Translation of honeybee promelittin messenger RNA. Formation of a larger product in a mammalian cell-free system.

Venom glands of honeybees synthesize the peptide melittin via the precursor promelittin. Total RNA preparations from venom glands served as template in a cell-free system prepared from mammalian cells. The heterologous system translated the insect mRNA with approximately the same efficiency as hemoglobin mRNA. A polypeptide was synthesized which, as shown by acrylamide gel electrophoresis in the presence of detergent, has a higher molecular weight than promelittin. Analysis of peptic fragments as well as Edman degradation have demonstrated that sequences characteristic of venom gland promelittin are present in this product formed in vitro. Furthermore, a bacterial protease which specifically splits after acidic residues liberates from the cell-free product a fragment which closely resembles melittin. Evidence is presented that most of the extra amino acids are located at the amino terminus of the product formed in vitro. The larger polypeptide detected in vitro may represent a precursor of promelittin.     

Subcellular compartmentation of albumin and globin made in oocytes under the direction of injected messenger RNA

The Xenopus oocyte can be used to study the nature and specificity of the translational and post-translational systems of a normal living cell. We describe experiments combining messenger RNA microinjection and subcellular fractionation. Total Xenopus liver RNA directs the synthesis of albumin and vitellogenin contained within membrane vesicles; similarly, guinea pig mammary gland mRNA codes for membrane-bound protease-resistant milk proteins. In contrast, iodinated albumin protein injected into oocytes remains in the supernatant fraction, as does globin made on mRNA. The information encoded in the albumin messenger is therefore sufficient to specify synthesis of a membrane-bound product; moreoever, this highly efficient coupled translation-processing system may be of use in the study of the transfer of newly made proteins across membranes. A significant proportion (up to 20%) of newly made oocyte proteins enter a light membrane fraction, and many remain there. We speculate that these vesicles represent part of an important storage system.     

Purification from bee venom of melittin devoid of phospholipase A2 contamination

Conditions for the inactivation of phospholipase A₂ which contaminates melittin preparations were studied. A method for the purification of that peptide from bee venom is proposed. It gives, with a high recovery, a product devoid of phospholipase A₂ activity. In the first step, the venom is fractionated by gel filtration. Then the phospholipase A₂ still present in the melittin fraction is destroyed by sequential sulfitolysis and cyanogen bromide cleavage. This leaves the melittin intact. The final cation-exchange chromatography yields an homogeneous melittin preparation as analyzed by gel filtration, reverse-phase HPLC, and amino acid analysis.     

Consequences of alteration in leucine zipper sequence of melittin in its neutralization of lipopolysaccharide-induced proinflammatory response in macrophage cells and interaction with lipopolysaccharide

The bee venom antimicrobial peptide, melittin, besides showing versatile activity against microorganisms also neutralizes lipopolysaccharide (LPS)-induced proinflammatory responses in macrophage cells. However, how the amino acid sequence of melittin contributes in its anti-inflammatory properties is mostly unknown. To determine the importance of the leucine zipper sequence of melittin in its neutralization of LPS-induced inflammatory responses in macrophages and interaction with LPS, anti-inflammatory properties of melittin and its three analogues and their interactions with LPS were studied in detail. Two of these analogues, namely melittin Mut-1 (MM-1) and melittin Mut-2 (MM-2), possess leucine to alanine substitutions in the single and double heptadic leucine residue(s) of melittin, respectively, whereas the third analogue is a scrambled peptide (Mel-SCR) that contains the amino acid composition of melittin with minor rearrangement in its leucine zipper sequence. Although MM-1 partly inhibited the production of proinflammatory cytokines in RAW 264.7 and rat primary macrophage cells in the presence of LPS, MM-2 and Mel-SCR were negligibly active. A progressive decrease in interaction of melittin with LPS, aggregation in LPS, and dissociation of LPS aggregates with alteration in the leucine zipper sequence of melittin was observed. Furthermore, with alteration in the leucine zipper sequence of melittin, these analogues failed to exhibit cellular responses associated with neutralization of LPS-induced inflammatory responses in macrophage cells by melittin. The data indicated a probable important role of the leucine zipper sequence of melittin in neutralizing LPS-induced proinflammatory responses in macrophage cells as well as in its interaction with LPS.     

Intensification of the interaction of IgG with C1q in the presence of melittin as a possible reason for anaphylaxis under the effect of bee venom

The hydrophilic head of melittin (peptide from bee venom) has the amino acid sequence which is very close to the amino acid sequence of C1q-binding site of the IgG molecule. It was shown, that melittin caused the multiple growth of the interaction of C1q with IgG monoclonal antibody. We assume, that the appearance of melittin in blood causes the spontaneous antigen-independent aggregation of IgG and C1q with the following triggering of the classical pathway of the complement cascade and origin of C3a and C5a components. This can be one of the mechanisms of anaphylaxis as an answer to bee venom.     

