The dominant expression of functional human lactoferrin in transgenic cloned goats using a hybrid lactoferrin expression construct

Human Lactoferrin (hLF) is an iron-binding protein with multiple physiological functions. As the availability of natural hLF is limited, alternative means of producing this biopharmaceutical protein have been extensively studied. Here we report on the dominant expression of recombinant human lactoferrin (rhLF) in transgenic cloned goats using a novel optimised construct made by fusing a 3.3kb hLF minigene to the regulatory elements of the β-casein gene. The transgenic goat produced more than 30mg/ml rhLF in its milk, and rhLF expression was stable during the entire lactation cycle. The rhLF purification efficiency from whole goat milk is approximately 70%, and its purity is above 98%. Compared with natural hLF, the rhLF from transgenic goats has similar biological characteristics including molecular mass, N-terminal sequence, isoelectric point, immunoreactivity and digestive stability. More importantly, the purified rhLF showed specific anti-tumour activity in the mouse model of melanoma experimental metastasis. Therefore, our study shows that the large-scale production of functional rhLF in transgenic goat milk could be an economical and promising source of human therapeutic use in the future.     

The human lactoferrin-derived peptide hLF1-11 primes monocytes for an enhanced TLR-mediated immune response

Earlier we reported that the peptide corresponding to the first eleven N-terminal amino acids of human lactoferrin (hLF1-11) is active against multi-drug resistant pathogens in mice. The mechanisms underlying this anti-infective activity remain unclear. Since hLF1-11 is ineffective against pathogens at physiological salt concentrations and hLF1-11 directs differentiation of monocytes toward a macrophage subset with enhanced effector functions, we investigated the effects of hLF1-11 on human and murine monocytes. Results revealed that human and murine monocytes exposed for 1 h to hLF1-11 and then stimulated with the Toll-like receptor (TLR)-ligand LPS for 18 h, displayed enhanced cytokine and chemokine production as compared to control (peptide-treated) monocytes. We also found that expression of mRNA, cell-surface receptor expression, and NF-κB activation by hLF1-11-exposed human monocytes were enhanced as compared to control (peptide-treated) monocytes. Furthermore, the kinetics of the cytokine production was unchanged as mRNA levels and protein levels paralleled the enhanced response of hLF1-11-exposed monocytes to LPS. The cytokine production by human monocytes in response to TLR4, TLR5, and TLR7 stimulation, but not to TLR2 stimulation, was elevated by hLF1-11. In concordance, translocation of NF-κB subunits to the nucleus was enhanced in hLF1-11-exposed monocytes after TLR stimulation, except for TLR2, as compared to control (peptide-exposed) monocytes. In conclusion, monocytes were primed by hLF1-11 for an enhanced inflammatory response upon TLR4, TLR5, and TLR7 stimulation, but not TLR2 stimulation. Such effects of hLF1-11 on monocyte reactivity should be taken into account when considering the clinical development of this peptide for a therapeutic intervention in patients.     

The protein structure of recombinant human lactoferrin produced in the milk of transgenic cows closely matches the structure of human milk-derived lactoferrin

Human lactoferrin (hLF) is an iron-binding glycoprotein involved in the host defence against infection and excessive inflammation. As the availability of (human milk-derived) natural hLF is limited, alternative means of production of this biopharmaceutical are extensively researched. Here we report the crystal structure of recombinant hLF (rhLF) expressed in the milk of transgenic cows at a resolution of 2.4 Å. To our knowledge, the first reported structure of a recombinant protein produced in milk of transgenic livestock. Even though rhLF contains oligomannose- and hybrid-type N-linked glycans next to complex-type glycans, which are the only glycans found on natural hLF, the structures are identical within the experimental error (r.m.s. deviation of only 0.28 Å for the main-chain atoms). Of the differences in polymorphic amino acids between the natural and rhLF variant used, only the side-chain of Asp⁵⁶¹ could be modeled into the rhLF electron density map. Taken together, the results confirm the structural integrity of the rhLF variant used in this study. It also confirms the validity of the transgenic cow mammary gland as a vehicle to produce recombinant human proteins.Ellen A. J. Thomassen, Harrie A. van Veen - These authors have contributed equally to this paper.The PDB-code of recombinant human lactoferrin is 2BJJ     

人乳铁蛋白在转基因马铃薯块茎中的表达

人乳铁蛋白(human lactoferrin,hLF)是人体非特异性免疫系统的重要成员之一,具有抗细菌、真菌和抗病毒活性及其他多种功能.报道将hLF基因的cDNA与马铃薯(Solarium tuberosum L.)块茎专一性表达patain基因启动子融合后通过农杆菌介导导入马铃薯,PCR检测证实获得了多个转基因株系,RT-PCR阳性结果说明hLF mRNA在马铃薯植株中得到了表达.同时,经过ELISA及Western blot检测证实,转基因马铃薯表达了hLF并具有人乳铁蛋白的活性.     

