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51.
Vélayoudom-Céphise Fritz-Line Rajaobelina Kalina Helmer Catherine Nov Sovanndany Pupier Emilie Blanco Laurence Hugo Marie Farges Blandine Astrugue Cyril Gin Henri Rigalleau Vincent 《Cardiovascular diabetology》2016,15(1):1-9
Type 1 diabetes is associated with increased cardiovascular disease (CVD). Decreased endothelial progenitor cells (EPCs) number plays a pivotal role in reduced endothelial repair and development of CVD. We aimed to determine if cardioprotective effect of metformin is mediated by increasing circulating endothelial progenitor cells (cEPCs), pro-angiogenic cells (PACs) and decreasing circulating endothelial cells (cECs) count whilst maintaining unchanged glycemic control. This study was an open label and parallel standard treatment study. Twenty-three type 1 diabetes patients without overt CVD were treated with metformin for 8 weeks (treatment group-TG). They were matched with nine type 1 diabetes patients on standard treatment (SG) and 23 age- and sex-matched healthy volunteers (HC). Insulin dose was adjusted to keep unchanged glycaemic control. cEPCs and cECs counts were determined by flow cytometry using surface markers CD45dimCD34+VEGFR-2+ and CD45dimCD133−CD34+CD144+ respectively. Peripheral blood mononuclear cells were cultured to assess changes in PACs number, function and colony forming units (CFU-Hill’s colonies). At baseline TG had lower cEPCs, PACs, CFU-Hills’ colonies and PACs adhesion versus HC (p < 0.001-all variables) and higher cECs versus HC (p = 0.03). Metformin improved cEPCs, PACs, CFU-Hill’s colonies number, cECs and PACs adhesion (p < 0.05-all variables) to levels seen in HC whilst HbA1c (one-way ANOVA p = 0.78) and glucose variability (average glucose, blood glucose standard deviation, mean amplitude of glycaemic excursion, continuous overall net glycaemic action and area under curve) remained unchanged. No changes were seen in any variables in SG. There was an inverse correlation between CFU-Hill’s colonies with cECs. Metformin has potential cardio-protective effect through improving cEPCs, CFU-Hill’s colonies, cECs, PACs count and function independently of hypoglycaemic effect. This finding needs to be confirmed by long term cardiovascular outcome studies in type 1 diabetes.
Trial registration ISRCTN26092132 相似文献
52.
Highly butanol‐tolerant strains have always been attractive because of their potential as microbial hosts for butanol production. However, due to the amphiphilic nature of 1‐butanol as a solvent, the relationship between the cell surface hydrophobicity and butanol resistance remained ambiguous to date. In this work, the quantitatively estimated cell surface hydrophobicity of 74 Lactic acid bacteria strains were juxtaposed to their tolerance to various butanol concentrations. The obtained results revealed that the strains’ hydrophobicity was inversely proportional to their butanol tolerance. All highly butanol‐resistant strains were hydrophilic (cell surface hydrophobicity<1%), whereas the more hydrophobic the strains were, the more sensitive to butanol they were. Furthermore, cultivation at increasing butanol concentrations showed a clear tendency to decrease the level of hydrophobicity in all tested organisms, thus suggesting possible adaptation mechanisms. Purposeful reduction of cell surface hydrophobicity (by removal of S‐layer proteins from the cell envelope) also led to an increase of butanol resistance. Since the results covered 23 different Lactic acid bacteria species of seven genera, it could be concluded that regardless of the species, the lower degree of cells’ hydrophobicity clearly correlates with the higher level of butanol tolerance. 相似文献
53.
Petrova N. V. Sazanova K. V. Medvedeva N. A. Shavarda A. L. 《Russian Journal of Bioorganic Chemistry》2019,45(7):906-912
Russian Journal of Bioorganic Chemistry - Metabolic analysis of methanol extracts of leaves of Prunella vulgaris L. (Lamiaceae) grown in a climate chamber has been carried out using gas... 相似文献
54.
Karyotypic features as well as larval and imaginal morphology have been studied in five species of the black fly genus Wilhelmia, viz. W. equina (Linnaeus, 1758), W. pseudequina (Seguy, 1921), W. lineata (Meigen, 1804), W. veltistshevi (Rubzov, 1940), and W. salopiensis (Edwards, 1927). Photomaps of polytene chromosomes are given for all species (those for W. pseudequina and W. veltistshevi, for the first time). Species-specific karyological and morphological characters have been revealed. According to principal karyological features, the species examined are divided into the equina and salopiensis groups. The validity of the species rank is confirmed for all species. Clear karyological and morphological distinctions between W. salopiensis and W. lineata give evidence that synonymization of W. salopiensis with W. lineata was erroneous. 相似文献
55.
Ouellet H Ranguelova K Labarre M Wittenberg JB Wittenberg BA Magliozzo RS Guertin M 《The Journal of biological chemistry》2007,282(10):7491-7503
In this work, we investigated the reaction of ferric Mycobacterium tuberculosis truncated hemoglobin O (trHbO) with hydrogen peroxide. Stopped-flow spectrophotometric experiments under single turnover conditions showed that trHbO reacts with H(2)O(2) to give transient intermediate(s), among which is an oxyferryl heme, different from a typical peroxidase Compound I (oxyferryl heme pi-cation radical). EPR spectroscopy indicated evidence for both tryptophanyl and tyrosyl radicals, whereas redox titrations demonstrated that the peroxide-treated protein product retains 2 oxidizing eq. We propose that Compound I formed transiently is reduced with concomitant oxidation of Trp(G8) to give the detected oxoferryl heme and a radical on Trp(G8) (detected by EPR of the trHbO Tyr(CD1)Phe mutant). In the wild-type protein, the Trp(G8) radical is in turn reduced rapidly by Tyr(CD1). In a second cycle, Trp(G8) may be reoxidized by the ferryl heme to yield ferric heme and two protein radicals. In turn, these migrate to form tyrosyl radicals on Tyr(55) and Tyr(115), which lead, in the absence of a reducing substrate, to oligomerization of the protein. Steady-state kinetics in the presence of H(2)O(2) and the one-electron donor 2,2'-azinobis(3-ethylbenzothiazoline-6-sulfonic acid) indicated that trHbO has peroxidase activity, in accord with the presence of typical peroxidase intermediates. These findings suggest an oxidation/reduction function for trHbO and, by analogy, for other Group II trHbs. 相似文献
56.
