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dc.contributor.authorMzinza, David Twapokera
dc.contributor.authorFleige, Henrike
dc.contributor.authorLaarmann, Kristin
dc.contributor.authorWillenzon, Stefanie
dc.contributor.authorRistenpart, Jasmin
dc.contributor.authorSpanier, Julia
dc.contributor.authorSutter, Gerd
dc.contributor.authorKalinke, Ulrich
dc.contributor.authorValentin-Weigand, Peter
dc.contributor.authorFörster, Reinhold
dc.date.accessioned2018-04-24T14:18:51Z
dc.date.available2018-04-24T14:18:51Z
dc.date.issued2018-02-12
dc.identifier.citationApplication of light sheet microscopy for qualitative and quantitative analysis of bronchus-associated lymphoid tissue in mice. 2018 Cell. Mol. Immunol.en
dc.identifier.issn2042-0226
dc.identifier.pmid29429996
dc.identifier.doi10.1038/cmi.2017.150
dc.identifier.urihttp://hdl.handle.net/10033/621361
dc.description.abstractBronchus-associated lymphoid tissue (BALT) develops at unpredictable locations around lung bronchi following pulmonary inflammation. The formation and composition of BALT have primarily been investigated by immunohistology that, due to the size of the invested organ, is usually restricted to a limited number of histological sections. To assess the entire BALT of the lung, other approaches are urgently needed. Here, we introduce a novel light sheet microscopy-based approach for assessing lymphoid tissue in the lung. Using antibody staining of whole lung lobes and optical clearing by organic solvents, we present a method that allows in-depth visualization of the entire bronchial tree, the lymphatic vasculature and the immune cell composition of the induced BALT. Furthermore, three-dimensional analysis of the entire lung allows the qualitative and quantitative enumeration of the induced BALT. Using this approach, we show that a single intranasal application of the replication-deficient poxvirus MVA induces BALT that constitutes up to 8% of the entire lung volume in mice deficient in CCR7, in contrast to wild type mice (WT). Furthermore, BALT induced by heat-inactivated E. coli is dominated by a pronounced T cell infiltration in Cxcr5-deficient mice, in contrast to WT mice.Cellular and Molecular Immunology advance online publication, 12 February 2018; doi:10.1038/cmi.2017.150.
dc.language.isoenen
dc.rights.urihttp://creativecommons.org/licenses/by-nc-sa/4.0/*
dc.titleApplication of light sheet microscopy for qualitative and quantitative analysis of bronchus-associated lymphoid tissue in mice.en
dc.typeArticleen
dc.contributor.departmentTWINCORE, Zentrum für experimentelle uns klinische Ifektionsforschung GmbH, Feodor-Lynen-Str. 7, 30625 Hannover, Germany.en
dc.identifier.journalCellular & molecular immunologyen
refterms.dateFOA2018-06-13T16:02:28Z
html.description.abstractBronchus-associated lymphoid tissue (BALT) develops at unpredictable locations around lung bronchi following pulmonary inflammation. The formation and composition of BALT have primarily been investigated by immunohistology that, due to the size of the invested organ, is usually restricted to a limited number of histological sections. To assess the entire BALT of the lung, other approaches are urgently needed. Here, we introduce a novel light sheet microscopy-based approach for assessing lymphoid tissue in the lung. Using antibody staining of whole lung lobes and optical clearing by organic solvents, we present a method that allows in-depth visualization of the entire bronchial tree, the lymphatic vasculature and the immune cell composition of the induced BALT. Furthermore, three-dimensional analysis of the entire lung allows the qualitative and quantitative enumeration of the induced BALT. Using this approach, we show that a single intranasal application of the replication-deficient poxvirus MVA induces BALT that constitutes up to 8% of the entire lung volume in mice deficient in CCR7, in contrast to wild type mice (WT). Furthermore, BALT induced by heat-inactivated E. coli is dominated by a pronounced T cell infiltration in Cxcr5-deficient mice, in contrast to WT mice.Cellular and Molecular Immunology advance online publication, 12 February 2018; doi:10.1038/cmi.2017.150.


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