Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

High-performance anion-exchange chromatography (HPAEC) with pulsed-amperometric detection was used to monitor the consistency of the oligosaccharides released from several partially purified preparations of a tissue-type plasminogen activator mutant (TNK-tPA). Differences in the oligosaccharide map were observed, primarily in the neutral carbohydrate region of the separation. Subsequent investigations using matrix-assisted laser desorption ionization time-of-flight mass spectrometry (MALDI/TOF/MS) identified the neutral oligosaccharides to be primarily asialo-diantennary complex-type glycans with 2, 1, or 0 galactose residues. Additional asialo-triantennary and asialo-tetrantennary structures were also observed with varying amounts of galactose. Hydrolysis of the chromogenic substrate 4-methyl umbelliferyl-beta-galactoside confirmed that host-cell lysosomal beta-galactosidase is present at the first step in the purification process and is the cause of the observed glycan degradation. Subsequent steps in the purification process quantitatively remove this enzyme. Comparison of HPAEC and MALDI/TOF/MS analysis of time-course samples revealed quite similar rates of degradation and demonstrates the quantitative utility of these methods. HPAEC did not reveal significant changes in the sialylated structures as evidenced by nearly identical profiles for the sialic acid-containing structures.
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PMID:The use of high-performance anion-exchange chromatography and matrix-assisted laser desorption/ionization time-of-flight mass spectrometry to monitor and identify oligosaccharide degradation. 866 Jun 30

Elevated osmolality and pCO(2) have been shown to alter sialylation in a protein-specific manner. In Chinese hamster ovary (CHO)MT2-l-8 cells, tPA sialylation changed only slightly from 40 to 250 mm Hg pCO(2), whereas neural cell adhesion molecule polysialic acid (NCAM PSA) content decreased by up to 70% at 250 mm Hg pCO(2), pH 7.2. NCAM PSA content also decreased with increasing NaCl or NH(4)Cl concentration. This suggests that PSA content is a sensitive indicator of conditions that may alter glycosylation. Amino acids and their derivatives have been used to protect hybridoma and CHO cell growth under hyperosmotic stress. We examined the impact of osmoprotectants on NCAM PSA content in CHO MT2-1-8 cells under hyperosmolality (up to 545 mOsm/kg) and at 195 and 250 mm Hg pCO(2). NCAM PSA content at 545 mOsm/kg was at least two-fold greater in the presence of glycine betaine or L-proline compared to that without osmoprotectant. Surprisingly, in the presence of 20 mM glycine betaine, PSA levels were 50-60% of the control level for osmolalities ranging from 320 to 545 mOsm/kg. Thus, glycine betaine inhibits NCAM polysialylation at osmolalities below 435 mOsm/kg and is beneficial at higher osmolalities. In contrast to glycine betaine, L-proline increased PSA content by 25-120% relative to the unprotected culture at < or =545 mOsm/kg. The decrease in NCAM PSA levels of CHO MT2-1-8 cells cultured at 195 mm Hg pCO(2)-435 mOsm/kg was not mitigated by the presence of 25 mM glycine betaine, glycine, or L-threonine, even though all of these compounds enhanced cell growth. At 250 mm Hg pCO(2), all osmoprotectants tested (20 mM L-threonine, L-proline, glycine, or glycine betaine) increased NCAM polysialylation, with 20 mM glycine betaine restoring NCAM PSA to near control levels. Thus, osmoprotectants may (partially) offset changes in glycosylation, as well as the inhibition of growth, in cells under environmental stress. Supernatant beta-galactosidase levels, which increase upon alkalization of acidic organelles, did not differ significantly under elevated pCO(2) and hyperosmolality from that at control conditions.
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PMID:Effects of osmoprotectant compounds on NCAM polysialylation under hyperosmotic stress and elevated pCO(2). 1178 9

