Abstract
Metallothioneins (MT) are small and cysteine-rich proteins that bind metal ions such as zinc, copper, cadmium, and nickel. In order to shed some light on MT gene structure and evolution, we cloned seven Paracentrotus lividus MT genes, comparing them to Echinodermata and Chordata genes. Moreover, we performed a phylogenetic analysis of 32 MTs from different classes of echinoderms and 13 MTs from the most ancient chordates, highlighting the relationships between them. Since MTs have multiple roles in the cells, we performed RT-qPCR and in situ hybridization experiments to understand better MT functions in sea urchin embryos. Results showed that the expression of MTs is regulated throughout development in a cell type-specific manner and in response to various metals. The MT7 transcript is expressed in all tissues, especially in the stomach and in the intestine of the larva, but it is less metal-responsive. In contrast, MT8 is ectodermic and rises only at relatively high metal doses. MT5 and MT6 expression is highly stimulated by metals in the mesenchyme cells. Our results suggest that the P. lividus MT family originated after the speciation events by gene duplications, evolving developmental and environmental sub-functionalization.
Highlights
Metallothioneins (MTs) represent a superfamily of widespread proteins existing of many organisms, ranging from prokaryotes to vertebrates
The availability of large-scale transcriptional data sets for the Mediterranean sea urchin P. lividus allowed us to carry out a transcriptome survey for a comprehensive identification of the MT homologues
We performed BLASTN and TBLASTN searches using MT cDNA sequences previously cloned as queries [25] and a clustering analysis of MT expressed sequence tags (EST) retrieved
Summary
Metallothioneins (MTs) represent a superfamily of widespread proteins existing of many organisms, ranging from prokaryotes to vertebrates. MTs are known to exhibit a plethora of biological functions, including protection against metal toxicity, control of oxidative stress and regulation of physiological homeostasis [2,3,4,5]. In addition to their central role as metal scavengers, MTs are involved in a number of cellular activities, including cell proliferation [6], differentiation [7,8], apoptosis and immune response [9,10]. Evolutionary perspectives on MTs in deuterostomes were accomplished combining phylogeny and gene features
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