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Expression of Drosophila adenosine deaminase in immune cells during inflammatory response
M. Novakova, T. Dolezal,
Language English Country United States
Document type Journal Article, Research Support, Non-U.S. Gov't
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- MeSH
- Adenosine Deaminase metabolism MeSH
- DNA-Binding Proteins genetics MeSH
- Drosophila melanogaster cytology enzymology immunology parasitology MeSH
- Phosphoproteins genetics MeSH
- Hemocytes cytology enzymology MeSH
- Larva cytology genetics MeSH
- RNA, Messenger genetics metabolism MeSH
- Mutation genetics MeSH
- Parasites physiology MeSH
- Reverse Transcriptase Polymerase Chain Reaction MeSH
- Drosophila Proteins genetics metabolism MeSH
- Gene Expression Regulation MeSH
- Recombination, Genetic genetics MeSH
- Genes, Reporter genetics MeSH
- Blotting, Southern MeSH
- Wasps physiology MeSH
- Inflammation enzymology immunology pathology MeSH
- Green Fluorescent Proteins genetics metabolism MeSH
- Animals MeSH
- Check Tag
- Animals MeSH
- Publication type
- Journal Article MeSH
- Research Support, Non-U.S. Gov't MeSH
Extra-cellular adenosine is an important regulator of inflammatory responses. It is generated from released ATP by a cascade of ectoenzymes and degraded by adenosine deaminase (ADA). There are two types of enzymes with ADA activity: ADA1 and ADGF/ADA2. ADA2 activity originates from macrophages and dendritic cells and is associated with inflammatory responses in humans and rats. Drosophila possesses a family of six ADGF proteins with ADGF-A being the main regulator of extra-cellular adenosine during larval stages. Herein we present the generation of a GFP reporter for ADGF-A expression by a precise replacement of the ADGF-A coding sequence with GFP using homologous recombination. We show that the reporter is specifically expressed in aggregating hemocytes (Drosophila immune cells) forming melanotic capsules; a characteristic of inflammatory response. Our vital reporter thus confirms ADA expression in sites of inflammation in vivo and demonstrates that the requirement for ADA activity during inflammatory response is evolutionary conserved from insects to vertebrates. Our results also suggest that ADA activity is achieved specifically within sites of inflammation by an uncharacterized post-transcriptional regulation based mechanism. Utilizing various mutants that induce melanotic capsule formation and also a real immune challenge provided by parasitic wasps, we show that the acute expression of the ADGF-A protein is not driven by one specific signaling cascade but is rather associated with the behavior of immune cells during the general inflammatory response. Connecting the exclusive expression of ADGF-A within sites of inflammation, as presented here, with the release of energy stores when the ADGF-A activity is absent, suggests that extra-cellular adenosine may function as a signal for energy allocation during immune response and that ADGF-A/ADA2 expression in such sites of inflammation may regulate this role.
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