Identity of neutral alpha-glucosidase AB and the glycoprotein processing enzyme glucosidase II. Biochemical and genetic studies

We have previously partially purified, characterized, and chromosomally mapped a human isozyme of alpha-glucosidase which is active at neutral pH. This isozyme appears as a doublet of enzyme activity on native gel electrophoresis and was termed neutral alpha-glucosidase AB. We now report genetic and biochemical evidence that neutral alpha-glucosidase AB is synonymous with the glycoprotein processing enzyme glucosidase II. We have found that a mutant mouse lymphoma line which is deficient in glucosidase II is also deficient in neutral alpha-glucosidase AB, as defined electrophoretically and quantitatively (less than 0.5% of parental). In contrast, both mutant and parental cell lines exhibited several lysosomal hydrolases which are processed by glucosidase II. We have also further purified the human neutral alpha-glucosidase A component of neutral alpha-glucosidase AB 740-fold from placenta in order to compare its biochemical properties with those described for rat liver and pig kidney glucosidase II. Both glucosidase II and neutral alpha-glucosidase AB are high-molecular mass (greater than 200,000 dalton) anionic glycoproteins which bind to concanavalin A, have a broad pH optima (5.5-8.5), and have a similar Km for maltose (4.8 versus 2.1 mM) and the artificial substrate 4-methylumbelliferyl-alpha-D-glucopyranoside (35 versus 19 microM). Similar to human neutral alpha-glucosidase AB, purified rat glucosidase II migrates as a doublet of enzyme activity on native gel electrophoresis. Although rat glucosidase II has been reported to have a subunit size of 67 kDa, pig glucosidase II has been found to have a subunit size of 100 kDa, like the 98-kDa major protein in purified human neutral alpha-glucosidase A. Although we have not demonstrated that neutral alpha-glucosidase AB is microsomal nor that it hydrolyzes the natural substrate of glucosidase II, we believe that the genetic evidence is compelling for and the biochemical data consistent with the hypothesis that neutral alpha-glucosidase AB and glucosidase II are synonymous. These and previous results would localize glucosidase II to the long arm of human chromosome II.     

Metabolic pathway analysis of enzyme-deficient human red blood cells

Five enzymopathies (G6PDH, TPI, PGI, DPGM and PGK deficiencies) in the human red blood cells are investigated using a stoichiometric modeling approach, i.e., metabolic pathway analysis. Elementary flux modes (EFMs) corresponding to each enzyme deficiency case are analyzed in terms of functional capabilities. When available, experimental findings reported in literature related to metabolic behavior of the human red blood cells are compared with the results of EFM analysis. Control-effective flux (CEF) calculation, a novel approach which allows quantification and interpretation of determined EFMs, is performed for further analysis of enzymopathies. Glutathione reductase reaction is found to be the most effective reaction in terms of its CEF value in all enzymopathies in parallel with its known essential role for red blood cells. Efficiency profiles of the enzymatic reactions upon the degree of enzyme deficiency are obtained by the help of the CEF approach, as a basis for future experimental studies. CEF analysis, which is found to be promising in the analysis of erythrocyte enzymopathies, has the potential to be used in modeling efforts of human metabolism.     

An assay for leukoagglutinating lectins using suspension cultured mouse lymphoma cells (BW5147) stained with neutral red

A sensitive and rapid assay for leukoagglutinating lectins has been developed. This assay utilizes neutral red-stained mouse lymphoma cells from the suspension cultured cell line BW5147. The agglutination of the stained cells can be monitored visually in a manner similar to that for conventional assays for erythroagglutinating lectins using erythrocytes. The activity of lekoagglutinating lectins that are not capable of agglutinating erythrocytes can be quantified by this assay. The utility of the assay was demonstrated using leukoagglutinating and erythroagglutinating lectins from the seeds of Phaseolus vulgaris and Maackia amurensis.     

