Comparison of periplasmic and intracellular expression of Arabidopsis thionin proproteins in E. coli

Thionins are antimicrobial plant peptides produced as preproproteins consisting of a signal peptide, the thionin domain, and a so-called acidic domain. Only thionin itself has been isolated from plants. To study the processing of the precursor, it has to be produced in a heterologous system. Since both domains contain several cysteines and, due to the known antimicrobial activity of the thionin, we tested the expression of all four Arabidopsis proproteins as fusion proteins. Periplasmic expression as fusion with maltose binding protein was not successful but cytoplasmic expression as His-tagged TRX fusion proteins with a TEV recognition sequence resulted in proteins of correct size. Use of the SHuffle strain C3030 further improved the expression. Fusion proteins inhibited growth of Escherichia coli. They could be cleaved by TEV protease, releasing authentic proproteins without any additional amino acid at the N-terminus.     

Thionin genes specifically expressed in barley leaves

Complementary-DNA (cDNA) clones encoding thionin were identified as one of the most frequent types of clones in a cDNA library constructed from total polyadenylated RNA from young barley leaf cells. One full-length clone codes for a precursor protein that starts with a signal peptide (28 amino acids) followed by the mature thionin (46 amino acids) and terminated by a long acidic extension (63 amino acids). The amino-acid sequence of the leaf thionin is 52% homologous to thionins from barley endosperm and in the C-terminal extension the homology decreases to 41%. In contrast, the leaf thionin is 72% homologous to viscotoxin from mistletoe leaves. Leaf thionin is coded by a multigene family with an estimated nine to eleven genes and analysis of the cDNA clones showed that at least two extremely homologous genes are expressed. Northern hybridization experiments indicate that the leaf thionin genes are not expressed in endosperm and roots. In leaves, the expression of the thionin genes is strongly repressed by light.Abbreviations cDNA complementary DNA - poly(A)RNA polyadenylated RNA     

The role of thionins in rice defence against root pathogens

Thionins are antimicrobial peptides that are involved in plant defence. Here, we present an in‐depth analysis of the role of rice thionin genes in defence responses against two root pathogens: the root‐knot nematode Meloidogyne graminicola and the oomycete Pythium graminicola. The expression of rice thionin genes was observed to be differentially regulated by defence‐related hormones, whereas all analysed genes were consistently down‐regulated in M. graminicola‐induced galls, at least until 7 days post‐inoculation (dpi). Transgenic lines of Oryza sativa cv. Nipponbare overproducing OsTHI7 revealed decreased susceptibility to M. graminicola infection and P. graminicola colonization. Taken together, these results demonstrate the role of rice thionin genes in defence against two of the most damaging root pathogens attacking rice.     

Prolyl Aminopeptidase from Streptomyces thermoluteus subsp. fuscus Strain NBRC14270 and Synthesis of Proline-Containing Peptides by Its S144C Variant

