822 research outputs found

    Differences in collagen prolyl 4-hydroxylase assembly between two Caenorhabditis nematode species despite high amino acid sequence identity of the enzyme subunits

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    The collagen prolyl 4-hydroxylases (P4Hs) are essential for proper extracellular matrix formation in multicellular organisms. The vertebrate enzymes are α2β2 tetramers, in which the β subunits are identical to protein disulfide isomerase (PDI). Unique P4H forms have been shown to assemble from the <i>Caenorhabditis</i> <i>elegans</i> catalytic α subunit isoforms PHY-1 and PHY-2 and the β subunit PDI-2. A mixed PHY-1/PHY-2/(PDI-2)<sub>2</sub> tetramer is the major form, while PHY-1/PDI- 2 and PHY-2/PDI-2 dimers are also assembled but less efficiently. Cloning and characterization of the orthologous subunits from the closely related nematode <i>Caenorhabditis</i> <i>briggsae</i> revealed distinct differences in the assembly of active P4H forms in spite of the extremely high amino acid sequence identity (92-97%) between the <i>C. briggsae</i> and <i>C. elegans</i> subunits. In addition to a PHY-1/PHY-2(PDI-2)<sub>2</sub> tetramer and a PHY-1/PDI-2 dimer, an active (PHY- 2)<sub>2</sub>(PDI-2)<sub>2</sub> tetramer was formed in <i>C. briggsae</i> instead of a PHY-2/PDI-2 dimer. Site-directed mutagenesis studies and generation of inter-species hybrid polypeptides showed that the N-terminal halves of the <i>Caenorhabditis</i> PHY-2 polypeptides determine their assembly properties. Genetic disruption of <i>C. briggsae phy-1</i> (<i>Cb-dpy-18</i>) via a <i>Mos1</i> insertion resulted a small (short) phenotype that is less severe than the dumpy (short and fat) phenotype of the corresponding <i>C. elegans</i> mutants (<i>Ce-dpy-18</i>). <i>C. briggsae</i> <i>phy-2</i> RNA interference produced no visible phenotype in the wild type nematodes but produced a severe dumpy phenotype and larval arrest in <i>phy-1</i> mutants. Genetic complementation of the <i>C. briggsae</i> and <i>C. elegans</i> <i>phy-1</i> mutants was achieved by injection of a wild type <i>phy-1</i> gene from either species

    Prolyl 4-hydroxlase activity is essential for development and cuticle formation in the human infective parasitic nematode Brugia malayi

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    Collagen prolyl 4-hydroxylases (C-P4H) are required for formation of extracellular matrices in higher eukaryotes. These enzymes convert proline residues within the repeat regions of collagen polypeptides to 4-hydroxyproline, a modification essential for the stability of the triple helix. C-P4Hs are most often oligomeric complexes, with enzymatic activity contributed by the α subunits, and the ÎČ subunits formed by protein disulfide isomerase (PDI). Here we characterise this enzyme class in the important human parasitic nematode Brugia malayi. All potential C-P4H subunits were identified by detailed bioinformatic analysis of sequence databases, function was investigated both by RNAi in the parasite and heterologous expression in Caenorhabditis elegans, while biochemical activity and complex formation were examined via co-expression in insect cells. Simultaneous RNAi of two B. malayi C-P4H α subunit-like genes resulted in a striking, highly penetrant body morphology phenotype in parasite larvae. This was replicated by single RNAi of a B. malayi C-P4H ÎČ subunit-like PDI. Surprisingly however, the B. malayi proteins were not capable of rescuing a C. elegans α subunit mutant, whereas the human enzymes could. In contrast, the B. malayi PDI did functionally complement the lethal phenotype of a C. elegans ÎČ subunit mutant. Comparison of recombinant and parasite derived material indicates that enzymatic activity may be dependent on a non-reducible, inter-subunit cross-link, present only in the parasite. We therefore demonstrate that C-P4H activity is essential for development of B. malayi and uncover a novel parasite-specific feature of these collagen biosynthetic enzymes that may be exploited in future parasite control

    Protein disulfide isomerase activity is essential for viability and extracellular matrix formation in the nematode Caenorhabditis elegans.

