Molecular characterization of a novel hepcidin (HepcD) from Camelus dromedarius. Synthetic peptide forms exhibit antibacterial activity

Hepcidin is a cysteine‐rich peptide widely characterized in immunological processes and antimicrobial activity in several vertebrate species. Obviously, this hormone plays a central role in the regulation of systemic iron homeostasis. However, its role in camelids' immune response and whether it is involved in antibacterial immunity have not yet been proven. In this study, we characterized the Arabian camel hepcidin nucleotide sequence with an open reading frame of 252 bp encoding an 83‐amino acid preprohepcidin peptide. Eight cysteine key residues conserved in all mammalian hepcidin sequences were identified. The model structure analysis of hepcidin‐25 peptide showed a high homology structure and sequence identity to the human hepcidin. Two different hepcidin‐25 analogs manually synthesized by SPPS shared significant cytotoxic capacity toward the Gram‐negative bacterium Escherichia coli American Type Culture Collection (ATCC) 8739 as well as the Gram‐positive bacteria Bacillus subtilis ATCC 11779 and Staphylococcus aureus ATCC 6538 in vitro. The three disulfide bridges hepcidin analog demonstrated bactericidal activity, against B. subtilis ATCC 11779 and S. aureus ATCC 6538 strains, at the concentration of 15 μM (50 µg/ml) or above at pH 6.2. This result correlates with the revealed structural features suggesting that camel hepcidin is proposed to be involved in antibacterial process of innate immune response. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Recombinant overexpression of camel hepcidin cDNA in Pichia pastoris: purification and characterization of the polyHis‐tagged peptide HepcD‐His

Hepcidin, a liver‐expressed antimicrobial peptide, has been demonstrated to act as an iron regulatory hormone as well as to exert a wide spectrum of antimicrobial activity. The aim of this work was the expression, as secreted peptide, purification, and characterization of a new recombinant polyHis‐tagged camel hepcidin (HepcD‐His) in yeast Pichia pastoris . The use of this eukaryotic expression system, for the production of HepcD‐His, having 6 histidine residues at its C terminus, was simpler and more efficient compared with the use of the prokaryotic system Escherichia  coli . Indeed, a single purification step was required to isolate the soluble hepcidin with purity estimated more that 94% and a yield of 2.8 against 0.2 mg/L for the E coli system. Matrix‐assisted laser desorption/ionization time‐of‐flight (TOF)/TOF mass spectrometry of the purified HepcD‐His showed 2 major peaks at m /z 4524.64 and 4634.56 corresponding to camel hepcidin with 39 and 40 amino acids. Evaluation of disulfide bond connectivity with the Ellman method showed an absence of free thiol groups, testifying that the 8 cysteine residues in the peptide are displayed, forming 4 disulfide bridges. Circular dichroism spectroscopy showed that camel hepcidin structure was significantly modified at high temperature of 90°C and returns to its original structure when incubation temperature drops back to 20°C. Interestingly, this peptide showed also a greater bactericidal activity, at low concentration of 9.5μM, against E coli , than the synthetic analog DH3. Thus, the production, at a large scale, of the recombinant camel hepcidin, HepcD‐His, may be helpful for future therapeutic applications including bacterial infection diseases.     

ARTIFICIAL SYNTHESIS OF SWINE HEPCIDIN GENE AND EXPRESSION IN Pichia pastoris

In order to express swine hepcidin gene in Pichia pastoris, a DNA fragment coding hepcidin gene was synthesized with adaptation to yeast codon usage of highly expressed genes. A Kex2 signal cleavage site was fused in the 5′ end of the DNA fragment for getting a peptide with the same N-end as native hepcidin. The 96-bp DNA fragment was ligated into the expression plasmid of pGAPZaA to construct pGAPZaA-hepcidin vector, which was transferred into P. pastoris (X33) to express hepcidin gene for extracellular secretion of protein at 86 µg/mL. A band of 2.76 kD molecular mass was detected by Tricine sodium dodecyl sulfate (SDS) polyacrylamide gel electrophoresis (PAGE) analysis. Through antibacterial assay, the expressed hepcidin displayed obvious antibacterial activity. The minimal inhibitory concentration (MIC) was 5.38 and 2.69 µg/mL for Staphylococcus aureus and Bacillus subtilis prolification inhibitions, respectively.     

