High-dimensional single cell mass cytometry analysis of the murine hematopoietic system reveals signatures induced by ageing and physiological pathogen challenges

Background Immune ageing is a result of repetitive microbial challenges along with cell intrinsic or systemic changes occurring during ageing. Mice under ‘specific-pathogen-free’ (SPF) conditions are frequently used to assess immune ageing in long-term experiments. However, physiological pathogenic challenges are reduced in SPF mice. The question arises to what extent murine experiments performed under SPF conditions are suited to analyze immune ageing in mice and serve as models for human immune ageing. Our previous comparisons of same aged mice with different microbial exposures, unambiguously identified distinct clusters of immune cells characteristic for numerous previous pathogen encounters in particular in pet shop mice. Results We here performed single cell mass cytometry assessing splenic as secondary and bone marrow as primary lymphoid organ-derived leukocytes isolated from young versus aged SPF mice in order to delineate alterations of the murine hematopoietic system induced during ageing. We then compared immune clusters from young and aged SPF mice to pet shop mice in order to delineate alterations of the murine hematopoietic system induced by physiological pathogenic challenges and those caused by cell intrinsic or systemic changes during ageing. Notably, distinct immune signatures were similarly altered in both pet shop and aged SPF mice in comparison to young SPF mice, including increased frequencies of memory T lymphocytes, effector-cytokine producing T cells, plasma cells and mature NK cells. However, elevated frequencies of $ CD4^{+} $ T cells, total NK cells, granulocytes, pDCs, cDCs and decreased frequencies of naïve B cells were specifically identified only in pet shop mice. In aged SPF mice specifically the frequencies of splenic $ IgM^{+} $ plasma cells, $ CD8^{+} $ T cells and $ CD4^{+} $ $ CD25^{+} $ Treg were increased as compared to pet shop mice and young mice. Conclusions Our study dissects firstly how ageing impacts both innate and adaptive immune cells in primary and secondary lymphoid organs. Secondly, it partly distinguishes murine intrinsic immune ageing alterations from those induced by physiological pathogen challenges highlighting the importance of designing mouse models for their use in preclinical research including vaccines and immunotherapies..

Medienart:	E-Artikel

Erscheinungsjahr:	2021
Erschienen:	2021

Enthalten in:	Zur Gesamtaufnahme - volume:18
Enthalten in:	Immunity & ageing - 18(2021), 1 vom: 20. Apr.

Sprache:	Englisch

Beteiligte Personen:	Nikolaou, Christos [VerfasserIn] Muehle, Kerstin [VerfasserIn] Schlickeiser, Stephan [VerfasserIn] Japp, Alberto Sada [VerfasserIn] Matzmohr, Nadine [VerfasserIn] Kunkel, Desiree [VerfasserIn] Frentsch, Marco [VerfasserIn] Thiel, Andreas [VerfasserIn]

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Themen:	Adaptive immune system Bone microenvironment Immunoaging Innate immune system Mass cytometry Wild immunology

Anmerkungen:	© The Author(s) 2021. corrected publication [2021]

doi:	10.1186/s12979-021-00230-3

funding:
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PPN (Katalog-ID):	OLC2125015765