Transient expression of murine interferon-alpha genes in mouse and monkey cells

The coding regions of murine interferon-alpha (IFN-alpha) genes were combined with promoter and 3'-noncoding sequences from other eukaryotic genes. Transient expression of these fusion genes was achieved in monkey COS cells and in a mouse cell line (TOP cells) expressing polyoma virus (Py) large T antigen constitutively. The efficiency of the different expression plasmids was determined by measuring the amount of IFN secreted into the medium. Replacement of the 3'-noncoding region of an IFN-alpha gene by that of the rabbit beta-globin gene resulted in a fourfold higher IFN-alpha production. The SV40 early promoter and the Moloney murine leukemia virus (MoMLV) long terminal repeat (LTR) produced similar amounts of IFN-alpha in COS cells. However, a tandem combination of the SV40 enhancer/early promoter and the mouse metallothionein-I promoter appeared fivefold more active than the SV40 early promoter. In TOP cells the MoMLV LTR was found to be threefold more active than the Py early promoter.     

Characterization of the endomannosidase pathway for the processing of N-linked oligosaccharides in glucosidase II-deficient and parent mouse lymphoma cells.

Studies on N-linked oligosaccharide processing in the mouse lymphoma glucosidase II-deficient mutant cell line (PHAR2.7) as well as the parent BW5147 cells indicated that the former maintain their capacity to synthesize complex carbohydrate units through the use of the deglucosylation mechanism provided by endomannosidase. The in vivo activity of this enzyme was evident in the mutant cells from their production of substantial amounts of glucosylated mannose saccharides, predominantly Glc2Man; moreover, in the presence of 1-deoxymannojirimycin or kifunensine to prevent processing by mannosidase I, N-linked Man8GlcNAc2 was observed entirely in the form of the characteristic isomer in which the terminal mannose of the alpha 1,3-linked branch is missing (isomer A). In contrast, parent lymphoma cells, as well as HepG2 cells in the presence of 1-deoxymannojirimycin accumulated Man9GlcNAc2 as the primary deglucosylated N-linked oligosaccharide and contained only about 16% of their Man8GlcNAc2 as isomer A. In the presence of the glucosidase inhibitor castanospermine the mutant released Glc3Man instead of Glc2Man, and the parent cells converted their deglucosylation machinery to the endomannosidase route. Despite the mutant's capacity to accommodate a large traffic through this pathway no increase in the in vitro determined endomannosidase activity was evident. The exclusive utilization of endomannosidase by the mutant for the deglucosylation of its predominant N-linked Glc2Man9GlcNAc2 permitted an exploration of the in vivo site of this enzyme's action. Pulse-chase studies utilizing sucrose-D2O density gradient centrifugation indicated that the Glc2Man9GlcNAc2 to Man8GlcNAc2 conversion is a relatively late event that is temporally separated from the endoplasmic reticulum-situated processing of Glc3Man9GlcNAc2 to Glc2Man9GlcNAc2 and in contrast to the latter takes place in the Golgi compartment.     

Biological effect of mono- and dinuclear alkylamine platinum(II) compounds on human lymphoma cells

The effects of the mononuclear chloro[meso-1,2-bis(4-fluorophenyl)ethylenediamine][hexylamine]platinum(II) chloride HACl and the dinuclear di[meso-1,2-bis(4-fluorophenyl)ethylenediamine]dichloro(mu-1,n-diaminoalkane-N:N')diplatinum(II)dichloride complexes DAHCl (alkane:hexane), DANCl (alkane:nonane) and DADCl (alkane:dodecane) with different alkyl chain length (n) were investigated on non-Hodgkin's lymphoma (NHL) and chronic myeloid leukemia (CML) cell lines. All compounds showed an antiproliferative effect on the NHL cell lines RAJI and U-937 accompanied in the case of DANCl, DAHCl, HACl and cisplatin by an increase in apoptosis. The growth of another NHL (JEKO-1) and one CML cell line (K-562) was decreased only by cisplatin. In contrast to HACl, DAHCl, DANCl and cisplatin, DADCl induced necrosis, suggesting toxicity because cell viability decreased. Similar effects were observed when bone marrow-derived lymphoma cells from a patient with high-grade B-NHL were incubated with the platinum complexes.     