Smad7 deficiency decreases iron and haemoglobin through hepcidin up‐regulation by multilayer compensatory mechanisms

To maintain iron homoeostasis, the iron regulatory hormone hepcidin is tightly controlled by BMP‐Smad signalling pathway, but the physiological role of Smad7 in hepcidin regulation remains elusive. We generated and characterized hepatocyte‐specific Smad7 knockout mice (Smad7^Alb/Alb), which showed decreased serum iron, tissue iron, haemoglobin concentration, up‐regulated hepcidin and increased phosphor‐Smad1/5/8 levels in both isolated primary hepatocytes and liver tissues. Increased levels of hepcidin lead to reduced expression of intestinal ferroportin and mild iron deficiency anaemia. Interestingly, we found no difference in hepcidin expression or phosphor‐Smad1/5/8 levels between iron‐challenged Smad7^Alb/Alb and Smad7^flox/flox, suggesting other factors assume the role of iron‐induced hepcidin regulation in Smad7 deletion. We performed RNA‐seq to identify differentially expressed genes in the liver. Significantly up‐regulated genes were then mapped to pathways, revealing TGF‐β signalling as one of the most relevant pathways, including the up‐regulated genes Smad6, Bambi and Fst (Follistatin). We found that Smad6 and Bambi—but not Follistatin—are controlled by the iron‐BMP–Smad pathway. Overexpressing Smad6, Bambi or Follistatin in cells significantly reduced hepcidin expression. Smad7 functions as a key regulator of iron homoeostasis by negatively controlling hepcidin expression, and Smad6 and Smad7 have non‐redundant roles. Smad6, Bambi and Follistatin serve as additional inhibitors of hepcidin in the liver.     

Macrophages largely contribute to heterologous anti‐Propionibacterium acnes antibody‐mediated protection from Actinobacillus pleuropneumoniae infection in mice

Actinobacillus pleuropneumoniae is the causative agent of acute and chronic pleuropneumonia. Propionibacterium acnes is a facultative anaerobic gram‐positive corynebacterium. We have previously found that anti‐P. acnes antibodies can prevent A. pleuropneumoniae infections in mice. To investigate the role of macrophages in this process, affinity‐purified anti‐P. acnes IgG and anti‐A. pleuropneumoniae IgG were used in opsonophagocytosis assays. Additionally, the efficacy of passive immunization with P. acnes serum against A. pleuropneumoniae was tested in macrophage‐depleted mice. It was found that anti‐P. acnes IgG had an effect similar to that of anti‐A. pleuropneumoniae IgG (P > 0.05), which significantly promotes phagocytosis of A. pleuropneumoniae by macrophages (P < 0.01). It was also demonstrated that, after passive immunization with anti‐P. acnes serum, macrophage‐replete mice had the highest survival rate (90%), whereas the survival rate of macrophage‐depleted mice was only 40% (P < 0.05). However, macrophage‐depleted mice that had been passively immunized with naïve serum had the lowest survival rate (20%), this rate being lower than that of macrophage‐replete mice that had been passively immunized with naïve serum. Overall, anti‐P. acnes antibodies did not prevent A. pleuropneumoniae infection under conditions of macrophage depletion (P > 0.05). Furthermore, in mice that had been passively immunized with anti‐P. acnes serum, macrophage depletion resulted in a greater A. pleuropneumoniae burden and more severe pathological features of pneumonia in lung tissues than occurred in macrophage‐replete mice. It was concluded that macrophages are essential for the process by which anti‐P. acnes antibody prevents A. pleuropneumoniae infection in mice.     

