Discovery and Characterization of Two Isoforms of Moronecidin, a Novel Antimicrobial Peptide from Hybrid Striped Bass
We isolated a novel 22-residue, C-terminally amidated antimicrobial peptide, moronecidin, from the skin and gill of hybrid striped bass. Two isoforms, differing by only one amino acid, are derived from each parental species, white bass (Morone chrysops) and striped bass (Morone saxatilis). Molecular masses (2543 and 2571 Da), amino acid sequences (FFHHIFRGIVHVGKTIH(K/R) LVTGT), cDNA, and genomic DNA sequences were determined for each isoform. A predicted 79-residue moronecidin prepropeptide consists of three domains: a signal peptide (22 amino acids), a mature peptide (22 amino acids), and a C-terminal prodomain (35 amino acids). The synthetic, amidated white bass moronecidin exhibited broad spectrum antimicrobial activity that was retained at high salt concentration. An ␣-helical structure was confirmed by circular dichroism spectroscopy. The moronecidin gene consists of three introns and four exons. Peptide sequence and gene organization were similar to pleurocidin, an antimicrobial peptide from winter flounder. A TATA box and several consensus-binding motifs for transcription factors were found in the region 5 to the transcriptional start site. Moronecidin gene expression was detected in gill, skin, intestine, spleen, anterior kidney, and blood cells by kinetic reverse transcription (RT)-PCR. Thus, moronecidin is a new ␣-helical, broad spectrum antimicrobial peptide isolated from the skin and gills of hybrid striped bass.
We report the isolation of a novel antimicrobial peptide, bass hepcidin, from the gill of hybrid striped bass, white bass (Morone chrysops) · striped bass (M. saxatilis). After the intraperitoneal injection of Micrococcus luteus and Escherichia coli, the peptide was purified from HPLC fractions with antimicrobial activity against Escherichia coli. Sequencing by Edman degradation revealed a 21-residue peptide (GCRFCCNCCPNMSGCGVCCRF) with eight putative cysteines. Molecular mass measurements of the native peptide and the reduced and alkylated peptide confirmed the sequence with four intramolecular disulfide bridges. Peptide sequence homology to human hepcidin and other predicted hepcidins, indicated that the peptide is a new member of the hepcidin family. Nucleotide sequences for cDNA and genomic DNA were determined for white bass. A predicted prepropeptide (85 amino acids) consists of three domains: a signal peptide (24 amino acids), prodomain (40 amino acids) and a mature peptide (21 amino acids). The gene has two introns and three exons. A TATA box and several consensus-binding motifs for transcription factors including C/EBP, nuclear factor-jB, and hepatocyte nuclear factor were found in the region upstream of the transcriptional start site. In white bass liver, hepcidin gene expression was induced 4500-fold following challenge with the fish pathogen, Streptococcus iniae, while expression levels remained low in all other tissues tested. A novel antimicrobial peptide from the gill, bass hepcidin, is predominantly expressed in the liver and highly inducible by bacterial exposure.Keywords: antimicrobial peptide; fish; hepcidin; innate immunity; Streptococcus iniae.Antimicrobial peptides (AMPs) are a broadly distributed group of molecules that are important in host defense against microbial invasion. A growing number of peptides involved in innate immunity have been isolated from plants, invertebrates, and higher vertebrates. Human hepcidin and liver-expressed antimicrobial peptide (LEAP-1) are identical AMPs, which were isolated independently from urine and human blood ultrafiltrate, respectively [1,2]. Peptide sequences of additional hepcidins have been predicted from expressed sequence tag databases from the liver of mouse Fish have evolved to thrive in an aqueous environment with a rich microbial flora, and several AMPs have been isolated from fish [7]. During our search for AMPs from gills of hybrid striped bass, three RP-HPLC fractions with antimicrobial acitivity were found [8]. One contained moronecidin, a 22-residue AMP with an amphipathic a-helical structure. From two other adjacent fractions, we isolated another novel AMP, bass hepcidin, a 21-residue, cysteine-rich peptide, which is a homologue of human hepcidin. We report here the first hepcidin to be isolated from a nonhuman vertebrate, the first cysteine-rich AMP isolated from fish, and the first demonstration of hepcidin gene expression induced by live bacterial challenge. M A T E R I A L S A N D M E T H O D STissue collection and purification of ba...