Human lactoferrin exerts bi-directional actions on PC12 cell survival via ERK1/2 pathway

Human lactoferrin (hLF) is a member of the transferrin family and is found in most body fluids of human. Recent study showed that hLF played some roles in the regulation of cell growth. However, the biological function of hLF in the central nervous system and neuronal cells is still unclear. The MTT was used to assay cell viability, ELISA tests were used to assay caspase activities, and TUNEL staining was used to test the cytotoxicity of hLF to the cells. Our result showed that 700 microg/ml hLF significantly reduced the cell viability and increased the caspase 3 and 8 activities in PC12 neuronal cells. TUNEL staining further showed that 700 microg/ml hLF was cytotoxic to the PC12 through apoptosis-mediated pathway. In addition, 700 microg/ml hLF significantly decreased the protein expressions of phosphorylated extracellular-signal-regulated kinase 1/2 (ERK1/2) and Bcl-2 in PC12 cells, whereas 50 microg/ml hLF significantly increased the phosphorylation of ERK1/2 which could be specifically inhibited by PD98059. Furthermore, 50 microg/ml hLF could not only up-regulate the Bcl-2 expression but also protect PC12 cells from FasL-induced apoptosis. In conclusion, hLF plays a crucial role in the regulation of apoptosis and anti-apoptosis in PC12 neuronal cells via ERK1/2 phosphorylation pathway.     

Expression of full-length bioactive antimicrobial human lactoferrin in potato plants

A cDNA fragment encoding human lactoferrin (hLF) linked to a plant microsomal retention signal peptide (SEKDEL) was stably integrated into the Solanum tuberosum genome by Agrobacterium tumefaciens-mediated leaf disk transformation methods. The lactoferrin gene was expressed under control of both the auxin-inducible manopine synthase (mas) P2 promoter and the cauliflower mosaic virus (CaMV) 35S tandem promoter. The presence of the hLF cDNA in the genome of regenerated transformed potato plants was detected by polymerase chain reaction amplification methods. Full-length hLF protein was identified by immunoblot analysis in tuber tissue extracts from the transformed plants by immunoblot analysis. The hLF produced in transgenic plant tissues migrated during polyacrylamide gel electrophoresis as a single band with an approximate molecular mass equal to hLF. Auxin activation of the mas P2 promoter increased lactoferrin expression levels in transformed tuber and leaf tissues to approximately 0.1% of total soluble plant protein. Antimicrobial activity against four different human pathogenic bacterial strains was detected in extracts of lactoferrin-containing potato tuber tissues. This is the first report of synthesis of full length, biologically active hLF in edible plants.     

Production of human lactoferrin in transgenic cell suspension cultures of sweet potato

Shoot apical meristem-derived calli were transformed with a hLF cDNA in an attempt to produce human lactoferrin (hLF) in transgenic cell suspension cultures of sweet potato [Ipomoea batatas (L.) Lam.]. Calli were bombarded with tungsten particles coated with the binary vector pLSM1 containing a hLF cDNA under the control of the 35S promoter and the neomycin phosphotransferase gene as a selection marker. Calli were then transferred to Murashige and Skoog (MS) medium supplemented with 4.52 μM 2,4-dichlorophenoxyacetic acid (2,4-D) and 100 mg dm⁻³ kanamycin. Kanamycin-resistant calli were selected at four-week intervals and subcultured. Cell suspension cultures were established in liquid MS medium with 4.52 μM 2,4-D. Southern and Northern blot analyses confirmed that hLF cDNA was incorporated into the plant genome and was properly expressed in the cells. ELISA analysis showed that transgenic cells produced hLF up to 3.2 μg mg⁻¹ (total protein).     