N-glycosylation and biological activity of recombinant human alpha1-antitrypsin expressed in a novel human neuronal cell line

Human alpha‐1‐antitrypsin (A1AT) is a protease inhibitor that is involved in the protection of lungs from neutrophil elastase enzyme that drastically modifies tissue functioning. The glycoprotein consists of 394 amino acids and is N‐glycosylated at Asn‐46, Asn‐83, and Asn‐247. A1AT deficiency is currently treated with A1AT that is purified from human serum. In view of therapeutic applications, rA1AT was produced using a novel human neuronal cell line (AGE1.HN®) and we investigated the N‐glycosylation pattern as well as the in vitro anti‐inflammatory activity of the recombinant glycoprotein. rA1AT (300 mg/L) was biologically active as analyzed using elastase assay. The N‐glycan pool, released by PNGase F digestion, was characterized using 2D‐HPLC, MALDI‐TOF mass spectrometry, and by exoglycosidase digestions. A total of 28 N‐glycan structures were identified, ranging from diantennary to tetraantennary complex‐type N‐glycans. Most of the N‐glycans were found to be (α1–6) core‐fucosylated and part of them contain the Lewis X epitope. The two major compounds are a monosialylated diantennary difucosylated glycan and a disialylated diantennary core‐fucosylated glycan, representing 25% and 18% of the total N‐glycan pool, respectively. Analysis of the site‐specificity revealed that Asn‐247 was mainly occupied by diantennary N‐glycans whereas Asn‐46 was occupied by di‐, and triantennary N‐glycans. Asn‐83 was exclusively occupied by sialylated tri‐ and tetraantennary N‐glycans. Next, we evaluated the anti‐inflammatory activity of rA1AT using A1AT purified from human serum as a reference. rA1AT was found to inhibit the production of TNF‐α in neutrophils and monocytes as commercial A1AT does. Biotechnol. Bioeng. 2011;108:2118–2128. © 2011 Wiley Periodicals, Inc.     

Successful selection of an infection‐protective anti‐Staphylococcus aureus monoclonal antibody and its protective activity in murine infection models

Recent clinical trials to develop anti‐methicillin‐resistant Staphylococcus aureus (MRSA) therapeutic antibodies have met unsuccessful sequels. To develop more effective antibodies against MRSA infection, a panel of mAbs against S. aureus cell wall was generated and then screened for the most protective mAb in mouse infection models. Twenty‐two anti‐S. aureus IgG mAbs were obtained from mice that had been immunized with alkali‐processed, deacetylated cell walls of S. aureus. One of these mAbs, ZBIA5H, exhibited life‐saving effects in mouse models of sepsis caused by community‐acquired MRSA strain MW2 and vancomycin‐resistant S. aureus strain VRS1. It also had a curative effect in a MW2‐caused pneumonia model. Curiously, the target of ZBIA5H was considered to be a conformational epitope of either the 1,4‐β‐linkage between N‐acetylmuramic acid and N‐acetyl‐D‐glucosamine or the peptidoglycan per se. Reactivity of ZBIA5H to S. aureus whole cells or purified peptidoglycan was weaker than that of most of the other mAbs generated in this study. However, the latter mAbs did not have the protective activities against S. aureus that ZBIA5H did. These data indicate that the epitopes that trigger production of high‐yield and/or high‐affinity antibodies may not be the most suitable epitopes for developing anti‐infective antibodies. ZBIA5H or its humanized form may find a future clinical application, and its target epitope may be used for the production of vaccines against S. aureus infection.     

