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  1. Article: Indolactam Dipeptides as Nanomolar Gli Inhibitors.

    Mendoza, Manuel / Tran, UyenPhuong / Zhang, Grace C / Leister, Jeffrey / To, Kyle / Malepeai-Tofaeono, Theodore / Ondrus, Alison E / Billingsley, Kelvin L

    ACS medicinal chemistry letters

    2022  Volume 13, Issue 7, Page(s) 1036–1042

    Abstract: ... of indolactam dipeptides that target protein kinase C (PKC), exploiting the unique capacity of PKC isozymes ...

    Abstract The Gli transcription factors within the Hedgehog (Hh) signaling pathway play essential roles in human development. However, the reactivation of Gli proteins in adult tissue is tumorigenic and drives the progression of several cancers, including the majority of basal cell carcinomas. Here we describe a novel set of indolactam dipeptides that target protein kinase C (PKC), exploiting the unique capacity of PKC isozymes to act as regulators of Gli. We devised an efficient synthetic route for the indolactam-based natural product (-)-pendolmycin and a series of analogues, and we evaluated these analogues in mechanistically distinct Gli reporter assays. The lead compound from these studies,
    Language English
    Publishing date 2022-06-03
    Publishing country United States
    Document type Journal Article
    ISSN 1948-5875
    ISSN 1948-5875
    DOI 10.1021/acsmedchemlett.1c00562
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  2. Article ; Online: Small Molecule Intervention in a Protein Kinase C-Gli Transcription Factor Axis.

    Tran, UyenPhuong / Zhang, Grace C / Eom, Ryan / Billingsley, Kelvin L / Ondrus, Alison E

    ACS chemical biology

    2020  Volume 15, Issue 6, Page(s) 1321–1327

    Abstract: ... transcription factors, the glioma-associated oncogene homologues (Glis), and protein kinase C (PKC) isozymes. Here ...

    Abstract Aberrations in the Hedgehog (Hh) signaling pathway are responsible for a broad range of human cancers, yet only a subset rely on the activity of the clinical target, Smoothened (Smo). Emerging cases of cancers that are insensitive to Smo-targeting drugs demand new therapeutic targets and agents for inhibition. As such, we sought to pursue a recently discovered connection between the Hedgehog pathway transcription factors, the glioma-associated oncogene homologues (Glis), and protein kinase C (PKC) isozymes. Here, we report our assessment of a structurally diverse library of PKC effectors for their influence on Gli function. Using cell lines that employ distinct mechanisms of Gli activation up- and downstream of Smo, we identify a PKC effector that acts as a nanomolar Gli antagonist downstream of Smo through a mitogen-activated protein kinase kinase (MEK)-independent mechanism. This agent provides a unique tool to illuminate crosstalk between PKC isozymes and Hh signaling and new opportunities for therapeutic intervention in Hh pathway-dependent cancers.
    MeSH term(s) Animals ; Cell Line ; Drug Discovery ; Hedgehog Proteins/metabolism ; Humans ; Neoplasms/drug therapy ; Neoplasms/metabolism ; Protein Kinase C/metabolism ; Signal Transduction/drug effects ; Small Molecule Libraries/chemistry ; Small Molecule Libraries/pharmacology ; Zinc Finger Protein GLI1/metabolism
    Chemical Substances Hedgehog Proteins ; Small Molecule Libraries ; Zinc Finger Protein GLI1 ; Protein Kinase C (EC 2.7.11.13)
    Language English
    Publishing date 2020-06-08
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ISSN 1554-8937
    ISSN (online) 1554-8937
    DOI 10.1021/acschembio.0c00355
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  3. Article: Coenzyme Q supplementation or over-expression of the yeast Coq8 putative kinase stabilizes multi-subunit Coq polypeptide complexes in yeast coq null mutants.

