Your search keyword '"Jönsson F"' showing total 5 results

1. Mucosal mast cells are indispensable for the timely termination of Strongyloides rattiinfection

Author

Reitz, M., Brunn, M-L, Rodewald, H-R, Feyerabend, T.B., Roers, A., Dudeck, A., Voehringer, D., Jönsson, F., Kühl, A.A., and Breloer, M.

Abstract

Mast cells and basophils are innate immune cells with overlapping functions that contribute to anti-helminth immunity. Mast cell function during helminth infection was previously studied using mast cell-deficient Kit-mutant mice that display additional mast cell-unrelated immune deficiencies. Here, we use mice that lack basophils or mucosal and connective tissue mast cells in a Kit-independent manner to re-evaluate the impact of each cell type during helminth infection. Neither mast cells nor basophils participated in the immune response to tissue-migrating Strongyloides rattithird-stage larvae, but both cell types contributed to the early expulsion of parasitic adults from the intestine. The termination of S. rattiinfection required the presence of mucosal mast cells: Cpa3Cremice, which lack mucosal and connective tissue mast cells, remained infected for more than 150 days. Mcpt5CreR-DTA mice, which lack connective tissue mast cells only, and basophil-deficient Mcpt8Cremice terminated the infection after 1 month with wild-type kinetics despite their initial increase in intestinal parasite burden. Because Cpa3Cremice showed intact Th2 polarization and efficiently developed protective immunity after vaccination, we hypothesize that mucosal mast cells are non-redundant terminal effector cells in the intestinal epithelium that execute anti-helminth immunity but do not orchestrate it.

Published

2017

2. Severity of Transfusion-Related Acute Lung Injury in mice expressing human FcgRIIA is determined by platelet-released serotonin

Author

El Mdawar, M-B, Maître, B, Magnenat, S, Tupin, F, Jönsson, F, Gachet, C, de la Salle, H, and Hechler, B

Published

2021

3. A subtelomeric DNA sequence is required for correct processing of the macronuclear DNA sequences during macronuclear development in the hypotrichous ciliate Stylonychia lemnae.

Author

Jönsson, F, Wen, J P, Fetzer, C P, and Lipps, H J

Abstract

During macronuclear differentiation in ciliated protozoa a series of programed DNA reorganization processes occur. These include the elimination of micronuclear-specific DNA sequences, the specific fragmentation of the genome into small gene-sized DNA molecules, the de novo addition of telomeric sequences to these DNA molecules and the specific amplification of the remaining DNA molecules. Recently we constructed a vector containing the modified micronuclear version of macronuclear destined DNA sequences that was correctly fragmented and telomeres were added de novo after injection into the developing macronucleus. It therefore must contain all the cis- acting sequences required for these processes. We made a series of vectors deleting different sequences from the original vector. It could be shown that at least in the case studied here no micronuclear-specific sequences are required for specific fragmentation of the genome and telomere addition. However, a short subtelomeric sequence at the 3[prime]-end is essential for these processes, whereas no specific cut seems to occur at the 5[prime]-end. In addition, we can show that the processing activity is restricted to a short period of time during macronuclear differentiation and that a preceding transcription is required for correct processing of macronuclear-destined DNA sequences. Possible mechanisms of these processes will be discussed.

Published

1999

4. Current research and unmet needs in allergy and immunology in Germany: report presented by the DGfI and DGAKI task force Allergy & Immunology.

Author

Albrecht M, Schaub B, Gilles S, Köhl J, Altrichter S, Voehringer D, Spillner E, Ehlers M, Jönsson F, Loser K, Mayer JU, Rösner LM, Möbs C, Heine G, and Pfützner W

Subjects

Germany, Humans, Hypersensitivity therapy

Published

2022

5. [An unexpected role for neutrophils in anaphylaxis].

Author

Jönsson F, Mancardi DA, Daëron M, and Bruhns P

Subjects

Animals, Basophils immunology, Basophils metabolism, Cell Degranulation, Histamine Release, Immunoglobulin E immunology, Immunoglobulin G immunology, Luminol, Mast Cells immunology, Mast Cells metabolism, Mice, Mice, Knockout, Models, Immunological, Passive Cutaneous Anaphylaxis immunology, Receptors, Fc deficiency, Receptors, Fc immunology, Anaphylaxis immunology, Neutrophils immunology

Published

2011