Fibronectin‐binding proteins of Clostridium perfringens recognize the III1‐C fragment of fibronectin

The Clostridium perfringens strain 13 genome contains two genes (fbpA, fbpB) that encode putative Fbp. Both rFbpA and rFbpB were purified and their reactivity with human serum Fn was analyzed. To determine the region of the Fn molecule recognized by rFbp, a plate binding assay using N‐terminal 70‐kDa peptide, III₁‐C peptide, and 110‐kDa peptide containing III_2–10 of Fn was performed. Both rFbp bound to the III₁‐C peptide of Fn but not to the other peptides. However, the III₁‐C fragment of Fn is known to be cryptic in serum Fn. Then, rFbp‐BP from Fn were purified by rFbp‐affinity chromatography. The yield of purified proteins was approximately 1% of the applied Fn on a protein basis. Western blotting analysis of the rFbp‐BP, using four different anti‐Fn monoclonal antibodies, revealed that the rFbp‐BP carried partial Fn antigenicity. Bindings of rFbp to rFbp‐BP were inhibited by the presence of the III₁‐C peptide, suggesting that rFbp‐BP express the III₁‐C fragment. The binding of Fn to III₁‐C was inhibited by the presence of either rFbpA or rFbpB. This result that suggests C. perfringens Fbps may inhibit the formation of Fn‐matrix in vivo.     

mRNA display selection and solid‐phase synthesis of Fc‐binding cyclic peptide affinity ligands

Cyclic peptides are attractive candidates for synthetic affinity ligands due to their favorable properties, such as resistance to proteolysis, and higher affinity and specificity relative to linear peptides. Here we describe the discovery, synthesis and characterization of novel cyclic peptide affinity ligands that bind the Fc portion of human Immunoglobulin G (IgG; hFc). We generated an mRNA display library of cyclic pentapeptides wherein peptide cyclization was achieved with high yield and selectivity, using a solid‐phase crosslinking reaction between two primary amine groups, mediated by a homobifunctional linker. Subsequently, a pool of cyclic peptide binders to hFc was isolated from this library and chromatographic resins incorporating the selected cyclic peptides were prepared by on‐resin solid‐phase peptide synthesis and cyclization. Significantly, this approach results in resins that are resistant to harsh basic conditions of column cleaning and regeneration. Further studies identified a specific cyclic peptide—cyclo[Link‐M‐WFRHY‐K]—as a robust affinity ligand for purification of IgG from complex mixtures. The cyclo[Link‐M‐WFRHY‐K] resin bound selectively to the Fc fragment of IgG, with no binding to the Fab fragment, and also bound immunoglobulins from a variety of mammalian species. Notably, while the recovery of IgG using the cyclo[Link‐M‐WFRHY‐K] resin was comparable to a Protein A resin, elution of IgG could be achieved under milder conditions (pH 4 vs. pH 2.5). Thus, cyclo[Link‐M‐WFRHY‐K] is an attractive candidate for developing a cost‐effective and robust chromatographic resin to purify monoclonal antibodies (mAbs). Finally, our approach can be extended to efficiently generate and evaluate cyclic peptide affinity ligands for other targets of interest. Biotechnol. Bioeng. 2013; 110: 857–870. © 2012 Wiley Periodicals, Inc.     

Expression of an immunogenic Ebola immune complex in Nicotiana benthamiana

Filoviruses (Ebola and Marburg viruses) cause severe and often fatal haemorrhagic fever in humans and non‐human primates. The US Centers for Disease Control identifies Ebola and Marburg viruses as ‘category A’ pathogens (defined as posing a risk to national security as bioterrorism agents), which has lead to a search for vaccines that could prevent the disease. Because the use of such vaccines would be in the service of public health, the cost of production is an important component of their development. The use of plant biotechnology is one possible way to cost‐effectively produce subunit vaccines. In this work, a geminiviral replicon system was used to produce an Ebola immune complex (EIC) in Nicotiana benthamiana. Ebola glycoprotein (GP1) was fused at the C‐terminus of the heavy chain of humanized 6D8 IgG monoclonal antibody, which specifically binds to a linear epitope on GP1. Co‐expression of the GP1‐heavy chain fusion and the 6D8 light chain using a geminiviral vector in leaves of N. benthamiana produced assembled immunoglobulin, which was purified by ammonium sulphate precipitation and protein G affinity chromatography. Immune complex formation was confirmed by assays to show that the recombinant protein bound the complement factor C1q. Size measurements of purified recombinant protein by dynamic light scattering and size‐exclusion chromatography also indicated complex formation. Subcutaneous immunization of BALB/C mice with purified EIC resulted in anti‐Ebola virus antibody production at levels comparable to those obtained with a GP1 virus‐like particle. These results show excellent potential for a plant‐expressed EIC as a human vaccine.     