INFLUENCE OF IRON LIMITATION AND NITROGEN SOURCE ON GROWTH AND SIDEROPHORE PRODUCTION BY CYANOBACTERIA1

To characterize the mobilization and uptake of iron by cyanobacteria, 14 species were screened for ability to scavenge iron in a competitive system. The cyanobacteria exhibited a range of growth responses to iron limitation which could be separated into three groups, and a representative species from each group was chosen for further study. Effects of iron-limitation on growth and siderophore production of Anacystis nidulans R2, Anabaena variabilis ATCC 29413, and Plectonema boryanum UTEX 581 were determined. Both A. nidulans R2 and A. variabilis showed a reduced rate of growth with decreased available iron concentration (PFe 17–19). Growth rates increased with further reduction in the level of available iron (pFe 20 to pFe 21). The increase in growth rate occurred at the same available iron concentration as the initiation of extracellular siderophore production. In contrast, the growth of P. boryanum decreased with decreasing available iron levels. No siderophore production was detected from P. boryanum cultures. The growth kinetics of siderophore-producing species differ from traditional nutrient-limited growth kinetics and clearly reflect the presence of a high affinity, siderophore-mediated iron transport system in A. nidulans R2 and A. variabilis. Iron-limited growth kinetics more similar to traditional nutrient-limited growth kinetics were found in P. boryanum. The available nitrogen source influenced amount of siderophore produced and concentration of available iron which induced siderophore production. Siderophores were produced at high iron concentrations (pFe 18) when A. variablilis cultures were grown in the absence of combined nitrogen source. When nitrate was supplied to the culture, iron concentrations had to be reduced to pFe 20 before siderophores were produced. Cells grown on nitrogen also produced greater than two times the amount of siderophore compared with nitrate grown cells. This may be indicative of an increased demand for iron by nitrogen fixing A. variabilis Cultures.     

Analytical cation-exchange chromatography to assess the identity,purity, and N-terminal integrity of human lactoferrin

Human lactoferrin (hLF) is an iron-binding glycoprotein involved in the innate host defense. The positively charged N-terminal domain of hLF mediates several of its activities by interacting with ligands such as bacterial lipopolysaccharide (LPS), specific receptors, and other proteins. This cationic domain is highly susceptible to limited proteolysis, which impacts on the affinity of hLF for the ligand. An analytical method, employing cation-exchange chromatography on Mono S, was developed to assess the N-terminal integrity of hLF preparations. The method, which separates N-terminally intact hLF from hLF species lacking two (Gly(1)-Arg(2)) or three (Gly(1)-Arg(2)-Arg(3)) residues, showed that 5-58% of total hLF in commercially obtained preparations was N-terminally degraded. The elution profile of hLF on Mono S unequivocally differed from lactoferrins from other species as well as homologous and other whey proteins. Analysis of fresh human whey samples revealed two variants of N-terminally intact hLF, but not limitedly proteolyzed hLF. Mono S chromatography of 2 out of 26 individual human whey samples showed a rare polymorphic hLF variant with three N-terminal arginines (Gly(1)-Arg(2)-Arg(3)-Arg(4)-Ser(5)-) instead of the usual variant with four N-terminal arginines (Gly(1)-Arg(2)-Arg(3)-Arg(4)-Arg(5)-Ser(6)-). In conclusion, Mono S cation-exchange chromatography appeared a robust method to assess the identity, purity, N-terminal integrity, and the presence of polymorphic and intact hLF variants.     

Production of cell wall-degrading enzymes by Aspergillus nidulans: a model system for fungal pathogenesis of plants.

The cell wall-degrading enzymes polygalacturonase and pectate lyase have been suggested to be crucial for penetration and colonization of plant tissues by some fungal pathogens. We have found that Aspergillus nidulans (= Emericella nidulans), a saprophytic Ascomycete, produces levels of these enzymes equal to those produced by soft-rotting Erwinia species. Induction of polygacturonase and pectate lyase in A. nidulans requires substrate and is completely repressed by glucose. Surprisingly, inoculation of excised plant tissues with A. nidulans conidia leads to formation of necrotic, water-soaked lesions within which the organism sporulates. Thus, A. nidulans has phytopathogenic potential. The release of glucose and other sugars from wounded tissues may repress pectolytic enzyme production and limit disease development. Therefore, we tested creA204, a mutation that relieves glucose repression of some A. nidulans carbon utilization enzymes, for its effect on production of pectolytic enzymes. creA204 failed to relieve catabolite repression of polygalacturonase or pectate lyase and had no effect on disease severity.     

The role of N-linked glycosylation in the protection of human and bovine lactoferrin against tryptic proteolysis.

