C-terminal amidation of neuropeptides. Gly-Lys-Arg extension an efficient precursor of C-terminal amide

Properties and Mechanism of the Mechanosensitive Ion Channel Inhibitor GsMTx4, a Therapeutic Peptide Derived from Tarantula Venom

Mechanosensitive ion channels (MSCs) are found in all types of cells ranging from Escherichia coli to morning glories to humans. They seem to fall into two families: those in specialized receptors, such as the hair cells of the cochlea, and those in cells not clearly differentiated for sensory duty. The physiological function of the channels in nonspecialized cells has not been demonstrated, although their activity has been demonstrated innumerable times in vitro. The only specific reagent to block MSCs isGsMTx4, a 4-kDa peptide isolated from tarantula venom. Despite being isolated from venom, it is nontoxic to mice. GsMTx4 is specific for an MSC subtype, the nonselective cation channels that may be members of the transient receptor potential (TRP) family. GsMTx4 acts as a gating modifier, increasing the energy of the open state relative to the closed state. The mirror image D enantiomer of GsMTx4 is equally active, so mode of action is not via the traditional lock and key model. GsMTx4 probably acts in the boundary lipid of the channel by changing local curvature and mechanically stressing the channel toward the closed state. Despite the lack of definitive physiological data on the function of the cationic MSCs, GsMTx4 may prove useful as a drug or lead compound that can affect physiological processes. These processes would be those driven by mechanical stress, such as blood vessel autoregulation, stress-induced contraction of smooth muscle, and Ca(2+) loading in muscular dystrophy.

Mechanosensitive ion channels and the peptide inhibitor GsMTx-4: history, properties, mechanisms and pharmacology

Sensing the energy from mechanical inputs is ubiquitous--and perhaps the oldest form of biological energy transduction. However, the tools available to probe the mechanisms of transduction are far fewer than for the chemical and electric field sensitive transducers. The one pharmacological tool available for mechansensitive ion channels (MSCs) is a peptide (GsMTx-4) isolated from venom of the tarantula, Grammostola spatulata, that blocks cationic MSCs found in non-specialized eukaryotic tissues. In this review, we summarize the current knowledge of GsMTx-4, and discuss the inevitable crosstalk between the MSC behavior and the mechanical properties of the cell cortex.

Ubiquitin and ubiquitin-derived peptides as substrates for peptidylglycine alpha-amidating monooxygenase

Ubiquitin (Ub) and the ubiquitin-like proteins (UBLs) mediate an array of cellular functions. These proteins contain a C-terminal glycine residue that is key to their function. Oxidative conversion of C-terminal glycine-extended prohormones to the corresponding alpha-amidated peptide is one step in the biosynthesis of bioactive peptide hormones. The enzyme catalyzing this reaction is peptidylglycine alpha-amidating monooxygenase (PAM). We report herein that Ub is a PAM substrate with a (V/K)(amidation) that is similar to other known peptide substrates. This work is significant because PAM and the UBLs co-localize to the hypothalamus and the adrenal medulla and are both over-expressed in glioblastomas.

Mapping three classical isozyme loci in tetrahymena: meiotic linkage of EstA to the ChxA linkage group

We demonstrate a reliable method for mapping conventional loci and obtaining meiotic linkage data for the ciliated protozoan Tetrahymena thermophila. By coupling nullisomic deletion mapping with meiotic linkage mapping, loci known to be located on a particular chromosome or chromosome arm can be tested for recombination. This approach has been used to map three isozyme loci, EstA (Esterase A), EstB (Esterase B), and AcpA (Acid Phosphatase A), with respect to the ChxA locus (cycloheximide resistance) and 11 RAPDs (randomly amplified polymorphic DNAs). To assign isozyme loci to chromosomes, clones of inbred strains C3 or C2 were crossed to inbred strain B nullisomics. EstA, EstB and AcpA were mapped to chromosomes 1R, 3L and 3R, respectively. To test EstA and AcpA for linkage to known RAPD loci on their respective chromosomes, a panel of Round II (genomic exclusion) segregants from a B/C3 heterozygote was used. Using the MAPMAKER program, EstA was assigned to the ChxA linkage group on chromosome 1R, and a detailed map was constructed that includes 10 RAPDs. AcpA (on 3R), while unlinked to all the RAPDs assigned to chromosome 3 by nullisomic mapping, does show linkage to a RAPD not yet assignable to chromosomes by nullisomic mapping.