Identification of enteropathogenic and enterohaemorrhagic Escherichia coli strains by immunoserological detection of intimin

Aims: To evaluate the sensitivity and specificity of polyclonal and monoclonal antibodies (Mabs) against intimin in the detection of enteropathogenic and enterohaemorrhagic Escherichia coli isolates using immunoblotting. Methods and Results: Polyclonal and Mabs against the intimin‐conserved region were raised, and their reactivities were compared in enteropathogenic E. coli (EPEC) and enterohaemorrhagic E. coli (EHEC) isolates using immunoblotting analysis. In comparison with rat antiserum, rabbit anti‐intimin IgG‐enriched fraction had a stronger recognition pattern to a wide spectrum of intimin types in different EPEC and EHEC serotypes. On the other hand, murine monoclonal IgG2b specific to intimin, with dissociation constant of 1·3 × 10^?8 mol l^?1, failed in the detection of some of these isolates. Conclusion: All employed antibodies showed 100% specificity, not reacting with any of the eae‐negative isolates. The sensitivity range was according to the employed antisera, and 97% for rabbit anti‐intimin IgG‐enriched fraction, followed by 92% and 78% sensitivity with rat antisera and Mab. Significance and Impact of the Study: The rabbit anti‐intimin IgG‐enriched fraction in immunoblotting analysis is a useful tool for EPEC and EHEC diagnoses.     

Improved secretion of molecular chaperone‐assisted human IgG in silkworm,and no alterations in their N‐linked glycan structures

Human 29IJ6 IgG was expressed in silkworm using a Bombyx mori nucleopolyhedrovirus (BmNPV) bacmid system. The mean amounts of 296IJ6 IgG produced in larval hemolymph and whole pupae were 30.1 μg/larva and 78.0 μg/pupa, respectively. The use of molecular chaperones including calreticulin (CRT), calnexin (CNX), and immunoglobulin heavy chain binding protein (BiP, GRP78) improved the production of 296IJ6 IgG secretion in the larvae fivefold. The total yield of recombinant 29IJ6 IgG was 239 μg/mL when coexpressed with CRT. However, the overexpression of molecular chaperones had negative effects on secretion. The N‐linked glycans of secreted 296IJ6 IgG in silkworm hemolymph were dominated by paucimannose structures. Small amounts of GlcNAc residues linked to the Manα1,3 branch were detected. When molecular chaperones were coexpressed, the compositions of N‐linked glycans in the IgG1 produced were unchanged compared with those produced without them. This suggests that N‐glycosylation is controlled by a regulatory function in the Golgi apparatus even though the post‐translational modification of 296IJ6 IgG was assisted by the coexpression of molecular chaperones. Therefore, if the glycosylation pathways that coexpress N‐acetylglucosaminyltransferase, galactosyltransferase, and sialyltransferase could be improved, silkworm larvae might prove a useful system for producing human antibodies. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2010     

Epitope motif of an anti‐nitrotyrosine antibody specific for tyrosine‐nitrated peptides revealed by a combination of affinity approaches and mass spectrometry

