. In cells undergoing cytokinesis, we detected also strong TF expression in dynamic membrane areas and protrusions of the midbodies, indicating an accumulation of TF in actin-rich membrane areas with high contractile activity. In addition, we were able to demonstrate that immobilized ligands for TF, both catalytically active and inactive FVIIa or anti-TF mAbs, accelerated adhesion and spreading of TF-expressing cancer cells. Thus, our findings support the contention that ligation of cellular TF may be involved in morphogenic processes such as adhesion and spreading by an association to cytoskeletal structures. On the other hand, incubation of these cells with proteolytically active FVIIa but not with covalently inactivated FVIIa (DEGR-FVIIa) or anti-TF mAbs in solution resulted in increased motility of these cells, indicating that not only ligation of TF but also the proteolytic activity of TF-FVIIa complex is involved in cell migration.
Experimental Cell Research 05/1999; 248(1):136-47. · 3.58 Impact Factor
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ABSTRACT: Vascular endothelial growth factor (VEGF) is a cytokine with main angiogenetic functions in embryonic development and tumor-formation. In the adult lung, reports of the localization of VEGF were controversial. A precise cell typing of VEGF-positive pulmonary cells is still lacking. Nothing is known about a potential role in pulmonary fibrosis. Immunohistochemistry (IH), double immunofluorescence microscopy (DIF), and immunoelectron microscopy (IEM) were used to study the differential distribution of VEGF in paraffin-embedded (IH, DIF) and in cryo-substituted, Lowicryl-embedded (IEM) specimens of normal rat and human lungs and fibrotic rat lungs. Fibrosis was induced by intratracheal bleomycin treatment. IH and DIF showed that VEGF was present in surfactant protein (SP) D-positive alveolar type II pneumocytes, bronchiolar Clara cells, smooth muscle (SM) cells, and alpha-SM actin-positive myofibroblasts of normal rat and human lungs. Fibrotic lesions in bleomycin-treated rat lungs were rich in VEGF-positive cells presenting with a heterogeneous phenotype (mainly SP-D-positive type II pneumocytes, alpha-SM actin-positive myofibroblasts). There were no signs of angiogenesis. Post-embedding immunogold labeling using protein A-gold and IgG-gold technique revealed a specific localization of VEGF to mitochondria, Clara cell secretory granules, and capillary interendothelial cell junctions. The predominant localization of VEGF to bronchiolar and alveolar epithelial and alpha-SM actin-positive cells, and the marked increase of VEGF-positive type II pneumocytes and myofibroblasts in fibrotic lung lesions, indicate that in adult lungs VEGF is involved in processes other than angiogenesis.
The Anatomical Record 02/1999; 254(1):61-73.
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ABSTRACT: After lung injury, the epithelial cells lining the alveolar surface in rat lung show an altered distribution of several membrane proteins. Pulmonary fibrosis was induced by intratracheal administration of bleomycin into the lung of rats and the distribution of RTI40, a recently detected alveolar epithelial type I cell antigen, was examined, as well as the relationship between RTI40 and a type I cell-specific antigen recognized by the monoclonal antibody MEP-1 and the type I cell-binding lectin Bauhinia purpurea in serial sections and double stainings. Loss of RTI40 protein was observed in fibrotic lungs, particularly in areas with obliteration of alveoli. Pre-embedding immunoelectron microscopy confirmed this observation by detection of RTI40 protein in the alveolar lumen. Western blot analysis revealed elevated levels of RTI40 in the bronchoalveolar fluid of bleomycin-treated rats with a maximum at day 7 after treatment. Twenty-eight days after bleomycin application, the bronchoalveolar fluid contained three times the amount of RTI40 x mg protein(-1) of control lungs, as determined by semiquantitative dot blot. These results suggest RTI40 as a tool for the evaluation of alveolar epithelial type I cell behaviour during re-epithelialization processes.
