David Strehlow scite author profile

Inflammation and tissue injury are strong stimuli for fibroblast activation and initiation of reparative processes. In certain disease states, pathological fibrosis occurs. Fibroblasts isolated from these diseased tissues often display a persistently abnormal phenotype characterized by increased synthesis of matrix components such as collagen. This metabolic abnormality is apparently independent of continued exposure to any pathological stimulus that may have initiated the process. Since fibroblasts are heterogeneous in proliferative capacity, in synthesis of collagen and other matrix proteins and in response to immune mediators and growth factors, clonal selection, i.e. selective increase in fibroblast subpopulations, may explain the long-term effects of acute in vivo activation on fibroblast behavior. Studies of SSc fibroblasts are consistent with clonal selection and/or clonal activation, processes that may play an important role in fibrosis in this and other disorders.

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A potential role for protease nexin 1 overexpression in the pathogenesis of scleroderma

Strehlow¹,

Jelaska²,

Strehlow³

et al. 1999

J. Clin. Invest.

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Scleroderma currently affects approximately 75,000-100,000 individuals in the United States. Fibroblasts isolated from lesional skin of scleroderma patients overexpress collagens and other matrix components, and this abnormality is maintained for multiple passages in culture. To understand the molecular basis for matrix gene overexpression, we performed a differential display comparison of fibroblasts from clinically lesional and nonlesional scleroderma skin. The results suggested that protease nexin 1 (PN1), a protease inhibitor, is overexpressed in scleroderma fibroblasts. Northern blot verification showed that lesional and nonlesional scleroderma fibroblasts had three-to five-fold increased levels of PN1 mRNA compared with healthy fibroblasts. Western analysis showed that scleroderma fibroblasts also secreted more PN1. In situ hybridization of skin biopsy specimens demonstrated PN1 expression in the dermis of four out of six scleroderma patients but no PN1 expression in the dermis of six healthy volunteers. Transient or stable overexpression of PN1 in mouse 3T3 fibroblasts increased collagen promoter activity or endogenous collagen transcript levels, respectively. PN1 mutagenized at its active site and antisense PN1 both failed to increase collagen promoter activity. These results suggest that overexpression of enzymatically active PN1 may play a pathogenic role in the development of the scleroderma phenotype.

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CD95 (Fas) Ligand-Expressing Vesicles Display Antibody-Mediated, FcR-Dependent Enhancement of Cytotoxicity

Jodo¹,

Hohlbaum

Xiao³

et al. 2000

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Bioactive Fas ligand (FasL)-expressing vesicles were generated (vesicle preparation, VP) from two cell lines overexpressing FasL. The effect of NOK-1 anti-FasL mAb (mouse IgG1) on the cytotoxicity of FasL VP against various targets was determined. At high concentrations (1–10 μg/ml), NOK-1 inhibited the cytotoxicity. By contrast, NOK-1 in the dose range of 1–100 ng/ml significantly enhanced cytotoxicity against the FcR+ LB27.4, M59, and LF+ targets, but not the FcR− Jurkat and K31H28 hybridoma T cell targets. The ability to enhance FasL VP-mediated cytotoxicity could be blocked by the FcR-specific mAb 2.4G2. Enhancement was also observed with FcR+ A20 B lymphoma but not with the FcR− A20 variant. Enhancement of FasL VP cytotoxicity was observed with five IgG anti-FasL mAbs, but not with an IgM anti-FasL mAb. Inhibition was observed with high doses of all mAb except the IgG anti-FasL mAb G247-4, which is specific to a segment outside the FasL binding site. Interestingly, under identical conditions but in the presence of 2.4G2, G247-4 inhibited the cytotoxicity of FasL VP. In addition, G247-4 inhibited the FasL VP-mediated killing of FcR− Jurkat. The data demonstrate that FasL-expressing bioactive vesicles display a property heretofore unknown in bioactive agents that express FasL-mediated cytotoxicity. The mechanism of the Ab-mediated, FcR-dependent enhancement of cytotoxicity of bioactive vesicles and its physiological significance are discussed.

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Bioactivities of Fas Ligand-Expressing Retroviral Particles

Jodo

Strehlow

2000

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Culture supernatants from retroviral packaging cells carrying the human Fas ligand (FasL) gene killed both human (Jurkat) and mouse (LB27.4) targets within 5 h of incubation. Cytotoxicity was found both in a fraction ≥500 kDa and a fraction between 50 and 500 kDa. Following ultracentrifugation, the activity in the ≥500-kDa fraction was concentrated in the pellet (FasL vector preparation (VP)), which was also infective when added to NIH-3T3 cells. Both Polybrene and poly-l-lysine significantly enhanced the cytotoxicity of FasL VP but not anti-Fas mAb, soluble FasL (sFasL), and cell-associated FasL. In the presence of Polybrene, FasL VP killed targets that are resistant to anti-Fas mAb and sFasL. The infectivity but not FasL cytotoxicity of FasL VP was sensitive to irradiation and heat shock. By contrast, cytotoxicity of FasL VP could be enhanced or inhibited depending on the doses of anti-FasL mAb. Interestingly, the infectivity of FasL VP was specifically enhanced by anti-FasL mAb, suggesting that a nonviral gene product could be used to regulate the behavior of the retroviral vector. Thus, in addition to expressing potent FasL cytotoxicity, the FasL VP exhibits unique properties heretofore not attributed to anti-Fas mAb, sFasL, and cell-associated FasL. Our study raises the possibility of using the retroviral gene-packaging technology to make powerful, versatile, and regulatable bioactive vesicles expressing a predetermined function of the protein encoded by the target gene.

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David Strehlow

Biology of the scleroderma fibroblast

Fibroblast heterogeneity in physiological conditions and fibrotic disease

A potential role for protease nexin 1 overexpression in the pathogenesis of scleroderma

CD95 (Fas) Ligand-Expressing Vesicles Display Antibody-Mediated, FcR-Dependent Enhancement of Cytotoxicity

Bioactivities of Fas Ligand-Expressing Retroviral Particles

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