    He, Cuiwen H / Xie, Letian X / Allan, Christopher M / Tran, Uyenphuong C / Clarke, Catherine F

    Biochimica et biophysica acta

    2014  Volume 1841, Issue 4, Page(s) 630–644

    Abstract: Coenzyme Q biosynthesis in yeast requires a multi-subunit Coq polypeptide complex. Deletion of any one of the COQ genes leads to respiratory deficiency and decreased levels of the Coq4, Coq6, Coq7, and Coq9 polypeptides, suggesting that their association ...

    Abstract Coenzyme Q biosynthesis in yeast requires a multi-subunit Coq polypeptide complex. Deletion of any one of the COQ genes leads to respiratory deficiency and decreased levels of the Coq4, Coq6, Coq7, and Coq9 polypeptides, suggesting that their association in a high molecular mass complex is required for stability. Over-expression of the putative Coq8 kinase in certain coq null mutants restores steady-state levels of the sensitive Coq polypeptides and promotes the synthesis of late-stage Q-intermediates. Here we show that over-expression of Coq8 in yeast coq null mutants profoundly affects the association of several of the Coq polypeptides in high molecular mass complexes, as assayed by separation of digitonin extracts of mitochondria by two-dimensional blue-native/SDS PAGE. The Coq4 polypeptide persists at high molecular mass with over-expression of Coq8 in coq3, coq5, coq6, coq7, coq9, and coq10 mutants, indicating that Coq4 is a central organizer of the Coq complex. Supplementation with exogenous Q6 increased the steady-state levels of Coq4, Coq7, and Coq9, and several other mitochondrial polypeptides in select coq null mutants, and also promoted the formation of late-stage Q-intermediates. Q supplementation may stabilize this complex by interacting with one or more of the Coq polypeptides. The stabilizing effects of exogenously added Q6 or over-expression of Coq8 depend on Coq1 and Coq2 production of a polyisoprenyl intermediate. Based on the observed interdependence of the Coq polypeptides, the effect of exogenous Q6, and the requirement for an endogenously produced polyisoprenyl intermediate, we propose a new model for the Q-biosynthetic complex, termed the CoQ-synthome.
    MeSH term(s) Dietary Supplements ; Gene Expression Regulation, Fungal ; Methyltransferases/chemistry ; Methyltransferases/genetics ; Methyltransferases/metabolism ; Mitochondrial Proteins/chemistry ; Mitochondrial Proteins/genetics ; Mitochondrial Proteins/metabolism ; Multiprotein Complexes ; Mutation ; Respiration/genetics ; Saccharomyces cerevisiae/genetics ; Saccharomyces cerevisiae Proteins/chemistry ; Saccharomyces cerevisiae Proteins/genetics ; Saccharomyces cerevisiae Proteins/metabolism ; Ubiquinone/biosynthesis ; Ubiquinone/chemistry ; Ubiquinone/genetics ; Ubiquinone/metabolism
    Chemical Substances COQ4 protein, S cerevisiae ; COQ8 protein, S cerevisiae ; Coq10 protein, S cerevisiae ; Mitochondrial Proteins ; Multiprotein Complexes ; Saccharomyces cerevisiae Proteins ; ubiquinone 6 (1065-31-2) ; Ubiquinone (1339-63-5) ; COQ5 protein, S cerevisiae (EC 2.1.1.-) ; Methyltransferases (EC 2.1.1.-) ; 3,4-dihydroxy-5-hexaprenylbenzoate methyltransferase (EC 2.1.1.114) ; ubiquinone 7 (RRK47DEG6Q)
    Language English
    Publishing date 2014-01-07
    Publishing country Netherlands
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 60-7
    ISSN 1879-2596 ; 1879-260X ; 1872-8006 ; 1879-2642 ; 1879-2618 ; 1879-2650 ; 0006-3002 ; 0005-2728 ; 0005-2736 ; 0304-4165 ; 0167-4838 ; 1388-1981 ; 0167-4889 ; 0167-4781 ; 0304-419X ; 1570-9639 ; 0925-4439 ; 1874-9399
    ISSN (online) 1879-2596 ; 1879-260X ; 1872-8006 ; 1879-2642 ; 1879-2618 ; 1879-2650
    ISSN 0006-3002 ; 0005-2728 ; 0005-2736 ; 0304-4165 ; 0167-4838 ; 1388-1981 ; 0167-4889 ; 0167-4781 ; 0304-419X ; 1570-9639 ; 0925-4439 ; 1874-9399
    DOI 10.1016/j.bbalip.2013.12.017
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  4. Article: Endogenous synthesis of coenzyme Q in eukaryotes.