European Respiratory Journal 01/1999; 12(6):1397-403. · 5.89 Impact Factor
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ABSTRACT: The transmembrane receptor (RAGE) of advanced glycation endproducts (AGEs), is abundantly present in the lung. Although the interaction of AGEs and RAGE plays an important role in vasculopathies, particularly in diabetes, the lung is not a classical target organ of diabetes. Thus, the role of RAGE in the lung is still obscure. This study sought to precisely localise RAGE in the lungs of rat and human by immunohistochemistry, double immunofluorescence and immunoelectron microscopy using a polyclonal antiserum developed against human recombinant RAGE. Anti-RAGE immunoreactivity was prominent in alveolar epithelial type I pneumocytes, while it was absent from type II pneumocytes and capillary endothelium. Cell type specificity was demonstrated by colocalisation with well established cell markers. Quantitative immunoelectron microscopy of cryo-substituted, Lowicryl-embedded rat and human specimens demonstrated a unique labelling pattern of RAGE in that it selectively localised to the basal cell membrane of type I pneumocytes. Labelling pattern was independent of the mode of fixation. Equivalent labelling densities were calculated from a fibrotic rat lung 3 months after irradiation. This highly selective localisation of RAGE to the basal face of type I pneumocytes and its absence from capillary endothelium might explain the resistance of the lung to typical diabetic complications.
Cellular and molecular biology 12/1998; 44(7):1147-57. · 0.98 Impact Factor
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ABSTRACT: Caveolin is a major structural protein of caveolae, also known as plasmalemmal vesicles, which are particularly abundant in type I pneumocytes and capillary endothelial cells of lung parenchyma. Here we demonstrate that caveolin expression in the alveolar epithelium of rats and mini pigs is strikingly downregulated after irradiation-induced lung injury. Indirect immunoperoxidase staining with polyclonal anti-caveolin antibodies, confirmed by double fluorescence studies with type I cell-specific monoclonal anti-cytokeratin antibodies or lectins, revealed a dramatic loss of caveolin immunoreactivity in type I pneumocytes. In contrast, caveolin expression increased in endothelial cells. Immunoblotting of lung homogenates from normal and irradiated rats using specific anti-caveolin antibodies confirmed the presence of caveolin in normal tissue and its marked decrease of expression in fibrotic tissue. The loss of caveolin as an important structural protein of caveolae in alveolar epithelial cells may be an early indicator of serious type I cell injury during fibrogenesis. The increase of caveolin immunoreactivity in endothelia of blood vessels may indicate that different types of caveolae and/or different regulatory mechanisms of caveolin expression exist.
Histochemie 02/1998; 109(1):41-8. · 2.59 Impact Factor
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V Magdolen,
S Albrecht,
M Kotzsch,
C Haller,
M Bürgle,
U Jacob,
M Grosser,
H Kessler,
H Graeff, M Müller,
M Schmitt,
T Luther
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ABSTRACT: Tissue factor (TF) initiates the extrinsic pathway of blood coagulation via formation of an enzymatic complex with coagulation factor VII/VIIa (FVII/VIIa). Although FVII is the only known ligand for TF, several reports in recent years have shown that the function of TF may not be limited to serving as a trigger of coagulation but that TF could also play a role in cellular signaling, metastasis, adhesion and embryogenesis. To explore the loci of the extracellular domain of TF important for its function, we analyzed the functional and immunological epitopes of TF1-219 by the use of both E. coli expressed TF variants encompassing various portions of the extracellular domain of TF and different anti-TF monoclonal antibodies (mAbs). N- and C-terminally truncated TF variants were analyzed for their VIIa-dependent procoagulant activity (PCA). The results obtained are in agreement with previously performed mutant and structural analyses of the interaction of FVII/FVIIa with the extracellular domain of TF. In addition, we observed that combination of two TF variants, Ec-TF1-122 and Ec-TF120-219, yields a soluble and active two-chain TF molecule with remarkable PCA. The reaction patterns of anti-TF mAbs with truncated TF variants and synthetic TF-derived peptides demonstrated that at least three distinct conformation-dependent epitope areas of TF (residues 1-25, 175-202, and 181 -214, respectively) are detected by these mAbs raised against native TF. In fact, mAbs, which are directed to the same epitope area of TF, behave very similar in various applications including immunohistochemistry and clotting tests. Since mAbs directed to the C-terminal epitope area of TF (residues 181-214) influence TF activity independent of FVIIa-binding, this region may be involved in functions of TF distinct from haemostasis.