Proocytocin/neurophysin convertase from bovine neurohypophysis and corpus luteum secretory granules: complete purification, structure-function relationships, and competitive inhibitor

Structure-function relationship studies were conducted on the proocytocin/neurophysin endoprotease previously characterized in both bovine neurohypophyseal and corpus luteum granules, using as a reference substrate a synthetic peptide reproducing the entire (1-20) NH2-terminal domain of the precursor. The [D-Arg12] derivative of proocytocin/neurophysin (1-20) was found to be a good competitive inhibitor of the enzyme (Ki = 30 microM), while the [D-Lys11] derivative was not. This allowed the complete purification of two isoforms of the endoprotease (Mr 58,000 and 52,000, respectively) by affinity chromatography using covalently immobilized [D-Arg12] proocytocin/neurophysin (1-20) as the affinity adsorbent. The use of selectively modified or truncated forms of the reference substrate or of the [D-Arg12] competitive inhibitor of the endoprotease established clearly that this basic pair specific convertase is sensitive to modification of the substrate structure either at the basic residues of the cleavage locus or at amino acids around this site (i.e., Pro7 and Gly9). It is concluded that longer distance interactions between amino acids situated on both the NH2 and COOH sides of the basic doublet Lys11Arg12 may contribute to the stabilization of a preferred substrate conformation allowing recognition by the enzyme subsites.

Glucocorticoid regulation of amidating enzyme in a neoplastic C-cell line

Posttranslational carboxyl-terminal amidation of many peptides is accomplished by peptidylglycine alpha-amidating monooxygenase. We have previously demonstrated that glucocorticoids stimulate production of amidated products by the CA-77 rat medullary thyroid carcinoma cell line. The present investigation was undertaken to determine whether amidation enzyme activity changes in parallel. Enzyme activity, similar to that found in other tissues, was readily detected in cell extracts and conditioned cultured medium. Stimulation with the calcitonin secretagogue calcium increased secretion of enzyme activity and lowered cell extract activity. Treatment of cultures with dexamethasone, but no other steroid, decreased by 50-70% the basal amidation enzyme activity secreted. There was no associated change in cellular activity. The decrease in medium activity was partially reversible and steroid-dose dependent. The glucocorticoid-induced change in medium activity was due to a decreased Vm. These experiments demonstrate that the alpha-amidating activity of the CA-77 cells can be hormonally regulated.

Thyroid hormone modulation of TRH precursor levels in rat hypothalamus, pituitary, thyroid and blood

In the present study we have examined the in vivo effects of thyroid hormones and TRH on tissue and blood levels of TRH and TRH-Gly (pGlu-His-Pro-Gly), a TRH precursor. Using specific radioimmunoassays (RIAs), we measured TRH immunoreactivity (TRH-IR) and TRH-Gly-IR concentrations in blood, hypothalamus, anterior and posterior pituitary, and thyroid in euthyroid, hypothyroid and thyroxine (T4)-treated 250 g male Sprague-Dawley rats. TRH-Gly-IR and TRH-IR were detected in all of these tissues. Highly significant positive correlations between whole blood TRH-Gly-IR levels and the corresponding serum TSH values (p less than 0.01), whole blood TRH-IR versus serum TSH (p less than 0.01) and whole blood TRH-Gly-IR versus whole blood TRH-IR (p less than 0.01) are consistent with cosecretion of TRH and TRH precursor peptides into the circulation. Euthyroid rats injected with TRH IP (1 microgram/100 g b.wt.) and hypothyroid rats had 4-fold higher whole blood TRH-Gly-IR levels compared to euthyroid controls (p less than 0.0005). Injection of TRH into euthyroid rats significantly increased the TRH-Gly-IR concentration in the hypothalamus, anterior and posterior pituitary and thyroid. The increase in blood TRH-Gly-IR following intravenous TRH may be due, in part, to partial saturation of TRH-degrading enzymes in blood and cell membranes. The ratio of TRH-Gly to TRH was significantly increased in the anterior pituitary by hypothyroidism and TRH injection, suggesting that thyroid hormones and TRH regulate the alpha-amidation of TRH-Gly to form TRH in this tissue. TRH-Gly levels of pooled pituitary and thyroid extracts quantitated by a combination of TRH-Gly RIA and high performance liquid chromatography (HPLC) revealed several-fold increases following incubation at 60 degrees C. Heating at this temperature may block the alpha-amidation activity in extra-hypothalamic tissues but not the "trypsin-like" enzymes which cleave prepro-TRH into TRH-Gly-immunoreactive peptides.