    Tran, UyenPhuong C / Clarke, Catherine F

    Mitochondrion

    2007  Volume 7 Suppl, Page(s) S62–71

    Abstract: Coenzyme Q (Q) functions in the mitochondrial respiratory chain and serves as a lipophilic antioxidant. There is increasing interest in the use of Q as a nutritional supplement. Although, the physiological significance of Q is extensively investigated in ...

    Abstract Coenzyme Q (Q) functions in the mitochondrial respiratory chain and serves as a lipophilic antioxidant. There is increasing interest in the use of Q as a nutritional supplement. Although, the physiological significance of Q is extensively investigated in eukaryotes, ranging from yeast to human, the eukaryotic Q biosynthesis pathway is best characterized in the budding yeast Saccharomyces cerevisiae. At least ten genes (COQ1-COQ10) have been shown to be required for Q biosynthesis and function in respiration. This review highlights recent knowledge about the endogenous synthesis of Q in eukaryotes, with emphasis on S. cerevisiae as a model system.
    MeSH term(s) Animals ; Antioxidants/metabolism ; Caenorhabditis elegans/metabolism ; Carbon/chemistry ; Eukaryotic Cells/metabolism ; Gene Expression Regulation, Enzymologic ; Humans ; Lipids/chemistry ; Mitochondria/metabolism ; Models, Biological ; Models, Chemical ; Protein Transport ; Saccharomyces cerevisiae/metabolism ; Ubiquinone/biosynthesis ; Ubiquinone/chemistry ; Ubiquinone/metabolism
    Chemical Substances Antioxidants ; Lipids ; Ubiquinone (1339-63-5) ; Carbon (7440-44-0)
    Language English
    Publishing date 2007-06
    Publishing country Netherlands
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Review
    ZDB-ID 2056923-3
    ISSN 1872-8278 ; 1567-7249
    ISSN (online) 1872-8278
    ISSN 1567-7249
    DOI 10.1016/j.mito.2007.03.007
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  5. Article: Coenzyme Q supplementation or over-expression of the yeast Coq8 putative kinase stabilizes multi-subunit Coq polypeptide complexes in yeast coq null mutants

    He, Cuiwen H / Catherine F. Clarke / Christopher M. Allan / Letian X. Xie / UyenPhuong C. Tran

    BBA - Molecular and Cell Biology of Lipids. 2014 Apr., v. 1841

    2014  

    Abstract: Coenzyme Q biosynthesis in yeast requires a multi-subunit Coq polypeptide complex. Deletion of any one of the COQ genes leads to respiratory deficiency and decreased levels of the Coq4, Coq6, Coq7, and Coq9 polypeptides, suggesting that their association ...