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    Protein disulfide isomerase (PDI) is a multifunctional protein required for many aspects of protein folding and transit through the endoplasmic reticulum. A conserved family of three PDIs have been functionally analysed using genetic mutants of the model organism Caenorhabditis elegans. PDI-1 and PDI-3 are individually nonessential, whereas PDI-2 is required for normal post-embryonic development. In combination, all three genes are synergistically essential for embryonic development in this nematode. Mutations in pdi-2 result in severe body morphology defects, uncoordinated movement, adult sterility, abnormal molting and aberrant collagen deposition. Many of these phenotypes are consistent with a role in collagen biogenesis and extracellular matrix formation. PDI-2 is required for the normal function of prolyl 4-hydroxylase, a key collagen-modifying enzyme. Site-directed mutagenesis indicates that the independent catalytic activity of PDI-2 may also perform an essential developmental function. PDI-2 therefore performs two critical roles during morphogenesis. The role of PDI-2 in collagen biogenesis can be partially restored following complementation of the mutant with human PDI

    Biosynthesis and enzymology of the Caenorhabditis elegans cuticle: identification and characterization of a novel serine protease inhibitor.

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    The nematode Caenorhabditis elegans represents an excellent model in which to examine nematode gene expression and function. A completed genome, straightforward transgenesis, available mutants and practical genome-wide RNAi approaches provide an invaluable toolkit in the characterization of nematode genes. We have performed a targeted RNAi screen in an attempt to identify components of the cuticle collagen biosynthetic pathway. Collagen biosynthesis and cuticle assembly are multi-step processes that involve numerous key enzymes involved in post-translational modification, trimer folding, procollagen processing and subsequent cross-linking stages. Many of these steps, the modifications and the enzymes are unique to nematodes and may represent attractive targets for the control of parasitic nematodes. A novel serine protease inhibitor was uncovered during our targeted screen, which is involved in collagen maturation, proper cuticle assembly and the moulting process. We have confirmed a link between this inhibitor and the previously uncharacterized bli-5 locus in C. elegans. The mutant phenotype, spatial expression pattern and the over-expression phenotype of the BLI-5 protease inhibitor and their relevance to collagen biosynthesis are discussed

    Sandwich ELISA for quantitative detection of human collagen prolyl 4-hydroxylase

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    Background: We describe a method for specific, quantitative and quick detection of human collagen prolyl 4- hydroxylase (C-P4H), the key enzyme for collagen prolyl-4 hydroxylation, in crude samples based on a sandwich ELISA principle. The method is relevant to active C-P4H level monitoring during recombinant C-P4H and collagen production in different expression systems. The assay proves to be specific for the active C-P4H α2ÎČ2 tetramer due to the use of antibodies against its both subunits. Thus in keeping with the method C-P4H is captured by coupled to an anti-α subunit antibody magnetic beads and an anti-ÎČ subunit antibody binds to the PDI/ÎČ subunit of the protein. Then the following holoenzyme detection is accomplished by a goat anti-rabbit IgG labeled with alkaline phosphatase which AP catalyzes the reaction of a substrate transformation with fluorescent signal generation. Results: We applied an experimental design approach for the optimization of the antibody concentrations used in the sandwich ELISA. The assay sensitivity was 0.1 ng of C-P4H. The method was utilized for the analysis of C-P4H accumulation in crude cell extracts of E. coli overexpressing C-P4H. The sandwich ELISA signals obtained demonstrated a very good correlation with the detected protein activity levels measured with the standard radioactive assay. The developed assay was applied to optimize C-P4H production in E. coli Origami in a system where the C-P4H subunits expression acted under control by different promoters. The experiments performed in a shake flask fed-batch system (EnBaseÂź) verified earlier observations that cell density and oxygen supply are critical factors for the use of the inducer anhydrotetracycline and thus for the soluble C-P4H yield. Conclusions: Here we show an example of sandwich ELISA usage for quantifying multimeric proteins. The method was developed for monitoring the amount of recombinant C-P4H tetramer in crude E. coli extracts. Due to the specificity of the antibodies used in the assay against the different C-P4H subunits, the method detects the entire holoenzyme, and the signal is not disturbed by background expression of the separate subunits

    Aikuisena lÀhihoitajaksi : Miksi aikuinen hakeutuu opiskelemaan lÀhihoitajaksi ja mitÀ opiskelu merkitsee hÀnelle elÀmÀnmuutostilanteessa?