We specifically examined an exopeptidase, prolyl aminopeptidase (PAP), as a target for synthesis of proline-containing peptides. A PAP from Streptomyces thermoluteus subsp. fuscus NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270) was obtained using sequence-based screening. From {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, 144Ser was replaced by Cys (scPAP14270) to give aminolysis activity. In contrast to wild-type {"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270, scPAP14270 produced a polymer of proline benzyl ester and cyclo[Pro-Pro]. The product mass was confirmed using liquid chromatography-mass spectrometry (LC/MS). Several factors affecting the reaction, such as the pH, concentration of the substrate, and reaction time, were measured to determine their effects. Furthermore, a correlation was found between substrate specificity in proline peptide synthesis and the log D value of acyl acceptors in aminolysis catalyzed by scPAP14270. Results showed that dipeptide synthesis proceeded in a weakly acidic environment and that cyclization and polymerization occurred under alkaline conditions. Furthermore, results suggest that almost all amino acid esters whose log D value is greater than 0, except hydroxyproline benzyl ester (Hyp-OBzl), can be recognized as acyl acceptors. These findings support the use of PAPs as a tool for production of physiologically active proline peptides.Prolyl aminopeptidase (PAP) (EC 3.4.11.5), belonging to the S33 family, is an exopeptidase that catalyzes the hydrolysis of the N terminus prolyl residue of peptides or proteins. This family has catalytic Ser. To date, few applications of this enzyme for peptide synthesis have been reported. However, from the perspective of biotechnology, PAP might be a good tool for synthesizing proline-containing peptides by catalyzing aminolysis.Recently nutraceutical properties of peptides containing proline have received increasing attention. For example, prolyl hydroxyproline (Pro-Hyp) stimulates the growth of fibroblasts from mouse skin (11). Pro-Arg can protect against oxidative stress/damage and H₂O₂-induced human diploid fibroblast cell death (13). Furthermore, the lactotripeptides Ile-Pro-Pro and Val-Pro-Pro exhibit angiotensin I-converting enzyme-inhibiting activity (9). In addition to these dipeptides and tripeptides, a cyclic dipeptide (namely, diketopiperazine) containing proline shows several physiological functions. Cyclo[Pro-Pro] (cPP) exerts antibacterial activity against Micrococcus luteus and Pseudomonas aeruginosa (8). Caspase-3 activation by cyclo[Pro-Phe] in HT-29 cells has been described (3). However, its synthesis method has not been established. Enzymatic peptide synthesis presents a useful and desirable strategy because it can conduct specific reactions under milder conditions than those of chemical synthesis.Engineered endoserine proteases that have Cys substituted for catalytic Ser have also been applied for peptide synthesis since subtiligase was constructed by Abrahmsén et al. (1). Because of the weakened hydrolytic activity of the parent enzyme, it is considered that Ser/Cys-substituted protease can trap the substrate (acyl donor). Then, a nucleophilic reaction occurs between another substrate (acyl acceptor) and the trapped acyl donor (2). This is a so-called “aminolysis” reaction. Although aminolysis can conduct peptide synthesis in an aqueous solution, the problem of the necessity of using an N-protected amino acid as an acyl donor remains when using endoproteases.These problems would be solved using exoprotease as a catalyst, because N-terminal free amino groups of acyl donors are recognized by enzymes. It is rarely reported that exoprotease was applied for peptide synthesis, except in the report of Oshiro et al., in which Pro-Phe, Pro-Tyr, and Pro-Trp were synthesized (10). Recently our group reported that the Ser/Cys variant of exoprotease, aminolysin-S, has been constructed and has produced l-Phe-l-Phe ethyl ester and their derivatives from non-N-protected phenylalanine and phenylalanine ethyl ester as acyl donors in aqueous solution (12). However, aminolysin-S cannot produce proline-containing dipeptides.In this study, we describe a PAP from Streptomyces thermoluteus subsp. fuscus strain NBRC14270 ({"type":"entrez-protein","attrs":{"text":"PAP14270","term_id":"1238921194","term_text":"PAP14270"}}PAP14270). Furthermore, synthesis of various proline peptides was attempted through catalysis by its Ser/Cys variant (scPAP14270) from proline ester and several amino acids and their esters in aqueous solution. A basic characterization to determine the effect of pH and the amount of substrate was conducted. Moreover, correlation was found between proline peptide synthesis and the log D value, which is the distribution coefficient between octanol and water, of acyl acceptors in aminolysis mediated by scPAP14270.     

Cloning and nucleotide sequence of a cDNA encoding the precursor of the barley toxin alpha-hordothionin

A cDNA library, prepared from developing barley endosperm, was screened for thionin recombinants. Clone pTH1 was that with the largest insert out of three identified. The longest reading frame in the 610-base-pair insert codes for a protein of 127 amino acids that includes an internal sequence of 45 amino acids, which is identical to that obtained for the alpha-hordothionin by direct protein sequencing. The deduced thionin sequence is preceded by a leader sequence of 18 residues and followed by a sequence that corresponds to an acidic protein of 64 amino acids. This structure supports previous evidence indicating that thionin is synthesized as a much larger precursor, which undergoes two processing steps: the cotranslational cleavage of a leader sequence and the post-translational one of a larger peptide. The size of the mRNA was estimated to be about 950 bases by Northern analysis. Thionin concentration in mature endosperm of barley cv. Bomi was about twice that of its high-lysine mutant Ris? 1508. The same difference was observed in thionin mRNA in the corresponding developing endosperms, indicating that gene expression is partially blocked in the mutant at a pretranslational level.     