The effect of bcl-2 expression on cell viability and recombinant protein synthesis was investigated in the Spodoptera frugiperda Sf-9 and Trichoplusia ni BTI-Tn-5B1-4 (High Fivetrade mark) insect cell lines. It was found that coinfection with a baculovirus expressing bcl-2 [Autographa californica nuclear polyhedrosis virus (AcNPV)-bcl2] extended the life span of High Fivetrade mark cells but not Sf-9 cells when compared to infection with recombinant baculoviruses expressing either human tissue plasminogen activator (AcNPV-tPA) or Escherichia coli beta-galactosidase (AcNPV-betagal). Similar results were obtained in coinfection experiments; i.e., AcNPV-bcl2 coinfection increased the life span of High Fivetrade mark cells over that of cells infected with either AcNPV-tPA or AcNPV-betagal alone, but they did not affect the life span of coinfected Sf-9 cells. Coinfection of Sf-9 cells with AcNPV-bcl2 and AcNPV-betagal resulted in a decrease in the maximum beta-gal expression levels of over 90% when compared to infection with AcNPV-betagal alone. A similar trend was found in the beta-gal mRNA levels. Coinfection also resulted in a reduced beta-gal expression level in High Fivetrade mark cells, but the reduction was consistent with what would be expected when two recombinant viruses compete for use of the cellular machinery. In contrast to the inhibitory effect of AcNPV-bcl2 coinfection on betagal expression, t-PA expression levels were either not affected (Sf-9 cells) or were increased 50% (High Fivetrade mark cells) over those obtained by infection with AcNPV-tPA alone. These results support the hypotheses that bcl-2 can inhibit transcription of genes under polyhedrin promoter control and that beta-gal expression levels, but not t-PA expression levels, are controlled at the transcriptional level. (c) 1997 John Wiley & Sons, Inc. Biotechnol Bioeng 56: 380-390, 1997.
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PMID:bcl-2 expression in Spodoptera Frugiperda Sf-9 and Trichoplusia Ni BTI-Tn-5B1-4 insect cells: effect on recombinant protein expression and cell viability. 1864 41

Vein grafts are used to bypass coronary arterial stenosis, but many grafts thrombose soon after surgery. A model was developed in the pig to allow continuous measurement of blood flow and production of flow-restricting thrombi (cyclic flow reductions; CFRs). Saphenous vein lumen was exposed to adenovirus ex vivo, to over-express human tissue plasminogen activator (h-tPA), with beta-galactosidase adenovirus as a control. The vein segments were engrafted into carotid arteries and examined 0, 1 or 3 days later (4-7 animals/group). Untransduced grafts examined on the day of surgery developed repeated CFRs at both normal and restricted flow, but their frequency declined in grafts examined after 3 days. Adenovirus transduction was evident as beta-galactosidase or h-tPA expression 1 day after engraftment. Blood flow was increased 1.4-fold in h-tPA transduced grafts after 1 day [control 390 (280-510), h-tPA 550 (450-660) ml/min; p=0.02 (expressed as mean (95% confidence intervals)]. CFRs were less severe (p=0.002) in the h-tPA transduced grafts than beta-galactosidase-transduced grafts. CFRs were also less frequent in unstenosed undamaged h-tPA grafts [control 17 (6.1-29), h-tPA 7.6 (1.7-14) CFR/hr; p=0.02], but this difference was reduced after damage or stenosis. CFRs formed faster in h-tPA than in beta-galactosidase-transduced grafts [control 14 (11-17), h-tPA 23 (19-27) ml/min(2); p<0.001], and resolved twofold faster [control 25 (22-30), h-tPA 48 (39-60) ml/min(2); p<0.001]. Hence, in this model, local gene therapy with h-tPA increased graft blood flow and decreased measures of early graft thrombosis, namely quicker CFR resolution and decreased frequency and severity.
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PMID:Reduction of early vein graft thrombosis by tissue plasminogen activator gene transfer. 1957 59