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    Tutkimuksen tarkoituksena oli selvittÀÀ, miksi aikuiset hakeutuvat opiskelemaan ja mitÀ opiskelu merkitsee heille. Tutkimuksessa haluttiin selvittÀÀ erityisesti, mitkÀ syyt aikuisten elÀmÀnkuluissa vaikuttivat opiskelemaan hakeutumiseen ja miksi aikuiset hakeutuivat juuri sosiaali- ja terveysalan perusopintoihin tavoitteena valmistua lÀhihoitajiksi. Toiseksi tutkimus selvitti, mitÀ opiskelu merkitsi aikuisille heidÀn elÀmÀnkulussaan ja elÀmÀnmuutostilanteessa. Tutkimuksen teoreettisessa viitekehyksessÀ tarkasteltiin yhteiskunnassa tapahtuvaa työelÀmÀn muutosta ja elinikÀistÀ oppimista sekÀ aikuisen elÀmÀnmuutostilanteita. LisÀksi tutkimuksessa kÀsitellÀÀn aikuisuutta, aikuista oppijana ja aikuiskoulutusta sekÀ sosiaali- ja terveysalan perusopintoja. KeskeistÀ tutkimuksessa oli tutkittavien omien henkilökohtaisten kokemusten esille tuominen opiskelemaan hakeutumisesta ja opiskelun merkityksistÀ, minkÀ vuoksi tutkimus toteutettiin laadullisin menetelmin. TiedonhankintamenetelmÀnÀ tutkimuksessa kÀytettiin teemahaastattelua ja tutkimuksen seitsemÀn haastattelua toteutettiin yksilöhaastatteluina. Tutkimuksen analyysi tehtiin pÀÀosin teemoittelua apuna kÀyttÀen. Analyysivaiheen teemat muodostuivat haastattelun teemojen pohjalta ja olivat: elÀmÀ ennen opintoja, opintoihin hakeutuminen, opiskeleminen, itse opiskelijana ja tulevaisuudensuunnitelmat. Teemoittelun lisÀksi tutkimuksen analyysivaiheessa kÀytettiin sisÀllönanalyysia. Tutkimukseen osallistuneiden aikuisten elÀmÀnkulut ennen sosiaali- ja terveysalan perusopintoihin hakeutumista olivat hyvin erilaisia. NÀin ollen myös erilaiset syyt vaikuttivat aikuisilla koulutukseen hakeutumiseen. Aikuisten elÀmÀnkuluista löytyviÀ syitÀ, jotka vaikuttivat koulutukseen hakeutumiseen oli mm. työttömyys, mieleisen ammatin etsiminen, omien lasten kasvaminen aikuisiksi, tauko työelÀmÀstÀ, asuinpaikan vaihtuminen, ikÀ sekÀ sosiaaliset ja taloudelliset syyt. Aikuisten elÀmÀnkulkuun liittyvÀt tapahtumat vaikuttivat myös siihen, mitÀ opiskelu merkitsi aikuisille. Opiskelulla oli mm. ammatillisia ja sosiaalisia merkityksiÀ sekÀ se toimi aikuisten identiteetin rakentajana. LisÀksi opiskelu merkitsi aikuisille myös erilaista nÀkökulmaa opiskelua kohtaan. Ammatillisen koulutuksen tavoite nÀhdÀÀn yleisesti vahvasti ammatillisen pÀtevyyden hankkimisessa, mikÀ tuli esille myös tÀssÀ tutkimuksessa. TÀmÀn lisÀksi tÀssÀ tutkimuksesta tuli esille myös se, ettÀ ammatillisella aikuiskoulutuksella on monia muitakin erityisen tÀrkeitÀ merkityksiÀ aikuisille, esimerkiksi aikuisten omaan hyvinvointiin liittyvÀt merkitykset. Tutkimuksesta tuli myös selkeÀsti esille, ettÀ ikÀ ja aikuisuus vaikuttavat omana erityispiirteenÀÀn opiskelussa, mikÀ tulisi ottaa huomioon aikuiskoulutuksen jÀrjestÀmisessÀ ja toteuttamisessa. Avainsanat: aikuinen, elÀmÀnkulku, elÀmÀnmuutostilanne, ammatillinen aikuiskoulutus, lÀhihoitajakoulutus, opiskelun merkity

    Current concepts of extracellular matrix

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    AbstractI dedicate this lecture to the memory of Professor Katsuyuki Fujii, MD. Early in his career Professor Fujii studied as a postdoctoral research fellow in my laboratory. He was one of my most outstanding students and has been acclaimed as a leader by the international orthopedic community

    Improved production of human type II procollagen in the yeast Pichia pastoris in shake flasks by a wireless-controlled fed-batch system

