• Title/Summary/Keyword: Peptide toxin

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The Antimicrobial Peptide CopA3 Inhibits Clostridium difficile Toxin A-Induced Viability Loss and Apoptosis in Neural Cells

  • Yoon, I Na;Hwang, Jae Sam;Lee, Joon Ha;Kim, Ho
    • Journal of Microbiology and Biotechnology
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    • v.29 no.1
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    • pp.30-36
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    • 2019
  • Numerous studies have reported that enteric neurons involved in controlling neurotransmitter secretion and motility in the gut critically contribute to the progression of gut inflammation. Clostridium difficile toxins, which cause severe colonic inflammation, are also known to affect enteric neurons. Our previous study showed that C. difficile toxin A directly induces neural cell toxicities, such as viability loss and apoptosis. In the current study, we attempted to identify a potent inhibitor of toxin A-induced neural cell toxicity that may aid in managing toxin A-induced gut inflammation. In our recent study, we found that the Korea dung beetle-derived antimicrobial peptide CopA3 completely blocked neural cell apoptosis caused by okadaic acid or 6-OHDA. Here, we examined whether the antimicrobial peptide CopA3 inhibited toxin A-induced neural cell damage. In neuroblastoma SH-SY5Y cells, CopA3 treatment protected against both apoptosis and viability loss caused by toxin A. CopA3 also completely inhibited activation of the pro-apoptotic factor, caspase-3. Additionally, CopA3 rescued toxin A-induced downregulation of neural cell proliferation. However, CopA3 had no effect on signaling through ROS/p38 $MAPK/p27^{kip1}$, suggesting that CopA3 inhibits toxin A-induced neural cell toxicity independent of this well-characterized toxin A pathway. Our data further suggest that ability of CopA3 to rescue toxin A-induced neural cell damage may also ameliorate the gut inflammation caused by toxin A.

The American Cockroach Peptide Periplanetasin-2 Blocks Clostridium Difficile Toxin A-Induced Cell Damage and Inflammation in the Gut

  • Hong, Ji;Zhang, Peng;Yoon, I Na;Hwang, Jae Sam;Kang, Jin Ku;Kim, Ho
    • Journal of Microbiology and Biotechnology
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    • v.27 no.4
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    • pp.694-700
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    • 2017
  • Clostridium difficile, which causes pseudomembranous colitis, releases toxin A and toxin B. These toxins are considered to be the main causative agents for the disease pathogenesis, and their expression is associated with a marked increase of apoptosis in mucosal epithelial cells. Colonic epithelial cells are believed to form a physical barrier between the lumen and the submucosa, and abnormally increased mucosal epithelial cell apoptosis is considered to be an initial step in gut inflammation responses. Therefore, one approach to treating pseudomembranous colitis would be to develop agents that block the mucosal epithelial cell apoptosis caused by toxin A, thus restoring barrier function and curing inflammatory responses in the gut. We recently isolated an antimicrobial peptide, Periplanetasin-2 (Peri-2, YPCKLNLKLGKVPFH) from the American cockroach, whose extracts have shown great potential for clinical use. Here, we assessed whether Peri-2 could inhibit the cell toxicity and inflammation caused by C. difficile toxin A. Indeed, in human colonocyte HT29 cells, Peri-2 inhibited the toxin A-induced decrease in cell proliferation and ameliorated the cell apoptosis induced by this toxin. Moreover, in the toxin A-induced mouse enteritis model, Peri-2 blocked the mucosal disruption and inflammatory response caused by toxin A. These results suggest that the American cockroach peptide Peri-2 could be a possible drug candidate for addressing the pseudomembranous colitis caused by C. difficile toxin A.

Relationships between Structural Features and Biological Activities of HC-toxin

  • Kim, Shin-Duk
    • BMB Reports
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    • v.28 no.3
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    • pp.227-231
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    • 1995
  • In order to figure out the relationships between structural features and biological activity of the host-specific HC-toxin in maize, structurally related cyclic tetrapeptides, chlamydocin and CYL-2 were isolated, and their biological activities in maize were examined. Biological activities of preparations were determined by root growth inhibition and electrolyte leakage bioassays. Chlamydocin and CYL-2 showed toxicities to maize. However, the toxicities of these compounds were non-specific. Thus, the precise peptide ring structure of HC-toxin apparently does not play an important role in toxicity, while resistance of maize to HC-toxin is based on a precise ring conformation.