Lactoferrin (LF) is an iron-binding glycoprotein of the innate host defence system. To elucidate the role of N-linked glycosylation in protection of LF against proteolysis, we compared the tryptic susceptibility of human LF (hLF) variants from human milk, expressed in human 293(S) cells or in the milk of transgenic mice and cows. The analysis revealed that recombinant hLF (rhLF) with mutations Ile130-->Thr and Gly404-->Cys was about twofold more susceptible than glycosylated and unglycosylated variants with the naturally occurring Ile130 and Gly404. Hence, N-linked glycosylation is not involved in protection of hLF against tryptic proteolysis. Apparently, the previously reported protection by N-linked glycosylation of hLF [van Berkel, P.H.C., Geerts, M.E.J., van Veen, H.A., Kooiman, P.M., Pieper, F., de Boer, H.A. & Nuijens, J.H. (1995) Biochem. J. 312, 107-114] is restricted to rhLF containing the Thr130 and Cys404. Comparison of the tryptic proteolysis of hLF and bovine LF (bLF) revealed that hLF is about 100-fold more resistant than bLF. Glycosylation variants A and B of bLF differed by about 10-fold in susceptibility to trypsin. This difference is due to glycosylation at Asn281 in bLF-A. Hence, glycosylation at Asn281 protects bLF against cleavage by trypsin at Lys282.     

The human lactoferrin-derived peptide hLF1-11 exerts immunomodulatory effects by specific inhibition of myeloperoxidase activity

Because of their ability to eliminate pathogens and to modulate various host immune responses, antimicrobial peptides are considered as candidate agents to fight infections by (antibiotic-resistant) pathogens. We recently reported that hLF1-11 (GRRRRSVQWCA), an antimicrobial peptide derived from the N terminus of human lactoferrin, displays diverse modulatory activities on monocytes, thereby enhancing their actions in innate immune responses. The aim of this study was to identify the cellular target of hLF1-11 that mediates these effects. Results revealed that hLF1-11 binds and subsequently penetrates human monocytes, after which it inhibits the enzymatic activities of myeloperoxidase (MPO). Moreover, a chemical inhibitor of MPO (aminobenzoic acid hydrazide) mimicked the effects of hLF1-11 on the inflammatory response by monocytes and on monocyte-macrophage differentiation. Computer-assisted molecular modeling predicted that hLF1-11 can bind to the edge of and within the crevice of the active site of MPO. Experiments with a set of hLF1-11 peptides with amino acid substitutions identified the stretch of arginines and the cysteine at position 10 as pivotal in these immunomodulatory properties of hLF1-11. We conclude that hLF1-11 may exert its modulatory effects on human monocytes by specific inhibition of MPO activity.     

A mWAP–hLF hybrid gene locus gave extremely high level expression of human lactoferrin in the milk of transgenic mice

The production of pharmaceuticals by current mammary gland bioreactor techniques is limited by the low expression level of foreign proteins. We describe here a novel method that solves this problem. A successive three-step gap-repair strategy was developed to replace the genomic coding sequence in mouse whey acidic protein (mWAP) gene locus with that of human lactoferrin (hLF) precisely from the start code to the end code. A 50-kb mWAP–hLF hybrid gene locus was constructed, and corresponding transgenic mice were generated. An extremely high-level expression of rhLF in the milk was demonstrated by sodium dodecyl sulfate–polyacrylamide gel electrophoresis and Western blot. The expression level ranged from 16.7 to 29.8 g/l among five transgenic lines, as indicated by the ELISA assay. Importantly, the expressed rhLF maintained the same antibacterial activity as the native hLF. Our strategy can very likely also be used for the efficient expression of other valuable pharmaceutical proteins. G. Shi and H. Chen contributed equally to this work.     

Expression of Human Lactoferrin in Bacteroides uniformis and its Effect on Azoxymethane-induced Aberrant Crypt Focus Formation in the Rat Colon

To express a human lactoferrin (hLF) gene in Bacteroides uniformis, a member of the anaerobic microflora in the colon, we constructed a recombinant plasmid, pVLFK, by subcloning hLF cDNA to an Escherichia coli–Bacteroides shuttle vector, pVAL-1. The plasmid pVLFKwas transferred to B. uniformis strain BU1001 by the filter mating procedure creating strain TCTK101. The lactoferrin protein in B. uniformis strain TCTK101 was detected by Western blot analysis with an anti-human lactoferrin monoclonal antibody. A culture of strain TCTK101 inhibited the growth ofE. coli strain HB101 in vitro compared to a culture of strain TCTK11, which is a B. uniformis strain-carrying plasmid pVAL-1, suggesting that the lactoferrin produced from strain TCTK101 possesses biological activity. To determine the effect of lactoferrin-producing B. uniformis on the formation of azoxymethane-induced aberrant crypt foci (ACF), putative neoplastic lesions, overnight cultures of strains TCTK11 and TCTK101 were given to rats as drinking water. The numbers of ACF and ACF having more than three crypts per focus five weeks after the beginning of the experiment significantly increased in the group treated by a culture of strain TCTK11 compared with those in the non-treated water group. However, rats treated with a culture of strain TCTK101 carrying plasmid pVLFK showed a significantly lower number of ACF than rats with a culture of strain TCTK11 (34% reduction), suggesting that hLF which is produced in a prokaryotic expression system prevents formation of ACF in the rat colon.     