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    <p>Abstract</p> <p>Background</p> <p>Here we describe a new technical solution for optimization of <it>Pichia pastoris </it>shake flask cultures with the example of production of stable human type II collagen. Production of recombinant proteins in <it>P. pastoris </it>is usually performed by controlling gene expression with the strong AOX1 promoter, which is induced by addition of methanol. Optimization of processes using the AOX1 promoter in <it>P. pastoris </it>is generally done in bioreactors by fed-batch fermentation with a controlled continuous addition of methanol for avoiding methanol toxification and carbon/energy starvation. The development of feeding protocols and the study of AOX1-controlled recombinant protein production have been largely made in shake flasks, although shake flasks have very limited possibilities for measurement and control.</p> <p>Results</p> <p>By applying on-line pO<sub>2 </sub>monitoring we demonstrate that the widely used pulse feeding of methanol results in long phases of methanol exhaustion and consequently low expression of AOX1 controlled genes. Furthermore, we provide a solution to apply the fed-batch strategy in shake flasks. The presented solution applies a wireless feeding unit which can be flexibly positioned and allows the use of computer-controlled feeding profiles.</p> <p>By using the human collagen II as an example we show that a quasi-continuous feeding profile, being the simplest way of a fed-batch fermentation, results in a higher production level of human collagen II. Moreover, the product has a higher proteolytic stability compared to control cultures due to the increased expression of human collagen prolyl 4-hydroxylase as monitored by mRNA and protein levels.</p> <p>Conclusion</p> <p>The recommended standard protocol for methanol addition in shake flasks using pulse feeding is non-optimal and leads to repeated long phases of methanol starvation. The problem can be solved by applying the fed-batch technology. The presented wireless feeding unit, together with an on-line monitoring system offers a flexible, simple, and low-cost solution for initial optimization of the production in shake flasks which can be performed in parallel. By this way the fed-batch strategy can be applied from the early screening steps also in laboratories which do not have access to high-cost and complicated bioreactor systems.</p

    Structure of transmembrane prolyl 4-hydroxylase reveals unique organization of EF and dioxygenase domains

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    Prolyl 4-hydroxylases (P4Hs) catalyze post-translational hydroxylation of peptidyl proline residues. In addition to collagen P4Hs and hypoxia-inducible factor P4Hs, a third P4H—the poorly characterized endoplasmic reticulum–localized transmembrane prolyl 4-hydroxylase (P4H-TM)—is found in animals. P4H-TM variants are associated with the familiar neurological HIDEA syndrome, but how these variants might contribute to disease is unknown. Here, we explored this question in a structural and functional analysis of soluble human P4H-TM. The crystal structure revealed an EF domain with two Ca2+-binding motifs inserted within the catalytic domain. A substrate-binding groove was formed between the EF domain and the conserved core of the catalytic domain. The proximity of the EF domain to the active site suggests that Ca2+ binding is relevant to the catalytic activity. Functional analysis demonstrated that Ca2+-binding affinity of P4H-TM is within the range of physiological Ca2+ concentration in the endoplasmic reticulum. P4H-TM was found both as a monomer and a dimer in the solution, but the monomer–dimer equilibrium was not regulated by Ca2+. The catalytic site contained bound Fe2+ and N-oxalylglycine, which is an analogue of the cosubstrate 2-oxoglutarate. Comparison with homologous P4H structures complexed with peptide substrates showed that the substrate-interacting residues and the lid structure that folds over the substrate are conserved in P4H-TM, whereas the extensive loop structures that surround the substrate-binding groove, generating a negative surface potential, are different. Analysis of the structure suggests that the HIDEA variants cause loss of P4H-TM function. In conclusion, P4H-TM shares key structural elements with other P4Hs while having a unique EF domain.publishedVersio

    Accumulation of properly folded human type III procollagen molecules in specific intracellular membranous compartments in the yeast Pichia pastoris

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    It was recently reported that co-expression of the proal(III) chain of human type III procollagen with the subunits of human prolyl 4-hydroxylase in Pichia pastoris produces fully hydroxylated and properly folded recombinant type III procollagen molecules (Vuorela, A., Myllyharju, J., Nissi, R., Pihlajaniemi, T., Kivirikko, K.I., 1997. Assembly of human prolyl 4-hydroxylase and type III collagen in the yeast Pichia pastoris: formation of a stable enzyme tetramer requires coexpression with collagen and assembly of a stable collagen requires coexpression with prolyl 4-hydroxylase. EMBO J, 16, 6702-6712). These properly folded molecules accumulated inside the yeast cell, however, only similar to 10% were found in the culture medium. We report here that replacement of the authentic signal sequence of the human pro alpha 1(III) with the Saccharomyces cerevisiae alpha mating factor prepro sequence led only to a minor increase in the amount secreted. Immunoelectron microscopy studies indicated that the procollagen molecules accumulate in specific membranous vesicular compartments that are closely associated with the nuclear membrane. Prolyl 4-hydroxylase, an endoplasmic reticulum (ER) lumenal enzyme, was found to be located in the same compartments. Non-helical pro alpha 1(III) chains produced by expression without recombinant prolyl 4-hydroxylase likewise accumulated within these compartments, The data indicate that properly folded recombinant procollagen molecules accumulate within the ER and do not proceed further in the secretory pathway. This may be related to the large size of the procollagen molecule. (C) 2000 Elsevier Science B.V./International Society of Matrix Biology. All rights reserved
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