REGULATION OF PROTEIN SYNTHESIS IN THE VENOM GLAND OF VIPERID SNAKES

Morphological changes in the venom gland of V. ammodytes were studied after the removal of the venom from the gland lumina (milking) It was found that the height of the secretory cells was changed during the secretory cycle. The patterns of the rough endoplasmic reticulum and of the Golgi complex were changed as well Milking induced an increased incorporation of [¹⁴C]amino acids into total and venom proteins In V ammodytes, during the first day after milking, 25% of the total counts in protein were precipitable by anti-venom serum, while at 8 days, 80% of the proteins synthesized were venom proteins At this stage, the incorporation was 10- and 20-fold that of unmilked glands for total and venom proteins, respectively. Venom was accumulated (secreted) in the gland lumina of V. ammodytes at a relatively high rate up to 2 wk after milking and leveled off afterwards. Intact glands and gland slices of V ammodytes and V palaestinae, taken from snakes a few days after milking, incorporated [¹⁴C]amino acids into proteins in vitro at a rate higher than that of unmilked glands. The activity of two exportable enzymes (phosphodiesterase and benzoyl arginyl ethyl esterase) was assayed in gland homogenates of V. ammodytes. It was found that 2–3 wk after milking, the intracellular level of these enzymes was up to 2-fold that of unmilked glands.     

Melittin: a Membrane-active Peptide with Diverse Functions

Melittin is the principal toxic component in the venom of the European honey bee Apis mellifera and is a cationic, hemolytic peptide. It is a small linear peptide composed of 26 amino acid residues in which the amino-terminal region is predominantly hydrophobic whereas the carboxy-terminal region is hydrophilic due to the presence of a stretch of positively charged amino acids. This amphiphilic property of melittin has resulted in melittin being used as a suitable model peptide for monitoring lipid–protein interactions in membranes. In this review, the solution and membrane properties of melittin are highlighted, with an emphasis on melittin–membrane interaction using biophysical approaches. The recent applications of melittin in various cellular processes are discussed.     

Analysis of the coding activity and stability of messenger RNA in Drosophila oocytes.

The coding activity of the messenger RNA in the ooplasm of late stage 14 (S14) oocytes of Drosophila melanogaster was analyzed by labeling the oocytes in vitro with [³⁵S]methionine and examining the labeled products by two-dimensional gel electrophoresis and fluorography. This analysis was done both with newly formed S14 oocytes from rapidly laying females and with S14 oocytes stored for about 10 days in females that were prevented from laying. Comparison of the fluorographs showed that the proteins labeled in the newly formed oocytes were also labeled in the stored oocytes. Thus, the coding activity of S14 oocyte messenger RNA appears to remain stable during prolonged storage in utero. The oocyte proteins synthesized during oogenesis and incorporated into S14 oocytes were labeled in vivo by injecting [³⁵S]methionine into newly eclosed females, and the S14 oocytes were removed 2 days later for gel electrophoresis and fluorography. Comparison of the fluorographs produced by the in vivo and in vitro labeling procedures showed that most of the oocyte proteins labeled in vivo were also labeled in vitro. The S14 oocytes, therefore, appear to contain messenger RNA for most of the oocyte proteins synthesized during oogenesis. There were also several additional proteins detected only in the fluorographs of the in vivo labeled oocytes; the most prominent of these were identified by immunoprecipitation tests as vitellogenin proteins of yolk granules, which are known to be synthesized outside the oocyte, in fat bodies. The occurrence of stable S14 oocyte messenger RNA for most of the oocyte proteins suggests that the synthesis of those proteins during oogenesis occurs in the developing oocytes, specified by a stable population of oocyte messenger RNA.     