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Purification of a Pore-forming Peptide Toxin, Tolaasin, Produced by Pseudomonas tolaasii 6264

  • Cho, Kwang-Hyun;Kim, Sung-Tae;Kim, Young-Kee
    • BMB Reports
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    • v.40 no.1
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    • pp.113-118
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    • 2007
  • Tolaasin, a pore-forming peptide toxin, is produced by Pseudomonas tolaasii and causes brown blotch disease of the cultivated mushrooms. P. tolaasii 6264 was isolated from the oyster mushroom damaged by the disease in Korean. In order to isolate tolaasin molecules, the supernatant of bacterial culture was harvested at the stationary phase of growth. Tolaasin was prepared by ammonium sulfate precipitation and three steps of chromatograpies, including a gel permeation and two ion exchange chromatographies. Specific hemolytic activity of tolaasin was increased from 1.7 to 162.0 HU $mg^{-1}$ protein, a 98-fold increase, and the purification yield was 16.3%. Tolaasin preparation obtained at each purification step was analyzed by HPLC and SDS-PAGE. Two major peptides were detected from all chromatographic preparations. Their molecular masses were analyzed by MALDI-TOF mass spectrometry and they were identified as tolaasin I and tolaasin II. These results demonstrate that the method used in this study is simple, time-saving, and successful for the preparation of tolaasin.

Separation and Purification of two toxins produced by H. sativum P. K. & B. (H. sativum이 생성(生成)하는 식물(植物) 독소물질 분리(分離))

  • Lee, Sang-Sun;Vick, Brady A.;Stack, Robert W.
    • The Korean Journal of Mycology
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    • v.16 no.1
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    • pp.9-15
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    • 1988
  • Two kinds of toxins were demonstrated in the culture filtrate of H. sativum, and were called 'M' and 'D' toxins. The lettuce bioassay indicated that D-toxin caused less root growth inhibition than M-toxin. Chemical analysis indicated that M-toxin was a very unusual small peptide. D-toxin was shown to have chemical characteristics similar to helminthosporal based on ultraviolet, proton nuclear magnetic resonance and mass spectra. D-toxin was composed of at least two isomers.

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Botulinum toxin A의 임상적 적용원리 및 기본원칙

  • Choe, Jin-Yeong
    • The Journal of the Korean dental association
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    • v.41 no.12 s.415
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    • pp.826-830
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    • 2003
  • botulinum toxin type A는 anaerobic bacterium clostridium botulinum에서 유래된 poly peptide neurotoxin으로서 사시, 안면연축, 수부다한증등에 치료목적으로 안정적으로 사용되어오다 최근에는 이마주름, 눈가주름등 주름살의 개선 목적으로 널리 사용되어 오고있다. 특히 턱얼굴외과 영역에서는 이러한 주름살의 개선이외에도 사각턱, 안면 신경의 이상으로 인한 안면 비대칭등 적용범위가 상당히 넓고 치료효과도 만족할 만하다고 하겠다. 이에 턱얼굴외과의사 나아가 치과의사들의 많은 사용을 기대하여 botulinum toxin 사용의 역사적 배경, 약리 및 작용기전, 가능한 합병증, 턱얼굴영역에서의 적용가능성 등에 대해 알아보고자 한다.

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Effect of Diphtheria Toxin on the Phospholipase D activity and Free Fatty Acid Release in HepG2 Cells (HepG2 세포의 포스포리파제 D 활성과 자유 지방산 방출에 대한 디프테리아 독소의 영향)

  • Koh, Eun-Hie
    • Journal of the Korean Chemical Society
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    • v.59 no.1
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    • pp.22-30
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    • 2015
  • The effect of diphtheria toxin on cell membrane lipids was studied by examining the phospholipase D (PLD) activity and free fatty acids (FFA) release in HepG2 cells. The diphtheria toxin effects on lipid alteration show apparently maximal at pH 5.1, stimulating PLD activity nearly 3.5 fold and enhancing FFA release approximately 5 fold over the control. These results indicate that the membrane is perturbed and its lipid component is rearranged during the diphtheria toxin translocation. Digitonin, a random membrane perturbing detergent, exhibit about four-fold higher perturbation effect over the diphtheria toxin at neutral pH. This observation suggests that the membrane perturbation induced by diphtheria toxin appears to be rather selective. To investigate the cause of the membrane perturbation, Cibacron blue, an inhibitor of membrane pore formation, and hemagglutinin, an influenza virus with fusion peptide, were tested for their effects on diphtheria toxin action. Cibacron blue decreased the diphtheria toxin effect by almost 50%, but the lipid alteration induced by hemagglutinin was similar to the diphtheria toxin effect. These observations imply that the membrane perturbation induced by diphtheria toxin may be caused by a combination of pore formation and insertion of hydrophobic peptide of toxin to the membrane as well. Additionally, we found that the diphtheria toxin increased the HepG2 cells permeability but the cells viability was maintained at high level at the same time. DNA fragmentation which is related to apoptosis was not induced by the toxin. Under these conditions, we could demonstrate that the lipid alteration of HepG2 cells was brought about by diphtheria toxin at acidic pH.