Biological Chemistry 02/1998; 379(2):157-65. · 2.96 Impact Factor
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ABSTRACT: C-Jun and c-Fos transcription factors have been associated with enhanced cellular proliferation. We studied their cellular distribution in normal and fibrotic rat lung. Pulmonary fibrosis was induced by intratracheal administration of bleomycin. In normal rat lung, c-Jun and c-Fos are present in alveolar macrophages and type II pneumocytes, in the bronchiolar epithelium and in smooth muscle cells of bronchioli and blood vessels. Subcellular fractionation of proteins revealed a predominant presence of both c-Jun and c-Fos in the heavy membrane fraction containing mitochondria and secretory granules. This was confirmed by immunoelectron microscopy, which also revealed a different localization of c-Jun and c-Fos in different cell types. Whereas in type II pneumocytes and in macrophages cytoplasmic c-Jun and c-Fos is associated with mitochondria, in Clara cells of the bronchial epithelium only secretory granules contain c-Jun and c-Fos. In addition, c-Jun is strongly present in the nuclear fraction. In the fibrotic rat lung c-Jun and c-Fos are located in the same cell types as in control lungs. In addition, fibroblasts contain c-Jun and c-Fos in areas of proliferation whereas in areas of complete fibrosis there is only a very weak expression of c-Jun and c-Fos.
Archiv für Pathologische Anatomie und Physiologie und für Klinische Medicin 01/1998; 431(6):441-8. · 2.49 Impact Factor
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P Carmeliet,
L Moons,
M Dewerchin,
N Mackman,
T Luther,
G Breier,
V Ploplis, M Müller,
A Nagy,
E Plow,
R Gerard,
T Edgington,
W Risau,
D Collen
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ABSTRACT: VEGF has been proposed to participate in normal and pathological vessel formation. Surprisingly, lack of only a single VEGF allele resulted in embryonic lethality due to abnormal formation of intra- and extra-embryonic vessels. Homozygous VEGF-deficient embryos, generated by tetraploid aggregation, revealed an even more severe defect in vessel formation. These results (1) suggest a tight regulation of early vessel development by VEGF and, indirectly, the presence of other VEGF-like molecules; (2) reveal an unprecedented lethal phenotype associated with heterozygous deficiency of an autosomal gene, and (3) demonstrate that tetraploid aggregation was a valid and the only method to study the phenotype of the homozyogous VEGF-deficient embryos. The dominant and strict dose-dependent role of VEGF in vivo renders this molecule a desirable therapeutic target for promoting or preventing angiogenesis. Tissue factor (TF) is the principal cellular initiator of coagulation and its deregulated expression has been related to thrombogenesis in sepsis, cancer, and inflammation. However, TF appears to be also involved in a variety of non-hemostatic functions including inflammation, cancer, brain function, immune response, and tumor-associated angiogenesis. Surprisingly, TF deficiency resulted in embryonic lethality due to abnormal extra-embryonic vessel development and defective vitelloembryonic circulation. The abnormal yolk sac vasculature is reminiscent of that observed in embryos lacking VEGF, possibly suggesting that both gene functions are interconnected. These targeting studies extend the recently documented role of TF in tumor-associated angiogenesis and warrant further study of its role in angiogenesis during other pathological disorders. The plasminogen system, via its triggers, tissue-type plasminogen activator (t-PA) and urokinase-type plasminogen activator (u-PA) and its inhibitor, plasminogen activator inhibitor-1 (PAI-1), has been implicated in thrombosis, arterial neointima formation, and atherosclerosis. Studies in mice with targeted gene inactivation of t-PA, u-PA, PAI-1, the urokinase receptor (u-PAR), and plasminogen (Plg) revealed (1) that deficiency of t-PA or u-PA increase the susceptibility to thrombosis associated with inflammation and that combined deficiency of t-PA:u-PA or deficiency of Plg induces severe spontaneous thrombosis; (2) that vascular injury-induced neointima formation is reduced in mice lacking u-PA-mediated plasmin proteolysis, unaltered in t-PA- or u-PAR-deficient mice and accelerated in PAI-1-deficient mice, but that it can be reverted by adenoviral PAI-1 gene transfer; and (3) that atherosclerosis in mice doubly deficient in apolipoprotein E (apoE) and PAI-1 is reduced after 10 weeks of cholesterol-rich diet. Thus, the plasminogen system significantly affects thrombosis, restenosis, and atherosclerosis.
