Blanca L. Arroyo-Flores scite author profile

A mixed membrane fraction (MMF) was isolated from yeast cells of Candida albicans with the ability to synthesize dolichol phosphate mannose (Dol-PMan) from GDP-Man and dolichol phosphate (Dol-P) and transfer the sugar to proteins. Temperature of incubation (20-37 "C) did not affect the synthesis of Dol-P-Man but protein mannosylation occurred better at physiological temperatures (28 O C and 37 OC). Most of the sugar (87-93%) in the mannoproteins was O-linked as judged by its release by /?-elimination. Mannose was identified as the sole product after this treatment. Following incubation of MMF with the sugar donor, parallel levels of Dol-P-Man and mannosylated proteins were detected up to 30 min. Thereafter, Dol-P-Man levels reached a steady value whereas mannoproteins rapidly accumulated. Lipid-linked oligosaccharides were also detected in incubation mixtures, though in much lower amounts than those of Dol-P-Man or mannoproteins. Dol-P-Man synthase activity increased proportionally in response to increasing concentrations of either of the two enzyme substrates. A Km value of 0.36 pM for GDP-Man was calculated. MMF failed to use exogenous Dol-P-Man for protein glycosylation. Specific inhibition of Dol-P-Man synthesis with amphomycin was concomitant with a parallel decrease in protein mannosylation, indicating that most of the sugar is transferred to protein via the carrier lipid. Results are discussed in terms of the role of Dol-P-Man in protein glycosylation in C. albicans.

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Involvement of endothelial Man and Gal-binding lectins in sensing the flow in coronary arteries

Barajas-Espinosa

Ramiro-Diaz

Briones-Cerecero

et al. 2008

Front Biosci

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The coronary endothelial luminal membrane (CELM) glycocalyx has diverse molecules involved in blood flow signal transduction. Evidence suggests that some of these structures may be lectinic. To test this, we synthesized two monosaccharide polymers (Mon-Pols) made of Mannose (Man-Pol) or Galactose (Gal-Pol) covalently coupled to Dextran (70 kDa) and used them as lectin affinity probes. In situ intracoronary infusion of both polymers resulted in CELM-binding but only Man-Pol caused a reduction in flow-induced positive inotropism and dromotropism. To demonstrate that our lectinic probes could bind to CELM lectins, a representative CELM protein fraction was isolated via intracoronary infusion of a cationic silica colloid and either Mannose- or Galactose-binding lectins were purified from the CELM protein fraction using the corresponding Mon-Pol affinity chromatography resin. Resin-bound CELM proteins were eluted with the corresponding monosaccharide. 2D-SDS-PAGE (pH 4-7) revealed 9 Mannose- and approximately 100 Galactose-selective CELM lectins. In summary, the CELM glycocalyx contains Mannose- and Galactose-binding lectins that may be involved in translating coronary flow into a cardiac parenchymal response.

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Biosynthesis of glycoproteins in the pathogenic fungusCandida albicans: Activation of dolichol phosphate mannose synthase by cAMP-mediated protein phosphorylation

Arroyo-Flores¹,

Calvo-Méndez²,

Flores-Carreón³

et al. 2005

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Following incubation with ATP and a cAMP-dependent protein kinase under optimal conditions of lipid acceptor, phospholipid and metal ion requirements, the transfer activity of partially purified dolichol phosphate mannose synthase (DPMS) increased about 60% and this activation correlated with a 50% increase in V(max) with no alteration in the apparent K(m) for GDP-Manose. Phosphorylation with [gamma-(32)P]ATP resulted in the labeling of several polypeptides, one of which exhibited the molecular weight of the enzyme (30 kDa) and was also recognized using a specific anti-DPMS monoclonal antibody. This and the fact that the phosphate label could be removed by an alkaline phosphatase indicate that Candida DPMS may be regulated by phosphorylation-dephosphorylation, a mechanism that has been proposed for the enzyme in other organisms.

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Partial purification and characterization of a mannosyl transferase involved in O-linked mannosylation of glycoproteins in Candida albicans

Arroyo-Flores

Calvo-Méndez

Flores-Carreón

et al. 2004

Antonie Van Leeuwenhoek

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Incubation of a mixed membrane fraction of C. albicans with the nonionic detergents Nonidet P-40 or Lubrol solubilized a fraction that catalyzed the transfer of mannose either from endogenously generated or exogenously added dolichol-P-[14C]Man onto endogenous protein acceptors. The protein mannosyl transferase solubilized with Nonidet P-40 was partially purified by a single step of preparative nondenaturing electrophoresis and some of its properties were investigated. Although transfer activity occurred in the absence of exogenous mannose acceptors and thus depended on acceptor proteins isolated along with the enzyme, addition of the protein fraction obtained after chemical de-mannosylation of glycoproteins synthesized in vitro stimulated mannoprotein labeling in a concentration-dependent manner. Other de-mannosylated glycoproteins, such as yeast invertase or glycoproteins extracted from C. albicans, failed to increase the amount of labeled mannoproteins. Mannosyl transfer activity was not influenced by common metal ions such as Mg(2+), Mn(2+) and Ca(2+), but it was stimulated up to 3-fold by EDTA. Common phosphoglycerides such as phosphatidylglycerol and, to a lower extent, phosphatidylinositol and phosphatidylcholine enhanced transfer activity. Interestingly, coupled transfer activity between dolichol phosphate mannose synthase, i.e., the enzyme responsible for Dol-P-Man synthesis, and protein mannosyl transferase could be reconstituted in vitro from the partially purified transferases, indicating that this process can occur in the absence of cell membranes.

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Cardiac Ischemia and Ischemia/Reperfusion Cause Wide Proteolysis of the Coronary Endothelial Luminal Membrane: Possible Dysfunctions

Arroyo-Flores¹,

Chi‐Ahumada²,

Briones-Cerecero³

et al. 2011

TOCMJ

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Background:Ischemia and ischemia-reperfusion (I/R) are common clinical insults that disrupt the molecular structure of coronary vascular endothelial luminal membrane (VELM) that result in diverse microvasculature dysfunctions. However, the knowledge of the associated biochemical changes is meager. We hypothesized that ischemia and I/R-induced structural and functional VELM alterations result from biochemical changes. First, these changes need to be described and later the mechanisms behind be identified.Methods:During control conditions, in isolated perfused rat hearts VELM proteins were labeled with biotin. The groups of hearts were: control (C), no flow ischemia (I; 25 min), and I/R (I; 25 min, reperfusion 30 min). The biotinylated luminal endothelial membrane proteins in these three different groups were examined by 2-D electrophoresis and identified. But, it must be kept in mind the proteins were biotin-labeled during control.Results:A comparative analysis of the protein profiles under the 3 conditions following 2D gel electrophoresis showed differences in the molecular weight distribution such that MWC > MWI > MWI/R. Similar analysis for isoelectric points (pHi) showed a shift toward more acidic pHi under ischemic conditions. Of 100 % proteins identified during control 66% and 88% changed their MW-pHi during ischemia and I/R respectively. Among these lost proteins there were 9 proteins identified as adhesins and G-protein coupled receptors.General significance:I and I/R insults alter MW-pHi of most luminal glycocalyx proteins due to the activation of nonspecific hydrolizing mechanisms; suspect metalloproteases and glycanases. This makes necessary the identification of hydrolyzing enzymes reponsible of multiple microvascular dysfunctions in order to maintain the integrity of vascular endothelial membrane. VELM must become a target of future therapeutics.

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