Ranguelova K Girotto S Gerfen GJ Yu S Suarez J Metlitsky L Magliozzo RS 《The Journal of biological chemistry》2007,282(9):6255-6264
Catalase-peroxidase (KatG) from Mycobacterium tuberculosis, a Class I peroxidase, exhibits high catalase activity and peroxidase activity with various substrates and is responsible for activation of the commonly used antitubercular drug, isoniazid (INH). KatG readily forms amino acid-based radicals during turnover with alkyl peroxides, and this work focuses on extending the identification and characterization of radicals forming on the millisecond to second time scale. Rapid freeze-quench electron paramagnetic resonance spectroscopy (RFQ-EPR) reveals a change in the structure of the initially formed radical in the presence of INH. Heme pocket binding of the drug and knowledge that KatG[Y229F] lacks this signal provides evidence for radical formation on residue Tyr(229). High field RFQ-EPR spectroscopy confirmed a tryptophanyl radical signal, and new analyses of X-band RFQ-EPR spectra also established its presence. High field EPR spectroscopy also confirmed that the majority radical species is a tyrosyl radical. Site-directed mutagenesis, along with simulations of EPR spectra based on x-ray structural data for particular tyrosine and tryptophan residues, enabled assignments based on predicted hyperfine coupling parameters. KatG mutants W107F, Y229F, and the double mutant W107F/Y229F showed alteration in type and yield of radical species. Results are consistent with formation of a tyrosyl radical reasonably assigned to residue Tyr(229) within the first few milliseconds of turnover. This is followed by a mixture of tyrosyl and tryptophanyl radical species and finally to only a tyrosyl radical on residue Tyr(353), which lies more distant from the heme. The radical processing of enzyme lacking the Trp(107)-Tyr(229)-Met(255) adduct (found as a unique structural feature of catalase-peroxidases) is suggested to be a reasonable assignment of the phenomena. 相似文献
57.
V. P. Zinchenko N. V. Goncharov V. V. Teplova V. A. Kasymov O. I. Petrova A. V. Berezhnov E. V. Senchenkov I. V. Mindukshev R. O. Jenkins A. S. Radilov 《Cell and Tissue Biology》2007,1(6):541-550
Mitochondrial aconitase has been shown to be inactivated under the effects of many compounds and critical states. Fluoroacetate (FA) is the best-known aconitase-inhibiting toxic agent. The biochemistry of the toxic action of FA has been rather well studied; however, no effective therapy has been developed over the past six decades. To search for new approaches to the development of possible antidotes, experiments were carried out in vitro with rat liver mitochondria, Ehrlich ascite tumor (EAT) cells, and cardiomyocytes exposed to FA or fluorocitrate (FC). FA produced its effects at much higher concentrations as compared with FC; in experiments with mitochondria these effects depended on respiratory substrates: with pyruvate, FA induced a slow oxidation and/or a leak of pyridine nucleotides and inhibition of respiration. Oxidation of pyridine nucleotides (PN) was prevented by the incubation of mitochondria with cyclosporin A. Studies of the PN level and dynamics of Ca2+ in EAT cells during activation by ATP also revealed the PN leak from mitochondria, which led to a shift in the balance of mitochondrial and cytosolic NAD(P)H under action of FA. Moreover, an increase of cytosolic Ca2+ was revealed in the cells exposed to FA, which could be explained by the activation of plasma membrane calcium channels. This mechanism could affect the amplitude and rate of calcium waves in cardiomyocytes under the effects of FA. We emphasize the reciprocal relationship between intracellular PN dynamics and calcium balance and discuss possible pathways of metabolic modulation in the context of development of effective therapy of poisoning with FA and other aconitase inhibitors. 相似文献
58.
Petrova S. Yu. Khlgatian S. V. Emel’yanova O. Yu. Pishulina L. A. Berzhets V. M. 《Russian Journal of Bioorganic Chemistry》2022,48(2):273-280
Russian Journal of Bioorganic Chemistry - Cow’s milk is one of the most common triggers of food allergies in children. It is believed that the main role in the development of clinical... 相似文献
59.
Rassokhin T. I. Golovin A. V. Petrova E. V. Spiridonova V. A. Karginova O. A. Rozhdestvenskii T. S. Brosius J. Kopylov A. M. 《Molecular Biology》2001,35(4):527-535
Both structural and thermodynamic studies are necessary to understand the ribosome assembly. An initial step was made in studying the interaction between a 16S rRNA fragment and S7, a key protein in assembling the prokaryotic ribosome small subunit. The apparent dissociation constant was obtained for complexes of recombinant Escherichia coliandThermus thermophilusS7 with a fragment of the 3" domain of the E. coli16S rRNA. Both proteins showed high rRNA-binding activity, which was not observed earlier. Since RNA and proteins are conformationally labile, their folding must be considered to correctly describe the RNA–protein interactions. 相似文献
60.