Synthesis and processing of thionin precursors in developing endosperm from barley (Hordeum vulgare L.)

Thionin is a lysine-rich polypeptide (mol. wt. 5000) which is synthesized in developing barley endosperm from ˜8 days to ˜30 days after anthesis. Two thionin precursors (THP1 and THP2) have been identified using monospecific antibodies (A-TH) prepared against the mature protein. THP1, which is the only polypeptide recognized in vitro by A-TH, is encoded by a 7.5S mRNA obtained from membrane-bound polysomes, and its alkylated derivative has an apparent mol. wt. of 17 800. THP2, which is selected together with mature thionin by A-TH among labelled proteins in vivo, differs from THP1 in apparent mol. wt. (17 400 alkylated) and in electrophoretic mobility at pH 3.2. Both THP1 and THP2 are competed out of the antigen-antibody complex by purified thionin. The conversion of THP2 into thionin, which has been demonstrated in a pulse-chase experiment in vivo, is a post-translational process. As it has not been possible to detect THP1 in vivo it is assumed that it is converted co-translationally into THP2. Final deposition of thionin as an extrinsic membrane protein, possibly associated with the endoplasmic reticulum, has been tentatively established on the basis of subcellular fractionation experiments.     

Homoeologous chromosomal location of the genes encoding thionins in wheat and rye

Summary Thionins are high sulphur basic polypeptides present in the endosperm of Gramineae. In wheat there are three thionins encoded by genes located in the long arms of chromosomes 1A, 1B and 1D. Rye has one thionin encoded by a gene which has been assigned to chromosome 1R after analysis of the Imperial-Chinese Spring rye-wheat disomic addition lines. Commercial varieties and experimental stocks with a 1B/1R substitution carry the thionin from rye ( _R) instead of the _B thionin from wheat. The _R thionin gene is not located in the large chromosomal segment representing most of the short arm of chromosome 1R.     

cDNA-derived identification of novel thionin precursors in Viscum album that contain highly divergent thionin domains but conserved signal and acidic polypeptide domains

The existence of new thionin variants in Viscum album has been deduced from cDNA sequences. Unlike the viscotoxins and related thionins previously found in different members of the Viscaceae, these novel thionins contain eight rather than six cysteine residues. In this respect they resemble thionins described previously from various cereals and from Pyrularia pubera, which also contain eight cysteine residues at identical positions. All of the new thionins of V. album are encoded as higher-molecular-weight precursors consisting of a signal peptide, a thionin domain and an acidic polypeptide domain. While the deduced amino acid sequences of the thionin domains of different precursor molecules are highly divergent, the two other domains are conserved among all of the variants and are distinct from the corresponding domains of thionin precursors of other plant species.     

Leishmania donovani: Thionins, plant antimicrobial peptides with leishmanicidal activity

The leishmanicidal activity of plant antibiotic peptides (PAPs) from the principal families, such wheat thionins, a barley lipid transfer protein and potato defensins and snakins were tested in vitro against Leishmania donovani. Only thionins and defensins were active against this human pathogen at a low micromolar range of concentrations. Thionins resulted as the most active peptides tested until now. They collapsed ionic and pH gradients across the parasite plasma membrane together with a rapid depletion of intracellular ATP without affecting mitochondrial potential. Hence the lethal effect of thionins was mostly associated to permeabilization of the plasma membrane leading to an immediate death of the parasite. The present work is the first evidence for leishmanicidal activity in plant peptides. Future prospects for their development as new antiparasite agents on human diseases are considered.     

Processing of the Phalloidin Proprotein by Prolyl Oligopeptidase from the Mushroom Conocybe albipes

