Gyrfalcons <Emphasis Type="Italic">Falco rusticolus</Emphasis> adjust <Emphasis Type="Italic">CTNS</Emphasis> expression to food abundance: a possible contribution to cysteine homeostasis |
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Authors: | Email authorView authors OrcID profile" target="_blank">Ismael?GalvánEmail authorView authors OrcID profile ?ngela?Inácio ólafur?K?Nielsen |
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Institution: | 1.Department of Evolutionary Ecology,Do?ana Biological Station, CSIC,Seville,Spain;2.Laboratory of Genetics, Institute of Environmental Health (ISAMB), School of Medicine,University of Lisbon,Lisbon,Portugal;3.Icelandic Institute of Natural History,Gareab?r,Iceland |
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Abstract: | Melanins form the basis of animal pigmentation. When the sulphurated form of melanin, termed pheomelanin, is synthesized, the sulfhydryl group of cysteine is incorporated to the pigment structure. This may constrain physiological performance because it consumes the most important intracellular antioxidant (i.e., glutathione, GSH), of which cysteine is a constitutive amino acid. However, this may also help avoid excess cysteine, which is toxic. Pheomelanin synthesis is regulated by several genes, some of them exerting this regulation by controlling the transport of cysteine in melanocytes. We investigated the possibility that these genes are epigenetically labile regarding protein intake and thus contribute to cysteine homeostasis. We found in the Icelandic population of gyrfalcon Falco rusticolus, a species that pigments its plumage with pheomelanin, that the expression of a gene regulating the export of cystine out of melanosomes (CTNS) in feather melanocytes of developing nestlings increases with food abundance in the breeding territories where they were reared. The expression of other genes regulating pheomelanin synthesis by different mechanisms of influence on cysteine availability (Slc7a11 and Slc45a2) or by other processes (MC1R and AGRP) was not affected by food abundance. As the gyrfalcon is a strict carnivore and variation in food abundance mainly reflects variation in protein intake, we suggest that epigenetic lability in CTNS has evolved in some species because of its potential benefits contributing to cysteine homeostasis. Potential applications of our results should now be investigated in the context of renal failure and other disorders associated with cystinosis caused by CTNS dysfunction. |
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