Inhibitory effects of pasuchaca (Geranium dielsiaum) extract on alpha-glucosidase in mouse

The methanolic extract of pasuchaca (Geranium dielsiaum) (PsEx) was found to suppress blood glucose elevation after oral administration of sucrose, maltose, and starch, but not after oral administration of glucose, in the mouse. In vitro examination of the inhibitory effect of PsEx on maltase activity revealed that PsEx strongly inhibited mouse small intestine maltase activity. Taken together, these results suggest that the inhibitory effect of PsEx on alpha-glucosidase activity might contribute to delay in carbohydrate digestion and subsequent lowering of the blood glucose level, thereby leading to prevention and cure of diabetes.     

Defective expression of mouse adenovirus Fl in human cells

HeLa cells infected with mouse adenovirus strain Fl ( AdFl ) produce at least 2000 times less virus than permissive mouse 3T3 cells. Viral DNA synthesis, however, proceeds unimpaired. The defect in virion production was linked to a dramatic reduction in the synthesis of AdFl structural proteins, in particular the hexon. The identity of the AdFl hexon gene product was recognized through its immunogenic reactivity towards an antiserum raised against the human adenovirus type 2 (Ad2) hexon gene product. This cross-reactivity is reflected in an extensive DNA sequence homology between AdFl and Ad2 DNA at position 53-60, the locus of the hexon gene, on the Ad2 physical map. Through hybridization at different formamide concentrations, the present study identifies one additional, highly conserved region at map positions 14-15 on the Ad2 genome.     

Asparagine-linked glycoprotein biosynthesis in rat brain: identification of glucosidase I, glucosidase II, and and endomannosidase (glucosyl mannosidase)

Previous studies from this laboratory provided evidence, largely based upon the presence of a novel alpha-D-mannosidase, suggesting that the biosynthesis of N-linked glycoproteins may be different in brain as compared to other tissues (Tulsiani, D. R. P., and Touster, O. (1985) J. Biol. Chem. 260, 13,081-13,087). In the present report we describe studies on the enzymes involved in early processing reactions. These studies indicate that the brain, like other tissues, contains glucosidases I and II. The two glucosidases were separated as distinct activities with some overlapping by chromatography on a DE-52 column. The differential inhibition studies and substrate specificity studies support our conclusion that, as in other tissues, rat brain glucosidase I cleaves alpha 1,2-linked terminal glucosyl residues, whereas glucosidase II prefers alpha 1,3-linked glucosyl residues. In addition to these two processing glucosidases, we have characterized an endo enzyme (glucosyl mannosidase) in rat brain. The endomannosidase cleaves a disaccharide (glucosyl alpha 1,3-mannose) from monoglucosylated oligosaccharides (GlcMan7-9GlcNAc). Little or no activity was observed when di- or triglucosylated oligosaccharide was used as a substrate. The pH optimum of the glucosyl mannosidase is 6.2-6.8. The enzyme appears to be an intrinsic microsomal membrane component, since washing of the microsomal membranes with salt solution did not release the enzyme in soluble form. A mixture of Triton X-100 and sodium deoxycholate is required for complete solubilization of the enzyme. The solubilized enzyme is eluted from a Bio-Gel A-1.5m column as a single peak with an apparent molecular weight of 380,000.     

The molecular heterogeneity of purified human liver lysosomal alpha-glucosidase (acid alpha-glucosidase).