The peptide toxins of poisonous Amanita mushrooms are bicyclic octapeptides (amatoxins) or heptapeptides (phallotoxins). In Amanita bisporigera, α-amanitin and phallacidin are synthesized as 35- and 34-amino acid proproteins, respectively, in which the amino acid sequences found in the mature toxins are flanked by conserved amino acid sequences. The presence of invariant Pro residues immediately upstream of the toxin regions and as the last predicted amino acid in the toxin regions themselves suggests that a Pro-specific peptidase is responsible for the initial post-translational processing of the Amanita toxin proproteins. We purified an enzyme from the phalloidin-producing mushroom Conocybe albipes that cleaves a synthetic 22-mer phalloidin peptide to release the mature toxin peptide (AWLATCP). Mass spectrometric analysis of the purified protein combined with isolation and sequencing of the encoding gene indicates that the responsible processing enzyme is a member of the prolyl oligopeptidase (POP) subfamily of proteases (EC 3.4.21.26). The processing enzyme was able to use the chromogenic POP substrate benzyloxycarbonyl-Gly-Pro-p-nitroanilide and was inhibited by the specific POP inhibitor benzyloxycarbonyl-Pro-prolinal. Both Pro bonds in the proprotein are cleaved by the same enzyme, with the C-terminal Pro bond cleaved first or much faster than the N-terminal Pro bond. Transient accumulation of the N-terminal intermediate indicates that cleavage is not strongly processive. A synthetic peptide representing the phallacidin proprotein was also cleaved by the POP of C. albipes, but a precursor of amanitin (which is not made by C. albipes) was cleaved inefficiently.Deadly poisonous mushrooms in the genera Amanita, Galerina, Lepiota, and Conocybe synthesize the cyclic peptide amatoxins and phallotoxins (1–4). Structurally, amatoxins (e.g. α-amanitin) are bicyclic octapeptides, and phallotoxins (e.g. phalloidin and phallacidin) are chemically related bicyclic heptapeptides. Both are hydroxylated and contain a Trp-Cys cross-bridge (tryptathionine), which has not been found in other natural products (5). Phallotoxins also contain one d amino acid (d-hydroxy-Asp or d-Thr). Despite their chemical similarity, amatoxins and phallotoxins have different modes of action; amatoxins are specific inhibitors of RNA polymerase II, and phallotoxins bind and stabilize F-actin (6, 7).Unlike other known cyclic peptides from fungi, the amatoxins and phallotoxins are biosynthesized on ribosomes instead of nonribosomal peptide synthetases (8). In A. bisporigera, the genes for α-amanitin and phallacidin are translated as 35 and 34-amino acid proproteins, respectively (8). Although α-amanitin and phallacidin have only three amino acids in common, the upstream and downstream sequences of the proproteins are highly similar. Furthermore, the genome of A. bisporigera contains at least another 20 related sequences which collectively are characterized by conserved sequences flanking a hypervariable “toxin” region of 7–10 amino acids (8) (Fig. 1B). We refer to this family of genes as the MSDIN family for the first five highly conserved amino acids of the proproteins. Apparently, these poisonous mushrooms have evolved a mechanism of combinatorial peptide biosynthesis that uses the same biochemical template to synthesize a wide range of small, cyclic peptides.Open in a separate windowFIGURE 1.A, The sequence of the phalloidin proprotein of A. phalloides (8). The amino acids of the mature toxin are underlined. The two cleaved Pro residues are shown in bold text. B, WebLogo (41) representation of 14 predicted MSDIN sequences from Amanita species (A. bisporigera, A. phalloides, or A. ocreata). C, C. albipes growing in cultivated lawn on the Michigan State University campus, June, 2008. In A, a 3-amino acid gap has been introduced before the C-terminal Pro because the toxin regions of some of the MSDIN sequences in the WebLogo alignment have 10 amino acids, whereas phalloidin has only 7. Also, the sequence of the phalloidin proprotein in A has been truncated from its actual 34 amino acids to 31 amino acids to facilitate its alignment with the sequences shown in B. This is because only genomic sequences are available for most of the MSDIN sequences shown in B, and based on cDNAs for AMA1 and PHA1, the other MSDIN sequences probably have an intron interrupting the antepenultimate codon. The sequences in B are GenBank^TM accession numbers {"type":"entrez-nucleotide","attrs":{"text":"EU196139","term_id":"194303446","term_text":"EU196139"}}EU196139–{"type":"entrez-nucleotide","attrs":{"text":"EU196155","term_id":"159033025","term_text":"EU196155"}}EU196155. The length of the toxin region between the N-terminal invariant Pro and including the C-terminal invariant Pro varies from 7 to 10 amino acids in different members of the MSDIN family. One, two, or three X''s were placed within the toxin region before the C-terminal conserved Pro residue in B for toxin peptides of nine, eight, or seven amino acids, respectively.Among the conserved amino acids in the MSDIN gene family are two invariant Pro residues flanking the hypervariable region (Fig. 1B). All known amatoxins and phallotoxins contain one Pro, and A. phalloides is also known to make other cyclic peptides (of 6–10 amino acids), all of which contain at least one Pro residue (4). Post-translational processing of the MSDIN proproteins is predicted to involve cleavage at these Pro residues, resulting in one Pro remaining in the toxin and the other being removed (Fig. 1B).The goal of the present work was to identify the enzyme that cleaves the MSDIN proproteins to release the peptides of the mature toxins. To identify the responsible peptidase, it was necessary to find a practical starting material. Most toxin-producing fungi in the genus Amanita are obligately ectomycorrhizal with their host plants, and they grow very slowly and do not produce toxins in culture. Galerina marginata produces toxins in culture but grows slowly (9). Some species of the mushroom genus Conocybe produce phallotoxins or amatoxins (1, 3). Conocybe species are abundant locally at certain seasons. In particular, Conocybe albipes (Fig. 1C), which produces the phallotoxin phalloidin, grows on lawns in the Midwest United States, and in the spring it is possible to collect large (>1 kg) quantities (10). For these reasons we chose C. albipes as a starting material for identification of the enzyme that processes the toxin proproteins. Here we report the purification of the enzyme that releases the mature heptapeptide from a phallotoxin precursor and show that it is a member of the prolyl oligopeptidase (POP)² subfamily of serine proteases.     