Nitration of tyrosine residues has been shown to be an important oxidative modification in proteins and has been suggested to play a role in several diseases such as atherosclerosis, asthma, lung and neurodegenerative diseases. Detection of nitrated proteins has been mainly based on the use of nitrotyrosine‐specific antibodies. In contrast, only a small number of nitration sites in proteins have been unequivocally identified by MS. We have used a monoclonal 3‐NT‐specific antibody, and have synthesized a series of tyrosine‐nitrated peptides of prostacyclin synthase (PCS) in which a single specific nitration site at Tyr‐430 had been previously identified upon reaction with peroxynitrite 17 . The determination of antibody‐binding affinity and specificity of PCS peptides nitrated at different tyrosine residues (Tyr‐430, Tyr‐421, Tyr‐83) and sequence mutations around the nitration sites provided the identification of an epitope motif containing positively charged amino acids (Lys and/or Arg) N‐terminal to the nitration site. The highest affinity to the anti‐3NT‐antibody was found for the PCS peptide comprising the Tyr‐430 nitration site with a K_D of 60 nM determined for the peptide, PCS(424‐436‐Tyr‐430NO₂); in contrast, PCS peptides nitrated at Tyr‐421 and Tyr‐83 had substantially lower affinity. ELISA, SAW bioaffinity, proteolytic digestion of antibody‐bound peptides and affinity‐MS analysis revealed highest affinity to the antibody for tyrosine‐nitrated peptides that contained positively charged amino acids in the N‐terminal sequence to the nitration site. Remarkably, similar N‐terminal sequences of tyrosine‐nitration sites have been recently identified in nitrated physiological proteins, such as eosinophil peroxidase and eosinophil‐cationic protein. Copyright © 2011 European Peptide Society and John Wiley & Sons, Ltd.     

A novel strategy for the rapid preparation and isolation of intact immune complexes from peptide mixtures

The development and application of a miniaturized affinity system for the preparation and release of intact immune complexes are demonstrated. Antibodies were reversibly affinity‐adsorbed on pipette tips containing protein G´ and protein A, respectively. Antigen proteins were digested with proteases and peptide mixtures were exposed to attached antibodies; forming antibody–epitope complexes, that is, immune complexes. Elution with millimolar indole propionic acid (IPA)‐containing buffers under neutral pH conditions allowed to effectively isolate the intact immune complexes in purified form. Size exclusion chromatography was performed to determine the integrity of the antibody–epitope complexes. Mass spectrometric analysis identified the epitope peptides in the respective SEC fractions. His‐tag‐containing recombinant human glucose‐6‐phosphate isomerase in combination with an anti‐His‐tag monoclonal antibody was instrumental to develop the method. Application was extended to the isolation of the intact antibody–epitope complex of a recombinant human tripartite motif 21 (rhTRIM21) auto‐antigen in combination with a rabbit polyclonal anti‐TRIM21 antibody. Peptide chip analysis showed that antibody–epitope binding of rhTRIM21 peptide antibody complexes was not affected by the presence of IPA in the elution buffer. By contrast, protein G´ showed an ion charge structure by electrospray mass spectrometry that resembled a denatured conformation when exposed to IPA‐containing buffers. The advantages of this novel isolation strategy are low sample consumption and short experimental duration in addition to the direct and robust methodology that provides easy access to intact antibody–antigen complexes under neutral pH and low salt conditions for subsequent investigations. Copyright © 2014 John Wiley & Sons, Ltd.     

Decreased Serum Hepcidin and Improved Functional Iron Status 6 Months After Restrictive Bariatric Surgery

Excess adiposity is associated with low‐grade inflammation and decreased iron status. Iron depletion in obesity is thought to be mediated by an inflammation‐induced increase in the body's main regulator of iron homeostasis, hepcidin. Elevated hepcidin can result in iron depletion as it prevents the release of dietary iron absorbed into the enterocytes, limiting replenishment of body iron losses. Weight reduction is associated with decreased inflammation; however, the impact of reduced inflammation on iron status and systemic hepcidin in obese individuals remains unknown. We determined prospectively the impact of weight loss on iron status parameters, serum hepcidin, inflammation, and dietary iron in 20 obese premenopausal females 6 months after restrictive bariatric surgery. At baseline, the presence of iron depletion was high with 45% of the women having serum transferrin receptor (sTfR) >28.1 nmol/l. Differences between baseline and 6 months after surgery for BMI (47.56 vs. 39.55 kg/m²; P < 0.0001), C‐reactive protein (CRP) (10.83 vs. 5.71 mg/l; P < 0.0001), sTfR (29.97 vs. 23.08 nmol/l; P = 0.001), and serum hepcidin (111.25 vs. 31.35 ng/ml; P < 0.0001) were significantly lower, whereas hemoglobin (Hb) (12.10 vs. 13.30 g/dl; P < 0.0001) and hematocrit (Hct) (36.58 vs. 38.78%; P = 0.001) were significantly higher. Ferritin and transferrin saturation (Tsat) showed minimal improvement at follow‐up. At baseline, hepcidin was not correlated with sTfR (r = 0.02); however, at follow‐up, significant correlations were found (r = ?0.58). Change in interleukin‐6 (IL‐6) from baseline was marginally associated with decreased log serum hepcidin (Δ IL‐6: β = ?0.22; P = 0.15), whereas change in BMI or weight was not. No significant difference in dietary iron was noted after surgery. Weight loss in obese premenopausal women is associated with reduced serum hepcidin and inflammation. Reduction in inflammation and hepcidin likely allow for enhanced dietary iron absorption resulting in an improved functional iron profile.     