An α-glucosidase active at acid pH and presumably lysosomal in origin has been purified from human liver removed at autopsy. The enzyme has both α-1,4-glucosidase and α-1,6-glucosidase activities. The K_m of maltose for the enzyme is 8.9 mm at the optimal pH of 4.0. The K_m of glycogen at the optimal pH of 4.5 is 2.5% (9.62 mm outerchain end groups). Isomaltose has a K_m of 33 mm when α-1,6-glucosidase activity is tested at pH 4.2. The enzyme exists in several active charge isomer forms which have pI values between 4.4 and 4.7. These forms do not differ in their specific activities. Electrophoresis in polyacrylamide gels under denaturing conditions indicates that the protein is composed of two subunits whose approximate molecular weights are 88,000 and 76,000. An estimated molecular weight of 110,000 was obtained by nondenaturing polyacrylamide gel electrophoresis. When the protein was chromatographed on Bio-Gel P-200 it was separated into two partially resolved active peaks which did not differ in their charge isomer constitution or in subunit molecular weights. One peak gave a strongly positive reaction for carbohydrate by the periodic acid-Schiff method and the other did not. Both had the same specific activity. The enzyme was antigenic in rabbits, and the antibodies so obtained could totally inhibit the hydrolytic action of the enzyme on glycogen but were markedly less effective in inhibiting activity toward isomaltose and especially toward maltose. Using these antibodies it was found that liver and skeletal muscle samples from patients with the “infantile” form or with the “adult” form of Type II glycogen storage disease, all of whom lack the lysosomal α-glucosidase, do not have altered, enzymatically inactive proteins which are immunologically cross-reactive with antibodies for the α-glucosidase of normal human liver.     

Seminal quality and neutral alpha-glucosidase activity after sequential electroejaculation of chinchilla (Ch. lanigera)

The objectives of this study of seminal quality of chinchilla (Chinchilla lanigera) males were to evaluate (1) the use of neutral alpha-glucosidase (NAG) as a functional epididymal marker in this species, and (2) the effects of repetitive electroejaculation on sperm function and seminal NAG concentration. Semen was obtained by electroejaculation from sexually mature domestic Ch. lanigera males (n=6) once a week for six consecutive weeks, and evaluated to assess seminal volume and NAG activity, and sperm concentration and functional activity (motility, viability, membrane and acrosome integrity). Body weight was determined in all animals before each electroejaculation procedure. NAG activity was detected in all semen samples obtained, reaching a concentration of 55.4±6.8μU/mL. No significant variations were observed throughout the experimental period in any of the semen quality parameters evaluated. A reduction (P=0.001) in body weight was detected from the third week of experimentation and by the end of the experiments the animals lost a 7.2±0.9% of body weight. Overall, results in the present study confirm that NAG activity is detectable in chinchilla seminal plasma and that repetitive electroejaculation is not deleterious, on a short-term basis, to the semen characteristics.     

Regulated expression of human growth hormone genes in mouse cells

We have asked whether there are sequences around the human growth hormone gene that render this gene responsive to induction by glucocorticoid hormones. Recombinant clones encoding human growth hormone were introduced into the chromosome of murine fibroblasts by cotransformation. Exposure of cotransformants to glucocorticoids results in a three to five fold induction of human growth hormone mRNA and a similar induction in secreted human growth hormone protein. The DNA sequences required for induction reside within 500 nucleotides of 5′-flanking DNA. Fusion of this segment of 5′-flanking DNA to the structural gene sequences of a hormone-insensitive gene, such as thymidine kinase, now renders this gene responsive to glucocorticoid induction.     

Transient expression of chicken antimicrobial peptides by mouse mammary carcinoma cells C127

Fowlicidin-3 and fowlicidin-1 are cathelicidin-type antimicrobial peptides found in chicken. They effectively inhibit the proliferation of many gram-positive and gram-negative bacteria. To obtain sufficient amounts of these peptides for possible use in therapeutic applications, DNA encoding each full-length gene, including all exons and introns, was fused to the β-casein promoter in a pBC1 vector that was then introduced into C127 cells. The full-length precursor proteins were expressed in response to a mixture of insulin, hydrocortisone, and prolactin. Processed fowlicidin-1 and fowlicidin-3, as well as their precursors, were found in the cell culture media, which suggested that they could be processed and secreted. These transgenic peptides had antibacterial activity. Thus, transfected C127 cells may serve as an in vitro transgenic cell system that can be used to evaluate if specific gene constructs can be efficiently expressed in the mammary glands of transgenic mice.     