Streptococcus iniae represents a major health and economic problem in fish species worldwide. Random Tn917 mutagenesis and high-throughput screening in a hybrid striped bass (HSB) model of meningoencephalitis identified attenuated S. iniae mutants. The Tn917 insertion in one mutant disrupted an S. iniae homologue of a phosphoglucomutase (pgm) gene. Electron microscopy revealed a decrease in capsule thickness and cell wall rigidity, with ⌬PGM mutant cells reaching sizes ϳ3-fold larger than those of the wild type (WT). The ⌬PGM mutant was cleared more rapidly in HSB blood and was more sensitive to killing by cationic antimicrobial peptides including moronecidin from HSB. In vivo, the ⌬PGM mutant was severely attenuated in HSB, as intraperitoneal challenge with 1,000 times the WT lethal dose produced only 2.5% mortality. Reintroduction of an intact copy of the S. iniae pgm gene on a plasmid vector restored antimicrobial peptide resistance and virulence to the ⌬PGM mutant. In analysis of the aborted infectious process, we found that ⌬PGM mutant organisms initially disseminated to the blood, brain, and spleen but were eliminated by 24 h without end organ damage. Ninety to 100% of fish injected with the ⌬PGM mutant and later challenged with a lethal dose of WT S. iniae survived. We conclude that the pgm gene is required for virulence in S. iniae, playing a role in normal cell wall morphology, surface capsule expression, and resistance to innate immune clearance mechanisms. An S. iniae ⌬PGM mutant is able to stimulate a protective immune response and may have value as a live attenuated vaccine for aquaculture.With increased development of intensive operations, disease has become a significant hurdle to the profitable culture of fish and shellfish. Streptococcal infections in fish, in particular those produced by the pathogen Streptococcus iniae, have increased markedly with intensification of aquaculture practices (37). S. iniae causes a fatal meningoencephalitis and is associated with large-scale mortality in a wide variety of marine and freshwater cultured fish species, as well as in wild species (5,39,46). More than 30 species of fish have documented susceptibility to S. iniae disease, including trout (10), yellowtail (19), tilapia (39), barramundi (6), and hybrid striped bass (HSB) (11). S. iniae is distributed globally and is estimated to cause yearly economic losses of hundreds of millions of dollars. Occasionally, S. iniae can cause serious zoonotic infections in humans who injure themselves while handling infected fish (20,42).Relatively little is known of the genetics of S. iniae or of the pathogenic mechanisms underlying its virulence. Here, we describe a severely attenuated mutant of S. iniae, identified through random transposon mutagenesis and direct screening for virulence in HSB. Analysis of the transposon insertion site revealed a disruption of an open reading frame (ORF) with similarity to bacterial phosphoglucomutase (pgm) genes. The enzyme phosphoglucomutase (PGM) interconverts glucose-6-phosphate an...
At term pregnancy, hepcidin concentrations are very low, allowing maximal availability of iron for the fetus. Maternal and cord blood hepcidin levels were independently associated with either maternal or cord blood iron status.
Bass hepcidin was purified from the gill of hybrid striped bass (Morone chrysops ؋ Morone saxatilis) based on antimicrobial activity against Escherichia coli. This 21-amino acid peptide has 8 cysteines engaged in 4 disulfide bonds and is very similar to human hepcidin, an antimicrobial peptide with iron regulatory properties. To gain insight into potential role(s) of bass hepcidin in innate immunity in fish, we synthesized the peptide, characterized its antimicrobial activities in vitro, determined its solution structure by NMR, and quantified hepatic gene expression in vivo following infection of bass with the fish pathogens, Streptococcus iniae or Aeromonas salmonicida. Its structure is very similar to that of human hepcidin, including the presence of an antiparallel -sheet, a conserved disulfide-bonding pattern, and a rare vicinal disulfide bond. Synthetic bass hepcidin was active in vitro against Gram-negative pathogens and fungi but showed no activity against key Gram-positive pathogens and a single yeast strain tested. Hepcidin was non-hemolytic at microbicidal concentrations and had lower specific activity than moronecidin, a broad spectrum, amphipathic, ␣-helical, antimicrobial peptide constitutively expressed in bass gill tissue. Good synergism between the bacterial killing activities of hepcidin and moronecidin was observed in vitro. Hepcidin gene expression in bass liver increased significantly within hours of infection with Gram-positive (S. iniae) or Gram-negative (A. salmonicida) pathogens and was 4 -5 orders of magnitude above base-line 24 -48 h post-infection. Our results suggest that hepcidin plays a key role in the antimicrobial defenses of bass and that its functions are potentially conserved between fish and human.
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