Sporogenic effect of polyunsaturated fatty acids on development of Aspergillus spp.

Aspergillus spp. are frequently occurring seed-colonizing fungi that complete their disease cycles through the development of asexual spores, which function as inocula, and through the formation of cleistothecia and sclerotia. We found that development of all three of these structures in Aspergillus nidulans, Aspergillus flavus, and Aspergillus parasiticus is affected by linoleic acid and light. The specific morphological effects of linoleic acid include induction of precocious and increased asexual spore development in A. flavus and A. parasiticus strains and altered sclerotium production in some A. flavus strains in which sclerotium production decreases in the light but increases in the dark. In A. nidulans, both asexual spore production and sexual spore production were altered by linoleic acid. Spore development was induced in all three species by hydroperoxylinoleic acids, which are linoleic acid derivatives that are produced during fungal colonization of seeds. The sporogenic effects of these linoleic compounds on A. nidulans are similar to the sporogenic effects of A. nidulans psi factor, an endogenous mixture of hydroxylinoleic acid moieties. Light treatments also significantly increased asexual spore production in all three species. The sporogenic effects of light, linoleic acid, and linoleic acid derivatives on A. nidulans required an intact veA gene. The sporogenic effects of light and linoleic acid on Aspergillus spp., as well as members of other fungal genera, suggest that these factors may be significant environmental signals for fungal development.     

Lactoferrin: an alternative view of its role in human biological fluids

Lactoferrin is a major component of biologically important mucosal fluids and of the specific granules of neutrophils. Understanding its biological function is essential for understanding neutrophil- and mucosal-mediated immunity. In this review, we reevaluate the in vivo functions of human lactoferrin (hLF) emphasizing in vivo studies and in vitro studies performed in biologically relevant fluids. We discuss the evidence in the literature that supports (or does not support) proposed roles for hLF in mucosal immunity and in neutrophil function. We argue that the current literature supports a microbiostatic role, but not a microbicidal role, for hLF in vivo. The literature also supports a role for hLF in inhibiting colonization and infection of epithelial surfaces by microorganisms and in protecting tissues from neutrophil-mediated damage. Using this information, we briefly discuss hLF in the context of the complex biological fluids in which it is found.     

Establishment and characterization of atypical fibroblasts from human adult liver contributing to hepatocyte cord-like arrangement

We report the phenotypic and functional characterization of fibroblasts established in culture from the non-parenchymal epithelial cell populations of adult human livers. Human liver fibroblasts (hLF) expressed mesenchymal antigens vimentin, alpha-smooth muscle actin, collagen, fibronectin, CD73, CD90, CD105, and CD166 together with non-mesenchymal antigens cytokeratins 8 and 18, glial fibrillary acidic protein, and nestin. Mixed cell lineage-specific protein expression was not associated with stem-like cell properties. Coculturing hepatocytes onto confluent hLF showed that they survived and maintained metabolic activity such as albumin, glycogen, and urea production. Moreover, hepatocytes formed cord-like arrangements resembling those established in vivo. Hepatocyte arrangement depended on cell-to-cell contact and the tissue origin of fibroblasts. Time-lapse video imaging of cocultured cells showed that hepatocyte arrangement was coordinated by the stretching and shortening of underneath hLF. Our data suggest that hLF may represent resident fibroblasts of the adult human liver, which could assume guiding functions for hepatic epithelial cells.     

Increased conidiation associated with progression along the sterigmatocystin biosynthetic pathway

The Aspergillus nidulans sterigmatocystin (ST) gene cluster contains both regulatory (aflR) and biosynthetic genes (stc genes) required for ST production. A total of 26 genes are in the cluster, 13 of which have been assigned a known function in the biosynthetic pathway. This complex secondary pathway represents a physiological cost to the fungus. We tested the amount of asexual spore production using a series of isogenic lines of A. nidulans, differing only in a mutation in aflR (resulting in a strain containing no ST intermediates) or a mutation in three stc genes that produced either no ST intermediates (ΔstcJ), an early ST intermediate, norsoloroinic acid (ΔstcE) or a late ST intermediate, versicolorin A (ΔstcU). In two independently replicated experiments we compared the numbers of conidia produced by each of these mutant strains and a wild type ST producer in a neutral (growth media) and a host (corn seed) environment. A stepwise increase in asexual spore production was observed with each progressive step in the ST pathway. Thus, the data suggest that recruitment or loss of these secondary metabolite pathway genes has a selective advantage apart from the physiological activity of the metabolite.