124 research outputs found

    In Vitro Complement-Binding on Cytoplasmic Structures in Normal Human Skin: I. Immunofluorescence Studies

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    Incubation of cryostat sections of normal human skin with normal human serum (NHS) at 37°C followed by fluorescein isothiocyanate labeled rabbit antihuman C3 (FITC-R/Hu-C3) yields cytoplasmic staining of various cell types including keratinocytes of the upper epidermal layers, melanocytes, fibroblasts, smooth muscle cells, and cells lining vascular structures.Deposition of C3 on the respective cytoplasmic structures is most likely due to activation of the classical complement (C) cascade on these structures since no fluorescent staining is observed when serum of patients with hereditary C4-deficiency is used instead of NHS or when incubation with NHS is performed in the presence of EDTA or EGTA in concentrations known to inhibit classical C pathway activation. Further evidence suggesting the involvement of the classical C pathway comes from the finding that incubation of cryostat skin sections with NHS followed by FITC labeled rabbit antihuman Clq (FITC-R/Hu-Clq) results in a fluorescent staining pattern remarkably similar to that seen after exposure of cryostat skin sections to NHS and FITC-R/ Hu-C3.Although formal proof is lacking, our investigations strongly indicate that binding to and activation of C components on cytoplasmic structures occur independently of the presence of circulating antibodies. This assumption is based on the finding that in 17 out of 20 NHS we were not able to detect any skin reactive antibodies by indirect immunofluorescence (IF) techniques. More conclusive evidence for a direct, antibody-independent interaction between C components and cytoplasmic structures is provided by the observation that incubation of the substrate with purified Clq followed by FITC-R/ Hu-Clq results in cytoplasmic staining of some of the skin cell populations described above.The phenomenon of C-binding adn activation on cytoplasmic structures of normal human skin cells may be a critical event in the initiation of complement mediated pathopysiological reactions of the skin

    A novel screening system improves genetic correction by internal exon replacement

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    Trans-splicing is a powerful approach to reprogram the genome. It can be used to replace 5′, 3′ or internal exons. The latter approach has been characterized by low efficiency, as the requirements to promote internal trans-splicing are largely uncharacterized. The trans-splicing process is induced by engineered ‘RNA trans-splicing molecules’ (RTMs), which target a selected pre-mRNA to be reprogrammed via two complementary binding domains. To facilitate the development of more efficient RTMs for therapeutic applications we constructed a novel fluorescence based screening system. We incorporated exon 52 of the COL17A1 gene into a GFP-based cassette system as the target exon. This exon is mutated in many patients with the devastating skin blistering disease epidermolysis bullosa. In a double transfection assay we were able to rapidly identify optimal binding domains targeted to sequences in the surrounding introns 51 and 52. The ability to replace exon 52 was then evaluated in a more endogenous context using a target containing COL17A1 exon 51–intron 51–exon 52–intron 52–exon 53. Two selected RTMs produced significantly higher levels of GFP expression in up to 61% assayed cells. This novel approach allows for rapid identification of efficient RTMs for internal exon replacement

    Detection of large molecular weight cytokeratin 8 as carrier protein of CA19–9 in non-small-cell lung cancer cell lines

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    It has been reported that cytokeratin 8 (CK8) is expressed in all non-small-cell lung cancers (NSCLC). We hypothesized that antigenic changes of CK8 may occur in some NSCLC cell lines. To prove this, Western immunoblot analysis using anti-human CK8 monoclonal antibodies as well as immunohistological staining of CK8 were performed in NSCLC cell lines. As a result, CK8 which had a higher molecular weight than recombinant CK8 was demonstrated in two of eight NSCLC cell lines. In addition, this CK8 contained antigenic epitopes of CA19–9. This CK8 with higher molecular weight, may have played a role in the process of invasion or metastasis of NSCLC. © 1999 Cancer Research Campaig

    Prospective, Randomized, Multicenter, Double-Blind Placebo-Controlled Trial Comparing Adjuvant Interferon Alfa and Isotretinoin With Interferon Alfa Alone in Stage IIA and IIB Melanoma: European Cooperative Adjuvant Melanoma Treatment Study Group

