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1.
Int J Parasitol ; 48(12): 925-935, 2018 10.
Article in English | MEDLINE | ID: mdl-30176234

ABSTRACT

IL-6 has a wide range of biological activities that includes anti- and pro-inflammatory aspects. In this study, we investigated the role of IL-6 in immune responses to the rodent filarial nematode Litomosoides sigmodontis, a model for human filarial infections. IL-6-/- mice had a significantly increased worm burden after natural infection compared with wild type controls at early time points p.i. Given that the worm burden in IL-6-/- mice was already increased at the time point the infective larvae reached the pleural cavity, immune responses that may facilitate the migration from the site of infection (skin) via the lymphatics to the pleural cavity were analysed. Increased vascular permeability may facilitate larval migration, but blocking of histamine receptors had no effect on worm burden and vascular permeability was similar between IL-6-/- mice and wild type controls. In contrast, blocking mast cell degranulation reduced the worm burden in IL-6-/- mice partially, suggesting that release of mast cell-derived mediators improves larval migration to some degree. Protective immune responses within the skin were involved, as bypassing the skin barrier by inoculating infective L3s subcutaneously resulted in a comparable worm recovery in both mouse strains. Analysis of the cellular composition by flow cytometry and PCR array in the skin after exposure to filarial extract or L3s, respectively, indicate that the absence of IL-6 results in a delayed recruitment of neutrophils and macrophages to the site of initial infection. These results demonstrate that IL-6 is essentially involved in protective immune responses within the skin that impair migration of infective L3s.


Subject(s)
Filariasis/immunology , Filarioidea/immunology , Interleukin-6/metabolism , Animals , Cell Movement , Disease Models, Animal , Filariasis/parasitology , Filarioidea/physiology , Interleukin-6/deficiency , Macrophages/immunology , Mast Cells/immunology , Mice , Neutrophils/immunology , Pleural Cavity/parasitology , Skin/immunology , Skin/parasitology
2.
Clin Cancer Res ; 19(15): 4124-36, 2013 Aug 01.
Article in English | MEDLINE | ID: mdl-23908450

ABSTRACT

PURPOSE: Glioblastoma is a highly malignant, invariably fatal brain tumor for which effective pharmacotherapy remains an unmet medical need. EXPERIMENTAL DESIGN: Screening of a compound library of 160 synthetic and natural toxic substances identified the antihelmintic niclosamide as a previously unrecognized candidate for clinical development. Considering the cellular and interindividual heterogeneity of glioblastoma, a portfolio of short-term expanded primary human glioblastoma cells (pGBM; n = 21), common glioma lines (n = 5), and noncancer human control cells (n = 3) was applied as a discovery platform and for preclinical validation. Pharmacodynamic analysis, study of cell-cycle progression, apoptosis, cell migration, proliferation, and on the frequency of multipotent/self-renewing pGBM cells were conducted in vitro, and orthotopic xenotransplantation was used to confirm anticancer effects in vivo. RESULTS: Niclosamide led to cytostatic, cytotoxic, and antimigratory effects, strongly reduced the frequencies of multipotent/self-renewing cells in vitro, and after exposure significantly diminished the pGBMs' malignant potential in vivo. Mechanism of action analysis revealed that niclosamide simultaneously inhibited intracellular WNT/CTNNB1-, NOTCH-, mTOR-, and NF-κB signaling cascades. Furthermore, combinatorial drug testing established that a heterozygous deletion of the NFKBIA locus in glioblastoma samples could serve as a genomic biomarker for predicting a synergistic activity of niclosamide with temozolomide, the current standard in glioblastoma therapy. CONCLUSIONS: Together, our data advocate the use of pGBMs for exploration of compound libraries to reveal unexpected leads, for example, niclosamide that might be suited for further development toward personalized clinical application.


Subject(s)
Brain Neoplasms/drug therapy , Glioblastoma/drug therapy , Glioblastoma/genetics , Niclosamide/administration & dosage , Animals , Apoptosis/drug effects , Brain Neoplasms/genetics , Brain Neoplasms/pathology , Cell Line, Tumor , Cell Movement/drug effects , Cell Proliferation/drug effects , Glioblastoma/pathology , Humans , Mice , NF-kappa B/metabolism , Receptors, Notch/metabolism , TOR Serine-Threonine Kinases/metabolism , Wnt Signaling Pathway/drug effects , Xenograft Model Antitumor Assays
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