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    NAD(P)H fluorescence lifetime imaging for the metabolic analysis of the murine intestine and parasites during nematode infection (2023)

    Art
    Zeitschriftenartikel / wissenschaftlicher Beitrag
    Autoren
    Liublin, Wjatscheslaw (WE 2)
    Rausch, Sebastian (WE 6)
    Leben, Ruth (WE 6)
    Liebeskind, Juliane (WE 6)
    Hauser, Anja E.
    Hartmann, Susanne (WE 6)
    Niesner, Raluca A. (WE 2)
    Quelle
    Journal of visualized experiments : JoVE
    Bandzählung: 199
    Seiten: Artikel e64982
    ISSN: 1940-087x
    Sprache
    Englisch
    Verweise
    URL (Volltext): https://www.jove.com/t/64982/nad-p-h-fluorescence-lifetime-imaging-for-metabolic-analysis-murine
    DOI: 10.3791/64982
    Pubmed: 37677040
    Kontakt
    Institut für Immunologie

    Robert-von-Ostertag-Str. 7-13
    14163 Berlin
    +49 30 838 51834
    immunologie@vetmed.fu-berlin.de

    Abstract / Zusammenfassung

    Parasites generally have a negative effect on the health of their host. They represent a huge health burden, as they globally affect the health of the infested human or animal in the long term and, thus, impact agricultural and socio-economic outcomes. However, parasite-driven immune-regulatory effects have been described, with potential therapeutic relevance for autoimmune diseases. While the metabolism in both the host and parasites contributes to their defense and is the basis for nematode survival in the intestine, it has remained largely understudied due to a lack of adequate technologies. We have developed and applied NAD(P)H fluorescence lifetime imaging to explanted murine intestinal tissue during infection with the natural nematode Heligmosomoides polygyrus to study the metabolic processes in both the host and parasites in a spatially resolved manner. The exploitation of the fluorescence lifetime of the co-enzymes nicotinamide adenine dinucleotide (NADH) and nicotinamide adenine dinucleotide phosphate (NADPH), hereafter NAD(P)H, which are preserved across species, depends on their binding status and the binding site on the enzymes catalyzing metabolic processes. Focusing on the most abundantly expressed NAD(P)H-dependent enzymes, the metabolic pathways associated with anaerobic glycolysis, oxidative phosphorylation/aerobic glycolysis, and NOX-based oxidative burst, as a major defense mechanism, were distinguished, and the metabolic crosstalk between the host and parasite during infection was characterized.