Synthesis, cloning and expression in Escherichia coli of artificial genes coding for biologically active elongated precursors of the vasoactive intestinal polypeptide

Synthetic genes coding for elongated precursors of the vasoactive intestinal polypeptide (VIP) were synthesized and cloned in a highly efficient Escherichia coli expression vector. The synthetic genes code for VIP with its methionine (at position 17) replaced by leucine and elongated at the C-terminus by Gly (vasoactive intestinal polypeptide-Gly, i.e. VIPa) or by Gly-Lys-Arg (vasoactive intestinal polypeptide-Gly-Lys-Arg, i.e. VIPb). The synthetic genes fused to the N-terminal part of the E. coli beta-galactosidase gene were expressed to yield high amounts of fusion proteins reaching upon induction at least 60% of the total cellular protein. The fusion proteins of 314 and 316 amino acids carrying in their C-terminal portion either the 29 or 31 amino acids long VIP precursor polypeptide were shown to be immunoreactive with VIP antisera and were further purified and cleaved by CNBr. The resulting purified peptide precursors (VIPa and VIPb) were recognized by VIP receptors in rat liver plasma membranes and by antibodies to porcine VIP in a radioimmunoassay. Both precursors activated adenylate cyclase in rat liver membranes and stimulated pancreatic secretion in the cat. The affinity and potency of the cloned precursors is close to that of VIP purified from porcine intestine, suggesting that the elongated VIP precursors may act even without being converted into the C-terminal amide form of the peptide. The elongated VIP precursors expressed in E. coli may provide a cheap, large-scale source of experimental material for studies on VIP actions.

Structure-activity relationships for glycine-extended peptides and the alpha-amidating enzyme derived from medullary thyroid CA-77 cells

A peptidyl alpha-amidating enzyme has been partially purified from conditioned medium derived from cultured medullary thyroid CA-77 cells. The interactions of this enzyme with a series of tripeptides, pentapeptides, and mature glycine-extended prohormones has now been studied using a competition assay that features the enzymatic alpha-amidation of N-dansyl-Tyr-Val-Gly. While a peptide C-terminal glycine was obligatory for tight binding to the alpha-amidating enzyme, other peptide structural elements modulated the interaction. Thus, a greater than 1300-fold range in apparent inhibitor constants was observed by substitution at the -1 (penultimate) position in a C-terminal glycine-containing tripeptide with each of the 20 common L-amino acids. Peptide inhibitory potency decreased through the following amino acid groupings: sulfur containing greater than aromatic greater than or equal to histidine greater than nonpolar greater than polar greater than glycine greater than charged. This pattern was qualitatively dissimilar to that observed for a more limited series of substitutions at the -2 position, demonstrating the positional selectivity of these structural requirements. The structure-activity relationships observed with the tripeptides at the -1 position were consistent with the apparent inhibitor constants obtained for a collection of prohormones and their pentapeptide mimics. Finally, selected prohormones and their pentapeptide mimics were equipotent inhibitors, demonstrating that the peptide structural elements important for alpha-amidating enzyme recognition are located entirely within the C-terminal pentapeptide segment.

Biosynthesis of the C-terminal amide in peptide hormones

Recent developments in the study of peptide amidation are reviewed. The main areas covered are assay procedures, purification of amidating enzymes, co-factors and regulation, mechanism and specificity of the amidating reaction, and multiple forms of the amidating enzyme and glycosylation. Discussion is presented on aspects that are poorly understood and new areas open to investigation are indicated.