蜂毒溶血肽基因的定点诱变及其在大肠杆菌中的表达

从蜜蜂毒腺中提取总ＲＮＡ,通过ＲＴ－ＰＣＲ方法扩增得到了蜂毒溶血肽前体蛋白的ｃＤＮＡ,再进一步通过定点诱变在蜂毒溶血肽序列前引入了羟胺裂解位点,构建了与β－半乳糖苷酶部分序列相融合的蜂毒溶血肽诱变蛋白表达载体,序列分析结果表明,成功地引入了目的密码子且与β－半乳糖苷酶部分序列构成正确的读码框,并在大肠杆菌中表达了诱变蛋白,为基因工程生产蜂毒溶血肽提供了新途径。     

Peptide transport in the mammary gland: expression and distribution of PEPT2 mRNA and protein

The lactating mammary gland utilizes free plasma amino acids as well as those derived by hydrolysis from circulating short-chain peptides for protein synthesis. Apart from the major route of amino acid nitrogen delivery to the gland by the various transporters for free amino acids, it has been suggested that dipeptides may also be taken up in intact form to serve as a source of amino acids. The identification of peptide transporters in the mammary gland may therefore provide new insights into protein metabolism and secretion by the gland. The expression and distribution of the high-affinity type proton-coupled peptide transporter PEPT2 were investigated in rat lactating mammary gland as well as in human epithelial cells derived from breast milk. By use of RT-PCR, PEPT2 mRNA was detected in rat mammary gland extracts and human milk epithelial cells. The expression pattern of PEPT2 mRNA revealed a localization in epithelial cells of ducts and glands by nonisotopic high resolution in situ hybridization. In addition, immunohistochemistry was carried out and showed transporter immunoreactivity in the same epithelial cells of the glands and ducts. In addition, two-electrode voltage clamp recordings using PEPT2-expressing Xenopus laevis oocytes demonstrated positive inward currents induced by selected dipeptides that may play a role in aminonitrogen handling in mammalian mammary gland. Taken together, these data suggest that PEPT2 is expressed in mammary gland epithelia, in which it may contribute to the reuptake of short-chain peptides derived from hydrolysis of milk proteins secreted into the lumen. Whereas PEPT2 also transports a variety of drugs, such as selected beta-lactams, angiotensin-converting enzyme inhibitors, and antiviral and anticancer metabolites, their efficient reabsorption via PEPT2 may reduce the burden of xenobiotics in milk.     

蜂毒溶血肽(melittin)cDNA在大肠杆菌高表达质粒中的克隆(英文)

本项研究从新羽化的蜜蜂蜂王毒腺中提取了总mRNA,用逆转录的方法,合成了cDNA,并将其克隆到了噬菌体质粒λgtll的EcoRI位点,建立了melittin的cDNA文库。用PCR扩增技术从cDNA文库中产生了长度为87bp的melittin基因,并将其插入到高表达载体pBV220的EcoRI和pstI位点构成重组质粒PBM95,并转化到大肠杆菌JM101的感受态细胞中。经过在含氨苄青霉素的LB平板上对转化子进行筛选和对来自转化子中的重组质粒PBM95的酶切分析及melittin基因的测序,证明melit－tincDNA克隆成功。     

Localization of some enzymes in the main venom glands of viperid snakes

Several secretory and nonsecretory enzymes were localized histochemically in the main venom gland of 13 viperid snakes. All secretory cells show the intracellular oxidative enzymes succinate dehydrogenase and monoamine oxidase. The granular reactions obtained for both enzymes resemble mitochondria in distribution. Distinctive cells with a very high succinate dehydrogenase activity are dispersed among the secretory cells of all species except Atractaspis. Nonspecific acid phosphatase activity is found in the supranuclear region of the secretory cells in species that do not secrete this enzyme and throughout the cytoplasm in snakes that secrete the enzyme. Nonspecific alkaline phosphatase activity occurs in the secretory cells of those snakes whose venom shows this activity. Leucine amino peptidase (aryl amidase) activity is found in the venom and in the secretory cells of all the species. In Vipera palaestinae both the venom and the secretory cells of the main venom gland contain nonspecific esterase, L-amino acid oxidase and phosphodiesterase activities. The localization of phosphodiesterase and L-amino acid oxidase do not show major differences between glands at different intervals from an initial milking. Adenosine-monophosphate phosphatase activity is localized in the supranuclear region of the secretory cells in the glands of Vipera palaestinae and Aspis cerastes. Its activity is found in the venom of Aspis only.     

Synthesis and processing of the mouse MOPC-321 kappa chain in Xenopus laevis oocytes.

Polyadenylated mRNA isolated from mineral oil-induced plasmacytoma (MOPC)-321 was injected into Xenopus laevis oocytes that were incubated in ³H-labeled amino acids. The MOPC-321 k chain was purified from an oocyte homogenate by immunoprecipitation, followed by preparative gel electrophoresis. To determine whether the precursor segment had been properly and precisely cleaved in the oocyte, the amino acid sequence of the NH₂terminal end of the purified k chain was investigated. The NH₂-terminal sequence obtained was identical to that of the mature, secreted form of the protein. Thus the specificity of the enzyme performing the cleavage of precursor to mature chain is similar in frog oocytes and in mammalian cells. Therefore, the enzymatic specificity has been highly conserved during evolution and evidently performs an essential role in cellular metabolism.     