    Abstract Coenzyme Q biosynthesis in yeast requires a multi-subunit Coq polypeptide complex. Deletion of any one of the COQ genes leads to respiratory deficiency and decreased levels of the Coq4, Coq6, Coq7, and Coq9 polypeptides, suggesting that their association in a high molecular mass complex is required for stability. Over-expression of the putative Coq8 kinase in certain coq null mutants restores steady-state levels of the sensitive Coq polypeptides and promotes the synthesis of late-stage Q-intermediates. Here we show that over-expression of Coq8 in yeast coq null mutants profoundly affects the association of several of the Coq polypeptides in high molecular mass complexes, as assayed by separation of digitonin extracts of mitochondria by two-dimensional blue-native/SDS PAGE. The Coq4 polypeptide persists at high molecular mass with over-expression of Coq8 in coq3, coq5, coq6, coq7, coq9, and coq10 mutants, indicating that Coq4 is a central organizer of the Coq complex. Supplementation with exogenous Q6 increased the steady-state levels of Coq4, Coq7, and Coq9, and several other mitochondrial polypeptides in select coq null mutants, and also promoted the formation of late-stage Q-intermediates. Q supplementation may stabilize this complex by interacting with one or more of the Coq polypeptides. The stabilizing effects of exogenously added Q6 or over-expression of Coq8 depend on Coq1 and Coq2 production of a polyisoprenyl intermediate. Based on the observed interdependence of the Coq polypeptides, the effect of exogenous Q6, and the requirement for an endogenously produced polyisoprenyl intermediate, we propose a new model for the Q-biosynthetic complex, termed the CoQ-synthome.
    Keywords biosynthesis ; digitonin ; gene overexpression ; genes ; mitochondria ; models ; molecular weight ; mutants ; polyacrylamide gel electrophoresis ; polypeptides ; ubiquinones ; yeasts
    Language English
    Dates of publication 2014-04
    Size p. 630-644.
    Publishing place Elsevier B.V.
    Document type Article
    ISSN 1388-1981
    DOI 10.1016/j.bbalip.2013.12.017
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  6. Article ; Online: Biological evaluation of indolactams for in vitro bryostatin 1-like activity.

    Tran, UyenPhuong / Billingsley, Kelvin L

    Bioorganic & medicinal chemistry letters

    2023  Volume 97, Page(s) 129570

    Abstract: Small molecule activators of protein kinase C (PKC) have traditionally been classified ...

    Abstract Small molecule activators of protein kinase C (PKC) have traditionally been classified as either tumor promoters or suppressors. Although bryostatin 1 has well established anti-cancer activity, most natural products that target the PKC regulator domain exhibit tumor promotion properties. In this study, we examine a focused library of indolactam analogues in cell-based assays to establish the structural features of the scaffold that enhance bryostatin 1-like activity. These systematic biological assessments identified specific indole substitution patterns that impart diminished tumor promotion behavior in vitro for indolactam analogues, while still maintaining nanomolar potency for PKC.
    MeSH term(s) Humans ; Bryostatins/pharmacology ; Bryostatins/chemistry ; Bryostatins/metabolism ; Lactones ; Neoplasms ; Protein Kinase C/metabolism ; Tetradecanoylphorbol Acetate ; Lactams/chemistry ; Lactams/pharmacology
    Chemical Substances bryostatin 1 (37O2X55Y9E) ; Bryostatins ; Lactones ; Protein Kinase C (EC 2.7.11.13) ; Tetradecanoylphorbol Acetate (NI40JAQ945) ; Lactams
    Language English
    Publishing date 2023-11-28
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1063195-1
    ISSN 1464-3405 ; 0960-894X
    ISSN (online) 1464-3405
    ISSN 0960-894X
    DOI 10.1016/j.bmcl.2023.129570
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  7. Article: Expression of the human atypical kinase ADCK3 rescues coenzyme Q biosynthesis and phosphorylation of Coq polypeptides in yeast coq8 mutants.

    Xie, Letian X / Hsieh, Edward J / Watanabe, Shota / Allan, Christopher M / Chen, Jia Y / Tran, UyenPhuong C / Clarke, Catherine F

    Biochimica et biophysica acta

    2011  Volume 1811, Issue 5, Page(s) 348–360

    Abstract: Coenzyme Q (ubiquinone or Q) is a lipid electron and proton carrier in the electron transport chain. In yeast Saccharomyces cerevisiae eleven genes, designated COQ1 through COQ9, YAH1 and ARH1, have been identified as being required for Q biosynthesis. ... ...