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    PURPOSE: The combination of interferon alfa (IFN{alpha}) and isotretinoin has shown a direct antiproliferative effect on human melanoma cell lines, but it remained unclear whether this combination is more effective than IFN{alpha} alone in patients with metastatic melanoma. We evaluated safety and efficacy of IFN{alpha} and isotretinoin compared with IFN{alpha} alone as adjuvant treatment in patients with primary malignant melanoma stage IIA and IIB. PATIENTS AND METHODS: In a prospective, randomized, double-blind, placebo-controlled trial, 407 melanoma patients in stage IIA (301 patients) and IIB (106 patients) were randomly assigned to either IFN{alpha} and isotretinoin (isotretinoin group; 206 patients) or IFN{alpha} and placebo (placebo group; 201 patients) after excision of the primary tumor. IFN{alpha} was administered three times a week at a dose of 3 million units subcutaneously for 24 months. Isotretinoin at a dose of 20 mg for patients ≤ 73 kg, 30 mg for patients greater than 73 kg, or placebo daily for 24 months. RESULTS: A scheduled interim analysis revealed no significant differences in survival rates, with the isotretinoin group and the placebo group showing 5-year disease-free survival rates of 55% (95% CI, 46% to 65%) and 67% (95% CI, 59% to 75%), respectively, and overall 5-year survival rates of 76% (95% CI, 67% to 84%) and 81% (95% CI, 74% to 88%), respectively. The trial was stopped for futility. CONCLUSION: The addition of isotretinoin to an adjuvant treatment of low-dose IFN{alpha} in patients with stage IIA and IIB melanoma had no significant effect on disease-free or overall survival and is therefore not recommended

    Improved homology-driven computational validation of protein-protein interactions motivated by the evolutionary gene duplication and divergence hypothesis

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    <p>Abstract</p> <p>Background</p> <p>Protein-protein interaction (PPI) data sets generated by high-throughput experiments are contaminated by large numbers of erroneous PPIs. Therefore, computational methods for PPI validation are necessary to improve the quality of such data sets. Against the background of the theory that most extant PPIs arose as a consequence of gene duplication, the sensitive search for homologous PPIs, i.e. for PPIs descending from a common ancestral PPI, should be a successful strategy for PPI validation.</p> <p>Results</p> <p>To validate an experimentally observed PPI, we combine FASTA and PSI-BLAST to perform a sensitive sequence-based search for pairs of interacting homologous proteins within a large, integrated PPI database. A novel scoring scheme that incorporates both quality and quantity of all observed matches allows us (1) to consider also tentative paralogs and orthologs in this analysis and (2) to combine search results from more than one homology detection method. ROC curves illustrate the high efficacy of this approach and its improvement over other homology-based validation methods.</p> <p>Conclusion</p> <p>New PPIs are primarily derived from preexisting PPIs and not invented <it>de novo</it>. Thus, the hallmark of true PPIs is the existence of homologous PPIs. The sensitive search for homologous PPIs within a large body of known PPIs is an efficient strategy to separate biologically relevant PPIs from the many spurious PPIs reported by high-throughput experiments.</p

    Inherited epidermolysis bullosa

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    Inherited epidermolysis bullosa (EB) encompasses a number of disorders characterized by recurrent blister formation as the result of structural fragility within the skin and selected other tissues. All types and subtypes of EB are rare; the overall incidence and prevalence of the disease within the United States is approximately 19 per one million live births and 8 per one million population, respectively. Clinical manifestations range widely, from localized blistering of the hands and feet to generalized blistering of the skin and oral cavity, and injury to many internal organs. Each EB subtype is known to arise from mutations within the genes encoding for several different proteins, each of which is intimately involved in the maintenance of keratinocyte structural stability or adhesion of the keratinocyte to the underlying dermis. EB is best diagnosed and subclassified by the collective findings obtained via detailed personal and family history, in concert with the results of immunofluorescence antigenic mapping, transmission electron microscopy, and in some cases, by DNA analysis. Optimal patient management requires a multidisciplinary approach, and revolves around the protection of susceptible tissues against trauma, use of sophisticated wound care dressings, aggressive nutritional support, and early medical or surgical interventions to correct whenever possible the extracutaneous complications. Prognosis varies considerably and is based on both EB subtype and the overall health of the patient

    Over-the-Counter Monocyclic Non-Steroidal Anti-Inflammatory Drugs in Environment—Sources, Risks, Biodegradation

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    Recently, the increased use of monocyclic non-steroidal anti-inflammatory drugs has resulted in their presence in the environment. This may have potential negative effects on living organisms. The biotransformation mechanisms of monocyclic nonsteroidal anti-inflammatory drugs in the human body and in other mammals occur by hydroxylation and conjugation with glycine or glucuronic acid. Biotransformation/biodegradation of monocyclic non-steroidal anti-inflammatory drugs in the environment may be caused by fungal or bacterial microorganisms. Salicylic acid derivatives are degraded by catechol or gentisate as intermediates which are cleaved by dioxygenases. The key intermediate of the paracetamol degradation pathways is hydroquinone. Sometimes, after hydrolysis of this drug, 4- aminophenol is formed, which is a dead-end metabolite. Ibuprofen is metabolized by hydroxylation or activation with CoA, resulting in the formation of isobutylocatechol. The aim of this work is to attempt to summarize the knowledge about environmental risk connected with the presence of over-the-counter antiinflammatory drugs, their sources and the biotransformation and/or biodegradation pathways of these drugs
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