Protein synthesis in oocytes of Xenopus laevis is not regulated by the supply of messenger RNA

The control of protein synthesis in oocytes of Xenopus laevis has been investigated by injecting oocytes with mRNA and polysomes followed by labeling with ¹⁴C-amino acid mixtures. Contrary to previous reports in which injected oocytes were labeled with ³H-histidine, injected globin mRNA is found to decrease amino acid incorporation into endogenous proteins competitively at all concentrations tested. No increase in overall amino acid incorporation is detected when more mRNA is supplied. Similar results are obtained after labeling injected oocytes with leucine, methionine, proline or valine individually. An explanation is presented for the conflicting results obtained when histidine is used as a label.When reticulocyte polysomes are injected, rather than purified globin mRNA, incorporation of amino acids into endogenous proteins remains roughly constant and overall incorporation increases. Similarly, when encephalomyocarditis viral RNA is injected together with either globin mRNA or reticulocyte polysomes, the globin mRNA causes decreased amino acid incorporation into encephalomyocarditis proteins, but the polysomes do not do so. The results demonstrate that different types of mRNA compete for a strictly limited translational capacity which is saturated in the normal oocyte. The limiting component is present in polysomes and is not message-specific. The constraint on protein synthesis in the amphibian oocyte cannot be fully explained by masked mRNA.     

In vitro Induction of Germinal Vesicle Breakdown in Xenopus laevis Oocytes by Melittin

The bee venom, melittin, is an amphipathic polypeptide comprising 26 amino acids with known sequence. It consists of a hydrophobic and a basic hydrophilic segment, possesses lipolytic activity, and stimulates Na⁺-K⁺ pump activity. At 1.5 μM melittin induces 98% germinal vesicle breakdown (GVBD) in stage VI (Dumont) oocytes and 96% in stage IV oocytes. Progesterone (30 μM) induced 100% GVBD in stage VI oocytes and none in stage IV oocytes. GVBD occurs earlier with melittin than with progesterone, i.e., 3 h compared to 5 h. An unusual morphologic change observed with melittin is the occurrence of mottling of the animal pole. The inner boundary of the melanin layer appears irregular with projections extending into the cytoplasm.
When stage VI oocytes were microinjected with 60 nl of 3 mM melittin only 48% showed GVBD indicating that the effectiveness of melittin was dependent upon the route of administration. On the other hand, 60% of stage VI oocytes underwent GVBD when microinjected with the cytosol fraction obtained from melittin-treated oocytes. Dissolution of isolated germinal vesicles did not occur when they were incubated in modified Earth's medium containing 3 mM melittin. The present results suggest that melittin induces GVBD by promoting the production of maturation promoting factor.     

CLONING OF MELITTIN cDNA FROM HONEYBEE INTO THE HIGH EXPREHION PLASMID OF ESCHERICHIA COLI*

Abstract Total mRNA from venom glands of newly emerged queen bees was reversely transcribed into cDNA and cloned into the EcoRI site of plasmid λgt11; cDNA library for bee venom was thus constructed. PCR technique was used to produce the melittin coding sequence from the cDNA library. A 87 bp product was produced and inserted into the EcoRI and PstI sites of the high level expression vector pBV220. Recombinant plasmid pBM95 was transformed into the competent cells of E.coli JM101. After screening transformants on LB medium with ampicilin, structure of the recombinant plasmid pBM95 from transformants was analyzed and melittin gene in pBM95 was sequenced. The cloned cDNA coding for honey bee melittin was obtained.     

Kbot55, purified from Buthus occitanus tunetanus venom,represents the first member of a novel α-KTx subfamily

Kbot55 is a 39 amino acid peptide isolated from the venom of the Tunisian scorpion Buthus occitanus tunetanus. This peptide is cross-linked by 3 disulfide bridges and has a molecular mass of 4128.65 Da. Kbot55 is very low represented in the venom and thus represents a challenge for biochemical characterization. In this study, Kbot55 has been subjected to a screening on ion channels expressed in Xenopus laevis oocytes. It was found that Kbot55 targets voltage-gated potassium channels with high affinity. Kbot55 shows very low amino acid identity with other scorpion potassium toxins and therefore was considered a bona fide novel type of scorpion toxin. Sequence alignment analysis indicated that Kbot55 is the first representative of the new α-Ktx31 subfamily and therefore was classified as α-Ktx31.1.