Signal Peptide-rheostat Dynamics Delay Secretory Preprotein Folding

Sec secretory proteins are distinguished from cytoplasmic ones by N-terminal signal peptides with multiple roles during post-translational translocation. They contribute to preprotein targeting to the translocase by slowing down folding, binding receptors and triggering secretion. While signal peptides get cleaved after translocation, mature domains traffic further and/or fold into functional states. How signal peptides delay folding temporarily, to keep mature domains translocation-competent, remains unclear. We previously reported that the foldon landscape of the periplasmic prolyl-peptidyl isomerase is altered by its signal peptide and mature domain features. Here, we reveal that the dynamics of signal peptides and mature domains crosstalk. This involves the signal peptide’s hydrophobic helical core, the short unstructured connector to the mature domain and the flexible rheostat at the mature domain N-terminus. Through this cis mechanism the signal peptide delays the formation of early initial foldons thus altering their hierarchy and delaying mature domain folding. We propose that sequence elements outside a protein’s native core exploit their structural dynamics to influence the folding landscape.     

Isolation and characterization of cDNAs encoding viscotoxins of mistletoe (Viscum album).

Viscotoxins have been isolated from leaf homogenates of European mistletoe (Viscum album L.) and purified to apparent homogeneity. Antisera raised against these polypeptides were used to screen a cDNA expression library in lambda gt11. Two positive clones have been isolated, one encoding a full-length preprotein of viscotoxin A3 and the other encoding the precursor of viscotoxin B. Besides the viscotoxin domain the precursor contained a signal sequence and an acidic polypeptide domain. Similar higher molecular mass precursor proteins have been described for thionins of leaves and seeds of barley. Even though the acidic part of the viscotoxin precursor is much shorter than the corresponding domain of the precursors of the leaf and seed thionins of barley, both the negative charge and the number and the relative position of cysteine residues have been conserved within the acidic domain. This result is consistent with our proposal that the acidic domain of the thionin precursor may play an important role in keeping the thionin inactive within the plant cell.     

Vasorelaxin: A Novel Arterial Smooth Muscle-Relaxing Eicosapeptide from the Skin Secretion of the Chinese Piebald Odorous Frog (Odorrana schmackeri)

The defensive skin secretions of amphibians are a rich resource for the discovery of novel, bioactive peptides. Here we report the identification of a novel vascular smooth muscle-relaxing peptide, named vasorelaxin, from the skin secretion of the Chinese piebald odorous frog, Odorrana schmackeri. Vasorelaxin consists of 20 amino acid residues, SRVVKCSGFRPGSPDSREFC, with a disulfide-bridge between Cys-6 and Cys-20. The structure of its biosynthetic precursor was deduced from cloned skin cDNA and consists of 67 amino acid residues encoding a single copy of vasorelaxin (vasorelaxin, accession number: {"type":"entrez-nucleotide","attrs":{"text":"HE860494","term_id":"429534177","term_text":"HE860494"}}HE860494). Synthetic vasorelaxin caused a profound relaxation of rat arterial smooth muscle with an EC₅₀ of 6.76 nM.     