    Abstract Coenzyme Q (ubiquinone or Q) is a lipid electron and proton carrier in the electron transport chain. In yeast Saccharomyces cerevisiae eleven genes, designated COQ1 through COQ9, YAH1 and ARH1, have been identified as being required for Q biosynthesis. One of these genes, COQ8 (ABC1), encodes an atypical protein kinase, containing six (I, II, III, VIB, VII, and VIII) of the twelve motifs characteristically present in canonical protein kinases. Here we characterize seven distinct Q-less coq8 yeast mutants and show that unlike the coq8 null mutant, each maintained normal steady-state levels of the Coq8 polypeptide. The phosphorylation states of Coq polypeptides were determined with two-dimensional gel analyses. Coq3p, Coq5p, and Coq7p were phosphorylated in a Coq8p-dependent manner. Expression of a human homolog of Coq8p, ADCK3(CABC1) bearing an amino-terminal yeast mitochondrial leader sequence, rescued growth of yeast coq8 mutants on medium containing a nonfermentable carbon source and partially restored biosynthesis of Q(6). The phosphorylation state of several of the yeast Coq polypeptides was also rescued, indicating a profound conservation of yeast Coq8p and human ADCK3 protein kinase function in Q biosynthesis.
    MeSH term(s) Amino Acid Sequence ; Humans ; Mitochondria/metabolism ; Mitochondria/ultrastructure ; Mitochondrial Proteins/genetics ; Mitochondrial Proteins/metabolism ; Molecular Sequence Data ; Mutation ; Peptides/genetics ; Peptides/metabolism ; Phosphorylation ; Saccharomyces cerevisiae/enzymology ; Saccharomyces cerevisiae/genetics ; Saccharomyces cerevisiae Proteins/genetics ; Saccharomyces cerevisiae Proteins/metabolism ; Sequence Alignment ; Ubiquinone/biosynthesis ; Ubiquinone/genetics ; Ubiquinone/metabolism
    Chemical Substances COQ8 protein, S cerevisiae ; COQ8A protein, human ; Mitochondrial Proteins ; Peptides ; Saccharomyces cerevisiae Proteins ; Ubiquinone (1339-63-5) ; ubiquinone 8 (CQA993F7P8)
    Language English
    Publishing date 2011-02-04
    Publishing country Netherlands
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 60-7
    ISSN 1879-2596 ; 1879-260X ; 1872-8006 ; 1879-2642 ; 1879-2618 ; 1879-2650 ; 0006-3002 ; 0005-2728 ; 0005-2736 ; 0304-4165 ; 0167-4838 ; 1388-1981 ; 0167-4889 ; 0167-4781 ; 0304-419X ; 1570-9639 ; 0925-4439 ; 1874-9399
    ISSN (online) 1879-2596 ; 1879-260X ; 1872-8006 ; 1879-2642 ; 1879-2618 ; 1879-2650
    ISSN 0006-3002 ; 0005-2728 ; 0005-2736 ; 0304-4165 ; 0167-4838 ; 1388-1981 ; 0167-4889 ; 0167-4781 ; 0304-419X ; 1570-9639 ; 0925-4439 ; 1874-9399
    DOI 10.1016/j.bbalip.2011.01.009
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  8. Article: Complementation of Saccharomyces cerevisiae coq7 mutants by mitochondrial targeting of the Escherichia coli UbiF polypeptide: two functions of yeast Coq7 polypeptide in coenzyme Q biosynthesis.

    Tran, UyenPhuong C / Marbois, Beth / Gin, Peter / Gulmezian, Melissa / Jonassen, Tanya / Clarke, Catherine F

    The Journal of biological chemistry

    2006  Volume 281, Issue 24, Page(s) 16401–16409

    Abstract: Coenzyme Q (ubiquinone or Q) functions in the respiratory electron transport chain and serves as a lipophilic antioxidant. In the budding yeast Saccharomyces cerevisiae, Q biosynthesis requires nine Coq proteins (Coq1-Coq9). Previous work suggests both ... ...