Annals of the New York Academy of Sciences 05/1997; 811:191-206. · 3.15 Impact Factor
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ABSTRACT: The expression of connexin 43 (Cx43) in normal and irradiated mouse skin was evaluated using immunofluorescence with polyclonal antisera to Cx43 on cryostat sections. One week after the start of daily irradiation with 3 Gy, enhanced immunoreactivity in basal cells and in the lower part of the spinous layer of the epidermis was detected. In hypertrophic and hyperplastic skin, about 3 weeks after irradiation, a further increase in the expression of Cx43 was found in the epidermis as well as in the dermis. Western blot analysis of normal and irradiated skin homogenates confirmed the increased Cx43 protein concentration in the skin. In nuclear extracts of the same preparations, increased AP-1-binding activity was found. These data suggest that the gap-junction protein is expressed in response to irradiation of the skin and may be related to the subsequent hyperproliferative response which is associated with accelerated repopulation.
Radiation Research 05/1997; 147(4):437-41. · 2.68 Impact Factor
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ABSTRACT: uPAR (CD87), the receptor for the urokinase-type plasminogen activator (uPA) facilitates tumor cell invasion and metastasis by focusing uPA proteolytic activity to the cell surface. As uPAR exists in various molecular forms, it is desirable to use well defined antibodies for analyses of uPAR antigen expression in human malignant tumors by immunological methods. Therefore, twelve monoclonal antibodies (MAbs) directed against uPAR were generated by using nonglycosylated, recombinant human uPAR (spanning amino acids 1 to 284), expressed in Escherichia coli, as the immunogen. The reaction pattern of these MAbs with the immunogen and a series of carboxyl-terminally truncated versions of uPAR demonstrated that at least six different epitopes of uPAR are recognized. All MAbs reacted under reducing conditions in immunoblot analyses with E. coli-expressed uPA and also with highly glycosylated, functionally intact, recombinant human uPAR expressed in Chinese hamster ovary (CHO) cells. Seven of the MAbs recognized CHO uPAR under nonreducing conditions as well. By flow cytofluorometric analyses, three of these MAbs were shown to bind to native human uPAR present on the cell surface of monocytoid U937 cells with MAb IIIF10 being the best. Saturation of uPAR with uPA on U937 cells completely blocked interaction of MAb IIIF10 with uPAR (mapped epitope, amino acids 52 to 60 of domain I of uPAR). In turn, preincubation of U937 cells with MAb IIIF10 efficiently reduced binding of uPA to uPAR, indicating that the epitope detected by MAb IIIF10 is located within or closely to the uPA-binding site of uPAR, and thus, this site may be a target to influence uPA/uPAR-mediated proteolysis in tumors. Binding of MAbs IID7 or IIIB11 (mapped epitope, amino acids 125 to 132 of domain II of uPAR) to uPAR is not affected when uPAR is occupied by uPA. As these MAbs reacted strongly with cellular uPAR antigen in formalin-fixed paraffin-embedded tumor sections, the domain-II-specific antibodies IID7 and IIIB11 may be useful for immunohistochemical studies of uPAR expression in tissue remodeling processes in tumor invasion. In conclusion, we have devised well defined and epitope-mapped MAbs to uPAR that are highly specific tools for detection and targeting of uPAR in tumor tissue.
American Journal Of Pathology 05/1997; 150(4):1231-44. · 4.89 Impact Factor
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ABSTRACT: The role of the CD44s adhesion molecule, its epithelial isoforms and its relationship to epidermal proteoglycans such as syndecan was studied in normal and irradiated mouse skin. In normal mouse skin, only 10% of basal cells are strongly CD44s-immunopositive, with a cytoplasmic expression pattern. Double-label experiments with the basal cell marker keratin 14 confirmed the epithelial nature of the strongly CD44s-positive cell type in the basal layer. Some spinous keratinocytes and the majority of the remaining basal cells exhibited a weak membranous staining pattern. In contrast, the epithelial isoform, CD44v10, was strongly present in all basal and suprabasal epithelial cells of the epidermis, with a membranous staining pattern. Syndecan was found in the granular layer of the normal epidermis only. After 1 week of daily irradiation, the entire basal cell layer of the epidermis expressed CD44s in the membrane, but with a varying degree of staining intensity. This reactivity spread to the upper spinous layer after 3 weeks of treatment. In hyperproliferative epidermis, there was no difference in the staining patterns between CD44s and CD44v10. The expression of syndecan switched from the granular layer to the basal and lower spinous layers after 2 weeks of daily irradiation. Immunoreactivity for syndecan was also strongly enhanced in the dermis of irradiated samples. The results suggest an important role for syndecan and CD44 in proliferative processes during radiation-induced accelerated repopulation.
Histochemie 03/1997; 107(2):159-67. · 2.59 Impact Factor
