The Expansion of Sirtuin Gene Family in Gilthead Sea Bream ( Sparus aurata )-Phylogenetic, Syntenic, and Functional Insights across the Vertebrate/Fish Lineage.
Paula Simó-MirabetFernando Naya-CatalaJosep Àlvar Calduch-GinerJaume Pérez-SánchezPublished in: International journal of molecular sciences (2024)
The Sirtuin (SIRT1-7) family comprises seven evolutionary-conserved enzymes that couple cellular NAD availability with health, nutrition and welfare status in vertebrates. This study re-annotated the sirt3/5 branch in the gilthead sea bream, revealing three paralogues of sirt3 ( sirt3.1a / sirt3.1b / sirt3.2 ) and two of sirt5 ( sirt5a / sirt5b ) in this Perciform fish. The phylogeny and synteny analyses unveiled that the Sirt3.1/Sirt3.2 dichotomy was retained in teleosts and aquatic-living Sarcopterygian after early vertebrate 2R whole genome duplication (WGD). Additionally, only certain percomorphaceae and gilthead sea bream showed a conserved tandem-duplicated synteny block involving the mammalian-clustered sirt3.1 gene ( psmd13 - sirt3.1a/b - drd4 - cdhr5 - ctsd ). Conversely, the expansion of the Sirt5 branch was shaped by the teleost-specific 3R WGD. As extensively reviewed in the literature, human-orthologues ( sirt3.1 / sirt5a ) showed a high, conserved expression in skeletal muscle that increased as development advanced. However, recent sirt3.2 and sirt5b suffered an overall muscle transcriptional silencing across life, as well as an enhanced expression on immune-relevant tissues and gills. These findings fill gaps in the ontogeny and differentiation of Sirt genes in the environmentally adaptable gilthead sea bream, becoming a good starting point to advance towards a full understanding of its neo-functionalization. The mechanisms originating from these new paralogs also open new perspectives in the study of cellular energy sensing processes in vertebrates.