1. Methylglyoxal-derived hydroimidazolone, MG-H1, increases food intake by altering tyramine signaling via the GATA transcription factor ELT-3 in Caenorhabditis elegans.
- Author
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Muthaiyan Shanmugam, Muniesh, Chaudhuri, Jyotiska, Sellegounder, Durai, Sahu, Amit, Guha, Sanjib, Chamoli, Manish, Hodge, Brian, Bose, Neelanjan, Roberts, Charis, Farrera, Dominique, Lithgow, Gordon, Galligan, James, Kapahi, Pankaj, and Sarpong, Richmond
- Subjects
C. elegans ,advanced glycation end-products ,elt-3 ,feeding ,genetics ,genomics ,glod-4 ,neuroscience ,pharyngeal pumping ,tyramine ,Animals ,Caenorhabditis elegans ,Caenorhabditis elegans Proteins ,Pyruvaldehyde ,Magnesium Oxide ,GATA Transcription Factors ,Signal Transduction ,Tyramine ,Glycation End Products ,Advanced ,Eating - Abstract
The Maillard reaction, a chemical reaction between amino acids and sugars, is exploited to produce flavorful food ubiquitously, from the baking industry to our everyday lives. However, the Maillard reaction also occurs in all cells, from prokaryotes to eukaryotes, forming advanced glycation end-products (AGEs). AGEs are a heterogeneous group of compounds resulting from the irreversible reaction between biomolecules and α-dicarbonyls (α-DCs), including methylglyoxal (MGO), an unavoidable byproduct of anaerobic glycolysis and lipid peroxidation. We previously demonstrated that Caenorhabditis elegans mutants lacking the glod-4 glyoxalase enzyme displayed enhanced accumulation of α-DCs, reduced lifespan, increased neuronal damage, and touch hypersensitivity. Here, we demonstrate that glod-4 mutation increased food intake and identify that MGO-derived hydroimidazolone, MG-H1, is a mediator of the observed increase in food intake. RNAseq analysis in glod-4 knockdown worms identified upregulation of several neurotransmitters and feeding genes. Suppressor screening of the overfeeding phenotype identified the tdc-1-tyramine-tyra-2/ser-2 signaling as an essential pathway mediating AGE (MG-H1)-induced feeding in glod-4 mutants. We also identified the elt-3 GATA transcription factor as an essential upstream regulator for increased feeding upon accumulation of AGEs by partially controlling the expression of tdc-1 gene. Furthermore, the lack of either tdc-1 or tyra-2/ser-2 receptors suppresses the reduced lifespan and rescues neuronal damage observed in glod-4 mutants. Thus, in C. elegans, we identified an elt-3 regulated tyramine-dependent pathway mediating the toxic effects of MG-H1 AGE. Understanding this signaling pathway may help understand hedonistic overfeeding behavior observed due to modern AGE-rich diets.
- Published
- 2023