Abstract
BackgroundBig defensin is an antimicrobial peptide composed of a highly hydrophobic N-terminal region and a cationic C-terminal region containing six cysteine residues involved in three internal disulfide bridges. While big defensin sequences have been reported in various mollusk species, few studies have been devoted to their sequence diversity, gene organization and their expression in response to microbial infections.FindingsUsing the high-throughput Digital Gene Expression approach, we have identified in Crassostrea gigas oysters several sequences coding for big defensins induced in response to a Vibrio infection. We showed that the oyster big defensin family is composed of three members (named Cg-BigDef1, Cg-BigDef2 and Cg-BigDef3) that are encoded by distinct genomic sequences. All Cg-BigDefs contain a hydrophobic N-terminal domain and a cationic C-terminal domain that resembles vertebrate β-defensins. Both domains are encoded by separate exons. We found that big defensins form a group predominantly present in mollusks and closer to vertebrate defensins than to invertebrate and fungi CSαβ-containing defensins. Moreover, we showed that Cg-BigDefs are expressed in oyster hemocytes only and follow different patterns of gene expression. While Cg-BigDef3 is non-regulated, both Cg-BigDef1 and Cg-BigDef2 transcripts are strongly induced in response to bacterial challenge. Induction was dependent on pathogen associated molecular patterns but not damage-dependent. The inducibility of Cg-BigDef1 was confirmed by HPLC and mass spectrometry, since ions with a molecular mass compatible with mature Cg-BigDef1 (10.7 kDa) were present in immune-challenged oysters only. From our biochemical data, native Cg-BigDef1 would result from the elimination of a prepropeptide sequence and the cyclization of the resulting N-terminal glutamine residue into a pyroglutamic acid.ConclusionsWe provide here the first report showing that big defensins form a family of antimicrobial peptides diverse not only in terms of sequences but also in terms of genomic organization and regulation of gene expression.
Highlights
Big defensin is an antimicrobial peptide (AMP) initially characterized in a Chelicerate, the horseshoe crab Tachypleus tridentatus, whose immune system has been extensively studied [1]
We provide here the first report showing that big defensins form a family of antimicrobial peptides diverse in terms of sequences and in terms of genomic organization and regulation of gene expression
The C-terminal region of the horseshoe crab big defensin forms a b-sheet structure folded by three disulfide bounds, which is similar to the three-stranded antiparallel b-sheet structure of the human b-defensin HBD-2 and HBD-3 [4], antimicrobial peptides active against both Gram-positive and Gram-negative bacteria [5]
Summary
Big defensin is an antimicrobial peptide (AMP) initially characterized in a Chelicerate, the horseshoe crab Tachypleus tridentatus, whose immune system has been extensively studied [1]. The C-terminal region of the horseshoe crab big defensin forms a b-sheet structure folded by three disulfide bounds, which is similar to the three-stranded antiparallel b-sheet structure of the human b-defensin HBD-2 and HBD-3 [4], antimicrobial peptides active against both Gram-positive and Gram-negative bacteria [5]. Such a structure is different from that of invertebrate defensins, which consists of an a-helix linked to an antiparallel two-stranded b-sheet by 3 to 4 disulfide bridges [6]. While big defensin sequences have been reported in various mollusk species, few studies have been devoted to their sequence diversity, gene organization and their expression in response to microbial infections
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