Comparison of different constitutive and inducible promoters for the overexpression of transgenes in Arabidopsis thaliana

We compared the organ specificity and the strength of different constitutive (CaMV-35S, CaMV-35Somega, Arabidopsis ubiquitin UBQ1, and barley leaf thionin BTH6 promoter) and one inducible promoter (soybean heat-shock promoter Gmshp17.3) in stably transformed Arabidopsis thaliana plants. For this purpose we constructed a set of plant expression vectors equipped with the different promoters. Using the uidA reporter gene we could show that the CaMV-35S promoter has the highest expression level which was enhanced two-to threefold by the addition of a translational enhancer (TMV omega element) without altering the organ specificity of the promoter. The barley leaf thionin promoter was almost inactive in the majority of lines whereas the ubiquitin promoter exhibited an intermediate strength. The heat-shock promoter was inducible up to 18-fold but absolute levels were lower than in the case of the ubiquitin promoter. Conclusive quantitative results for different organs and developmental stages were obtained by the analysis of 24 stably transformed lines per promoter construct.     

Organ-specific expression of highly divergent thionin variants that are distinct from the seed-specific crambin in the crucifer Crambe abyssinica

Most thionins of higher plants are toxic to various bacteria, fungi, and animal and plant cells. The only known exception is the seed-specific thionin, crambin, of the crucifer Crambe abyssinica. Crambin has no net charge, is very hydrophobic and exhibits no toxicity. In the present work, the organization of the crambin precursor polypeptide was deduced from cDNA sequences. The precursor shows a domain structure similar to that of the preproprotein of other thionins, which contains a signal peptide, a thionin domain and a C-terminal amino acid extension. Unlike the thionin precursors studied thus far, both the thionin domain and the C-terminal amino acid extension of the crambin precursor have no net charge and are hydrophobic, thus facilitating their interaction, by analogy to that proposed for the corresponding domains of other thionin precursors that have positive and negative charges. The existence of a large number of novel and highly variable thionin variants in Crambe abyssinica has been deduced from cDNA sequences that were amplified by the polymerase chain reaction (PCR) from RNA of seeds, leaves and cotyledons. While the deduced amino acid sequences of the thionin domains of most of these thionin precursor molecules are highly divergent, the two other domains are conserved. Most of the predicted thionin variants are positively charged. The presence of positively charged residues in the thionin domains consistently correlates with the presence of a negatively charged residue in the C-terminal amino acid extension of the various thionin precursors. The different thionin variants are encoded by distinct sets of genes and are expressed in an organ-specific manner.     

Identification and characterization of antimicrobial peptides from the skin of the endangered frog Odorrana ishikawae

The endangered anuran species, Odorrana ishikawae, is endemic to only two small Japanese Islands, Amami and Okinawa. To assess the innate immune system in this frog, we investigated antimicrobial peptides in the skin using artificially bred animals. Nine novel antimicrobial peptides containing the C-terminal cyclic heptapeptide domain were isolated on the basis of antimicrobial activity against Escherichia coli. The peptides were members of the esculentin-1 (two peptides), esculentin-2 (one peptide), palustrin-2 (one peptide), brevinin-2 (three peptides) and nigrocin-2 (two peptides) antimicrobial peptide families. They were named esculentin-1ISa, esculentin-1ISb, esculentin-2ISa, palustrin-2ISa, brevinin-2ISa, brevinin-2ISb, brevinin-2ISc, nigrocin-2ISa and nigrocin-2ISb. Peptide primary structures suggest a close relationship with the Asian odorous frogs, Odorrana grahami and Odorrana hosii. These antimicrobial peptides possessed a broad-spectrum of growth inhibition against five microorganisms (E. coli, Staphylococcus aureus, methicillin-resistant S. aureus, Bacillus subtilis and Candida albicans). Nine different cDNAs encoding the precursor proteins were also cloned and showed that the precursor proteins exhibited a signal peptide, an N-terminal acidic spacer domain, a Lys-Arg processing site and an antimicrobial peptide at the C-terminus.     