Sequential processing reactions in the formation of hormone amides

The substrate specificity of an enzyme with amidating activity, present in porcine pituitary, was investigated by examining its ability to convert the synthetic peptides D-Tyr-Val-Gly and D-Tyr-Val-Gly-Lys-Arg to the dipeptide amide D-Tyr-Val-CONH2. The purified enzyme catalysed the amidation reaction with the tripeptide but did not accept the pentapeptide as a substrate. With the mixture of enzymes present in a membrane fraction from porcine pituitary or the enzymes in a secretory granule fraction, both the tripeptide and pentapeptide substrates gave rise to D-Tyr-Val amide; the formation of dipeptide amide from the pentapeptide, however, involved a latency period after which amidation occurred at a similar rate with the two substrates. Evidence was obtained that arginine and lysine were released from the C terminus of the pentapeptide before amidation took place since the rate of formation of dipeptide amide was reduced at pH values that were compatible with amidation but unfavourable to the action of carboxypeptidase H. In addition formation of the dipeptide amide from the pentapeptide was blocked by guanidinoethylmercaptosuccinic acid and glycylarginine, which are inhibitors of carboxypeptidase enzymes. The experiments demonstrate that removal of basic residues from the C terminus of a peptide and amidation at C-terminal glycine are reactions that take place consecutively. These prohormone-processing reactions, which are intrinsic to the formation of hormone amides, did not synergise.

Evidence for high peptide alpha-amidating activity in the pancrease from neonatal rats

A high peptidylglycine alpha-amidating mono-oxygenase (PAMase) activity has been measured in the pancreas of neonatal rats. A significant fraction of this activity is contained in the beta cells of the islets of Langerhans and is colocalized with thyrotropin-releasing hormone (TRH) and its precursor in secretory granules. The ontogenetic variation of PAMase activity in the pancrease parallels that of TRH concentrations, suggesting that this enzymatic activity is directly related to TRH biosynthesis. In addition, PAMase activity is able to generate TRH when incubated with less than Glu-His-Pro-Gly, a tetrapeptide present as a repetitive sequence in the TRH precursor. The perinatal evolution of the TRH precursor levels in the pancreas is similar to that of PAMase activity (unpublished results). Thus, the neonatal rat pancreas offers an endocrine model in which the levels of a neuropeptide precursor and an enzyme activity, involved in the posttranslational modification of this precursor, are similarly regulated. Our results suggest also that a fraction of PAMase activity may be produced outside of the beta cells and related to the biosynthesis of COOH-terminally amidated peptide(s) other than TRH. The ontogenetic changes in PAMase activity imply that the synthesis of this peptide(s) is high during the neonatal period, decreasing thereafter.

Peptide C-terminal alpha-amidating enzyme purified to homogeneity from Xenopus laevis skin

The C-terminal alpha-amide formation of the peptides is one of the most important events of prohormone processing. In this study, we have developed a simple and sensitive assay for monitoring alpha-amidating activity by using radioiodinated Ac-Tyr-Phe-Gly as a substrate. By utilizing this assay, an alpha-amidating enzyme was first purified to homogeneity from Xenopus laevis skin. The purified enzyme has a single polypeptide chain with an apparent molecular weight of 39,000 and its N-terminal sequence was determined as Ser-Leu-Ser-. The enzyme converts several synthetic peptides with C-terminal glycine to the corresponding des-glycine peptide alpha-amides. The enzyme activity, with an optimal pH 6-7, was dependent on the copper ion and ascorbate. In the presence of 0.25 mM ascorbate, the enzyme exhibited a Km of 0.35 microM and a Vmax of 1.9 nmol/microgram/h for Ac-Tyr-Phe-Gly.

An endopeptidase associated with bovine neurohypophysis secretory granules cleaves pro-ocytocin/neurophysin peptide at paired basic residues

The octacosapeptide sequence [Tyr18] pro-ocytocin/neurophysin (1-18)NH2 [pro-OT/Np(1-18)NH2] was synthesized and used as substrate to detect endoprotease(s) possibly involved in the processing of this precursor in bovine hypothalamo-neurohypophyseal tract. An endopeptidase (58 Kda) was detected in Lysates made from highly purified neurosecretory granules. This protease which cleaves the peptide bond on the carboxyl side of the Lys-Arg doublet, and no single basic residue, generates both OT-Gly10-Lys11-Arg12+Ala13-Val-Leu-Asp-Leu-Tyr18 (NH2) from the octacosapeptide substrate. In addition, a carboxypeptidase B-like activity converting OT-Gly10-Lys11-Arg12 into OT-Gly10 was detected in the same granule Lysates. It is hypothesized that a combination of these endoprotease and carboxypeptidase B-like activities together with the amidating enzyme of secretory granules might participate in the cleavage and processing of pro-OT/Np in vivo.