    Abstract Coenzyme Q (ubiquinone or Q) functions in the respiratory electron transport chain and serves as a lipophilic antioxidant. In the budding yeast Saccharomyces cerevisiae, Q biosynthesis requires nine Coq proteins (Coq1-Coq9). Previous work suggests both an enzymatic activity and a structural role for the yeast Coq7 protein. To define the functional roles of yeast Coq7p we test whether Escherichia coli ubiF can functionally substitute for yeast COQ7. The ubiF gene encodes a flavin-dependent monooxygenase that shares no homology to the Coq7 protein and is required for the final monooxygenase step of Q biosynthesis in E. coli. The ubiF gene expressed at low copy restores growth of a coq7 point mutant (E194K) on medium containing a non-fermentable carbon source, but fails to rescue a coq7 null mutant. However, expression of ubiF from a multicopy vector restores growth and Q synthesis for both mutants, although with a higher efficiency in the point mutant. We attribute the more efficient rescue of the coq7 point mutant to higher steady state levels of the Coq3, Coq4, and Coq6 proteins and to the presence of demethoxyubiquinone, the substrate of UbiF. Coq7p co-migrates with the Coq3 and Coq4 polypeptides as a high molecular mass complex. Here we show that addition of Q to the growth media also stabilizes the Coq3 and Coq4 polypeptides in the coq7 null mutant. The data suggest that Coq7p, and the lipid quinones (demethoxyubiquinone and Q) function to stabilize other Coq polypeptides.
    MeSH term(s) Amino Acid Sequence ; Electrochemistry ; Escherichia coli Proteins/genetics ; Genetic Complementation Test ; Genetic Vectors ; Lipids ; Mitochondria/metabolism ; Mixed Function Oxygenases/genetics ; Models, Chemical ; Molecular Sequence Data ; Mutation ; Point Mutation ; Saccharomyces cerevisiae/genetics ; Sequence Homology, Amino Acid ; Ubiquinone/chemistry
    Chemical Substances Escherichia coli Proteins ; Lipids ; Ubiquinone (1339-63-5) ; Mixed Function Oxygenases (EC 1.-) ; UbiF protein, E coli (EC 1.14.-)
    Language English
    Publishing date 2006-04-19
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural
    ZDB-ID 2997-x
    ISSN 1083-351X ; 0021-9258
    ISSN (online) 1083-351X
    ISSN 0021-9258
    DOI 10.1074/jbc.M513267200
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  9. Article: Saccharomyces cerevisiae Coq9 polypeptide is a subunit of the mitochondrial coenzyme Q biosynthetic complex.

    Hsieh, Edward J / Gin, Peter / Gulmezian, Melissa / Tran, UyenPhuong C / Saiki, Ryoichi / Marbois, Beth N / Clarke, Catherine F

    Archives of biochemistry and biophysics

    2007  Volume 463, Issue 1, Page(s) 19–26

    Abstract: Coenzyme Q (Q) is a redox active lipid that is an essential component of the electron transport chain. Here, we show that steady state levels of Coq3, Coq4, Coq6, Coq7 and Coq9 polypeptides in yeast mitochondria are dependent on the expression of each of ...

    Abstract Coenzyme Q (Q) is a redox active lipid that is an essential component of the electron transport chain. Here, we show that steady state levels of Coq3, Coq4, Coq6, Coq7 and Coq9 polypeptides in yeast mitochondria are dependent on the expression of each of the other COQ genes. Submitochondrial localization studies indicate Coq9p is a peripheral membrane protein on the matrix side of the mitochondrial inner membrane. To investigate whether Coq9p is a component of a complex of Q-biosynthetic proteins, the native molecular mass of Coq9p was determined by Blue Native-PAGE. Coq9p was found to co-migrate with Coq3p and Coq4p at a molecular mass of approximately 1 MDa. A direct physical interaction was shown by the immunoprecipitation of HA-tagged Coq9 polypeptide with Coq4p, Coq5p, Coq6p and Coq7p. These findings, together with other work identifying Coq3p and Coq4p interactions, identify at least six Coq polypeptides in a multi-subunit Q biosynthetic complex.
    MeSH term(s) Electrophoresis, Polyacrylamide Gel ; Mitochondrial Membranes/chemistry ; Mitochondrial Proteins/chemistry ; Multienzyme Complexes/chemistry ; Saccharomyces cerevisiae/genetics ; Saccharomyces cerevisiae/metabolism ; Saccharomyces cerevisiae Proteins/chemistry ; Ubiquinone/biosynthesis ; Ubiquinone/chemistry
    Chemical Substances Coq9 protein, S cerevisiae ; Mitochondrial Proteins ; Multienzyme Complexes ; Saccharomyces cerevisiae Proteins ; Ubiquinone (1339-63-5) ; ubiquinone 9 (MGW7TYF2DQ)
    Language English
    Publishing date 2007-07-01
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural
    ZDB-ID 523-x
    ISSN 1096-0384 ; 0003-9861
    ISSN (online) 1096-0384
    ISSN 0003-9861
    DOI 10.1016/j.abb.2007.02.016
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  10. Article ; Online: Entamoeba histolytica induces intestinal cathelicidins but is resistant to cathelicidin-mediated killing.