Defective processing of neuropeptide precursors in Caenorhabditis elegans lacking proprotein convertase 2 (KPC-2/EGL-3): mutant analysis by mass spectrometry

Biologically active peptides are synthesized as larger inactive proprotein peptide precursors which are processed by the concerted action of a cascade of enzymes. Among the proprotein convertases, PC2 is widely expressed in neuro-endocrine tissues and has been proposed to be the major convertase involved in the biosynthesis of neuropeptides. In this study, we have examined the role of the Caenorhabditis elegans orthologue PC2/EGL-3 in the processing of proprotein peptide precursors. We recently isolated and identified 60 endogenous peptides in the nematode C. elegans by two-dimensional nanoscale liquid chromatography - quadrupole time-of-flight tandem mass spectrometry. In the present study, we compare the peptide profile of different C. elegans strains, including PC2/EGL-3 mutants. For this purpose, we used an offline approach in which HPLC fractions are analysed by a matrix-assisted laser desorption ionisation - time of flight mass spectrometer. This differential peptidomic approach unambiguously provides evidence for the role of PC2/EGL-3 in the processing of FMRFamide-like peptide (FLP) precursors and neuropeptide-like protein (NLP) precursors in nematodes.     

Identification of a Small Peptide That Inhibits PCSK9 Protein Binding to the Low Density Lipoprotein Receptor

PCSK9 (proprotein convertase subtilisin/kexin type 9) is a negative regulator of the hepatic LDL receptor, and clinical studies with PCSK9-inhibiting antibodies have demonstrated strong LDL-c-lowering effects. Here we screened phage-displayed peptide libraries and identified the 13-amino acid linear peptide Pep2-8 as the smallest PCSK9 inhibitor with a clearly defined mechanism of inhibition that has been described. Pep2-8 bound to PCSK9 with a K_D of 0.7 μm but did not bind to other proprotein convertases. It fully restored LDL receptor surface levels and LDL particle uptake in PCSK9-treated HepG2 cells. The crystal structure of Pep2-8 bound to C-terminally truncated PCSK9 at 1.85 Å resolution showed that the peptide adopted a strand-turn-helix conformation, which is remarkably similar to its solution structure determined by NMR. Consistent with the functional binding site identified by an Ala scan of PCSK9, the structural Pep2-8 contact region of about 400 Ų largely overlapped with that contacted by the EGF(A) domain of the LDL receptor, suggesting a competitive inhibition mechanism. Consistent with this, Pep2-8 inhibited LDL receptor and EGF(A) domain binding to PCSK9 with IC₅₀ values of 0.8 and 0.4 μm, respectively. Remarkably, Pep2-8 mimicked secondary structural elements of the EGF(A) domain that interact with PCSK9, notably the β-strand and a discontinuous short α-helix, and it engaged in the same β-sheet hydrogen bonds as EGF(A) does. Although Pep2-8 itself may not be amenable to therapeutic applications, this study demonstrates the feasibility of developing peptidic inhibitors to functionally relevant sites on PCSK9.     

Cationic Cell-Penetrating Peptides Are Potent Furin Inhibitors

Cationic cell-penetrating peptides have been widely used to enhance the intracellular delivery of various types of cargoes, such as drugs and proteins. These reagents are chemically similar to the multi-basic peptides that are known to be potent proprotein convertase inhibitors. Here, we report that both HIV-1 TAT_47-57 peptide and the Chariot reagent are micromolar inhibitors of furin activity in vitro. In agreement, HIV-1 TAT_47-57 reduced HT1080 cell migration, thought to be mediated by proprotein convertases, by 25%. In addition, cyclic polyarginine peptides containing hydrophobic moieties which have been previously used as transfection reagents also exhibited potent furin inhibition in vitro and also inhibited intracellular convertases. Our finding that cationic cell-penetrating peptides exert potent effects on cellular convertase activity should be taken into account when biological effects are assessed.