Transient expression of human TorsinA enhances secretion of two functionally distinct proteins in cultured Chinese hamster ovary (CHO) cells

Cultured mammalian cells, particularly Chinese hamster ovary (CHO) cells, are widely exploited as hosts for the production of recombinant proteins, but often yields are limiting. Such limitations may be due in part to the misfolding and subsequent degradation of the heterologous proteins. Consequently we have determined whether transiently co‐expressing yeast and/or mammalian chaperones that act to disaggregate proteins, in CHO cell lines, improve the levels of either a cytoplasmic (Fluc) or secreted (Gluc) form of luciferase or an immunoglobulin IgG4 molecule. Over‐expression of the yeast ‘protein disaggregase’ Hsp104 in a CHO cell line increased the levels of Fluc more significantly than for Gluc although levels were not further elevated by over‐expression of the yeast or mammalian Hsp70/40 chaperones. Over‐expression of TorsinA, a mammalian protein related in sequence to yeast Hsp104, but located in the ER, significantly increased the level of secreted Gluc from CHO cells by 2.5‐fold and to a lesser extent the secreted levels of a recombinant IgG4 molecule. These observations indicate that the over‐expression of yeast Hsp104 in mammalian cells can improve recombinant protein yield and that over‐expression of TorsinA in the ER can promote secretion of heterologous proteins from mammalian cells. Biotechnol. Bioeng. 2010; 105: 556–566. © 2009 Wiley Periodicals, Inc.     

Biosynthesis of acid alpha-glucosidase in late-onset forms of glycogenosis type II (Pompe's disease)

Cultured human skin fibroblasts from control persons and from patients with the generalized and late-onset forms of Pompe's disease were labelled with radioactive leucine and the incorporation of radioactivity into acid alpha-glucosidase and cathepsin D was analysed by immunoprecipitation, gel electrophoresis and fluorography. When the labelling was carried out for 6-12 h in the presence of NH4Cl, the labelling of secreted alpha-glucosidase relative to that of secreted cathepsin D in fibroblasts from patients with the late-onset form of Pompe's disease was less than 15% of that in fibroblasts from control persons. However, when the fibroblasts were labelled for less than 1 h, the relative rate of incorporation of radioactivity into acid alpha-glucosidase was rather similar in the two types of fibroblasts. In fibroblasts from patients with the generalized form of Pompe's disease no incorporation of radioactivity into acid alpha-glucosidase could be detected.     

Transient expression of recombinant ACKR4 (CCRL1) gene,an atypical chemokine receptor in human embryonic kidney (HEK 293) cells

ACKR4 also called CCX-CKR, CCRL1 as a member of atypical chemokine receptors, regulates the biological responses by clearance or transporting homeostatic chemokines such as CCL19, CCL21, CCL25, and CXCL13. Since these chemokines are involved in cancer development and metastasis, ACKR4 could have inhibition roles in cancer cell proliferation and invasion. Forming complexes with chemokine receptors by ACKR4 as in the case of hCXCR3 which lead to chemotaxis prevention is the other function of this protein is. However, as an atypical chemokine receptor, ACKR4 is less well-characterized compared to other members. Here, as the first step in understanding the molecular mechanisms of ACKR4 action, transfectants in HEK293T cell, was generated. In this study, ACKR4 coding sequence was cloned and human embryonic kidney 293T cells were used for recombinant production of ACKR4 protein. The liposome-mediated transfection with ACKR4 CDs, were detected in ACKR4 positive cells as early as 48 h post-transfection. The production of ACKR4 protein was confirmed using RT-PCR, dot blot, western blot, and flow cytometry. ACKR4 may represent a novel molecular target in cancer therapy, which might provide a chance for new therapeutic strategy. Therefore, the first step in the understanding of the molecular mechanisms of ACKR4 action is generation ACKR4-HEK293T recombinant cells.