Simple Purification of shiga Toxin B Chain from Recombinant Escherichia coli

  • Oh, Young-Phil;Jeong, Seong-Tae;Kim, Dae-Weon;Kim, El-Chae;Yoon, Ki-Hong
    • Journal of Microbiology and Biotechnology
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    • v.12 no.6
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    • pp.986-988
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    • 2002
  • A plasmid expression vector of pEStxl encoding a mature form of the B chain of the Shiga toxin was constructed without a signal peptide under the control of an inducible n promoter. The encoded protein was purified to 90% by simple heat treatment, and then further purified to 95% by Phenyl-Sepharose and DEAE-Sepharose chromatographies, all in a single day. Accordingly, this expression system and heat treatment could facilitate the rapid purification of gram-scale amounts of the Shiga toxin B subunit from recombinant Escherichia coli cells.

pH-dependent Cytotoxicity of a Peptide Toxin, Tolaasin (펩티드 독소 Tolaasin에 의한 세포독성의 pH 의존성)

  • Kim, Sung-Tae;Choi, Tae-Keun;Kim, Young-Kee
    • Applied Biological Chemistry
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    • v.50 no.4
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    • pp.257-261
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    • 2007
  • Tolaasin, a peptide toxin produced by Pseudomonas tolaasii, causes a serious disease on the cultivated mushrooms, known as brown blotch disease. Hemolysis using red blood cells was designed to measure the cytotoxicity of tolaasin molecules. Since tolaasin has two amine groups near the C-terminus, its membrane binding will be dependent on the ionic states of the amine groups. When the tolaasin peptide was titrated, its titration curve indicated the presence of titratable amine(s) at pH ranges from 7.0 to 9.6. When the pH-dependence of tolaasin-induced hemolysis was measured at various pHs, hemolysis was more efficient at alkaline pHs. In order to measure the membrane binding activity of tolaasin at different pHs, RBCs were incubated with tolaasin molecules for short time periods and washed out with fresh buffer. Because of the tolaasin binding during the preincubation period, fast hemolyses were observed at pH 8 or higher. These results imply that non-charged or less positively charged states of tolaasin molecules easily bind to membrane and show high hemolytic activity.

Novel Preparation and Characterization of the α4-loop-α5 Membrane-perturbing Peptide from the Bacillus thuringiensis Cry4Ba δ-endotoxin

  • Leetachewa, Somphob;Katzenmeier, Gerd;Angsuthanasombat, Chanan
    • BMB Reports
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    • v.39 no.3
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    • pp.270-277
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    • 2006
  • Helices 4 and 5 of the Bacillus thuringiensis Cry4Ba $\delta$-endotoxin have been shown to be important determinants for mosquito-larvicidal activity, likely being involved in membrane-pore formation. In this study, the Cry4Ba mutant protein containing an additional engineered tryptic cleavage site was used to produce the $\alpha4$-$\alpha5$ hairpin peptide by an efficient alternative strategy. Upon solubilization of toxin inclusions expressed in Escherichia coli and subsequent digestion with trypsin, the 130-kDa mutant protoxin was processed to protease-resistant fragments of ca. 47, 10 and 7 kDa. The 7-kDa fragment was identified as the $\alpha4$-loop-$\alpha5$ hairpin via N-terminal sequencing and mass spectrometry, and was successfully purified by size-exclusion FPLC and reversed-phase HPLC. Using circular dichroism spectroscopy, the 7-kDa peptide was found to exist predominantly as an $\alpha$-helical structure. Membrane perturbation studies by using fluorimetric calcein-release assays revealed that the 7-kDa helical hairpin is highly active against unilamellar liposomes compared with the 65-kDa activated full-length toxin. These results directly support the role of the $\alpha4$-loop-$\alpha5$ hairpin in membrane perturbation and pore formation of the full-length Cry4Ba toxin.