Molecular analysis of homeostatic iron regulator,transmembrane protease serine-6, and BTB domain-containing protein-9 variants and iron parameters in blood donors

Genetic variants associated with iron homeostasis have been identified, but their association with iron-related indices and variables among different ethnic populations remains controversial. We aimed to explore the genotype frequency and allelic distribution of three iron-metabolism related variants in homeostatic iron regulator gene (HFE; rs1800562 G/A), transmembrane protease, Serine-6 gene (TMPRSS6; rs855791 A/G), and BTB domain-containing protein-9 gene (BTBD9; rs9357271 C/T) among a sample of the Middle Eastern blood donors and to detect the association of these variants on blood indices, and serum hepcidin/ferritin levels. Real-Time TaqMan genotyping assay for the specified variants was applied for 197 unrelated blood donors. Complete blood picture and serum hepcidin/ferritin levels were assessed. All participants were carriers of rs1800562*G/G genotype for HFE. The frequency of A/A and A/G genotypes of TMPRSS6 rs855791 variant was 55% and 45%, and for C/C, C/T, and T/T of BTBD9 rs9357271, were 15%, 43%, and 42%, respectively. Minor allele frequencies of rs855791*G and rs9357271*C were 0.23 and 0.37. The GGC genotype combination (for HFE/TMPRSS6/BTBD9, respectively) was more frequent in male participants. Higher serum hepcidin and hepcidin/ferritin ratio were observed in TMPRSS6 (A/G) carriers. While subjects with BTBD9 C/T and TT genotypes had lower serum ferritin values and higher levels of hepcidin and hepcidin/ferritin ratio compared with C/C genotype. No significant associations were found with any other blood parameters.In conclusion, TMPRSS6 rs855791 (A/G) and BTBD9 rs9357271 (C/T) variants were prevalent in the present blood donor population and may influence the serum hepcidin and/or ferritin levels.     

A label‐free immunoassay using eggshell membrane as matrix and poly(diallyldimethylammonium chloride) as light‐scattering enhancer

A label‐free immunoassay system using eggshell membrane as a matrix was developed. A common spectrofluorometer was used to collect light‐scattering signals. The rabbit anti‐human IgG (Ab) was first immobilized on the eggshell membrane with glutaraldehyde. Then, based on the immunoreactions and electrostatic interaction, the target human IgG antigen (Ag) and poly(diallyldimethylammonium chloride) (PDDA) were captured on the eggshell membrane. It was found that the light‐scattering signal resulting from the PDDA immunotargeted on modified eggshell membrane was related to the concentration of target antigen. Under the optimal conditions, the light scattering intensity is directly proportional to the concentration of Ag in the range of 5.00–500 ng/mL (r = 0.995) with the limit of detection of 2.31 ng/mL [signal:noise ratio (S:N) = 3]. The proposed method was successfully applied to the determination of IgG in human serum, and the results were in agreement with those obtained by a general immunonephelometric method. Copyright © 2011 John Wiley & Sons, Ltd.