    Cobo, Eduardo R / He, Chen / Hirata, Ken / Hwang, Grace / Tran, UyenPhuong / Eckmann, Lars / Gallo, Richard L / Reed, Sharon L

    Infection and immunity

    2011  Volume 80, Issue 1, Page(s) 143–149

    Abstract: The enteric protozoan parasite Entamoeba histolytica is the cause of potentially fatal amebic colitis and liver abscesses. E. histolytica trophozoites colonize the colon, where they induce inflammation, penetrate the mucosa, and disrupt the host immune ... ...

    Abstract The enteric protozoan parasite Entamoeba histolytica is the cause of potentially fatal amebic colitis and liver abscesses. E. histolytica trophozoites colonize the colon, where they induce inflammation, penetrate the mucosa, and disrupt the host immune system. The early establishment of E. histolytica in the colon occurs in the presence of antimicrobial human (LL-37) and murine (CRAMP [cathelin-related antimicrobial peptide]) cathelicidins, essential components of the mammalian innate defense system in the intestine. Studying this early step in the pathogenesis of amebic colitis, we demonstrate that E. histolytica trophozoites or their released proteinases, including cysteine proteinase 1 (EhCP1), induce intestinal cathelicidins in human intestinal epithelial cell lines and in a mouse model of amebic colitis. Despite induction, E. histolytica trophozoites were found to be resistant to killing by these antimicrobial peptides, and LL-37 and CRAMP were rapidly cleaved by released amebic cysteine proteases. The cathelicidin fragments however, did maintain their antimicrobial activity against bacteria. Degradation of intestinal cathelicidins is a novel function of E. histolytica cysteine proteinases in the evasion of the innate immune system in the bowel. Thus, early intestinal epithelial colonization of invasive trophozoites involves a complex interplay in which the ultimate outcome of infection depends in part on the balance between degradation of cathelicidins by amebic released cysteine proteinases and upregulation of proinflammatory mediators which trigger the inflammatory response.
    MeSH term(s) Animals ; Cathelicidins/biosynthesis ; Cathelicidins/immunology ; Cathelicidins/metabolism ; Cell Line ; Cell Survival ; Cysteine Proteases/metabolism ; Dysentery, Amebic/immunology ; Dysentery, Amebic/parasitology ; Dysentery, Amebic/pathology ; Entamoeba histolytica/enzymology ; Entamoeba histolytica/immunology ; Entamoeba histolytica/pathogenicity ; Epithelial Cells/immunology ; Epithelial Cells/parasitology ; Humans ; Immune Evasion ; Male ; Mice ; Mice, Inbred C3H ; Proteolysis
    Chemical Substances Cathelicidins ; Cysteine Proteases (EC 3.4.-)
    Language English
    Publishing date 2011-11-14
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural
    ZDB-ID 218698-6
    ISSN 1098-5522 ; 0019-9567
    ISSN (online) 1098-5522
    ISSN 0019-9567
    DOI 10.1128/IAI.05029-11
    Database MEDical Literature Analysis and Retrieval System OnLINE

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