Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.21.4 (trypsin)
42,187 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A new procedure was used to synthesize a derivative of ganglioside GM1 containing a photoreactive nitrophenyl azide group at the end of the fatty acyl moiety, using deAc-deAcyl-GM1 obtained by deacetylation of the sialic acid and deacylation of the ceramide portion of GM1. This deAc-deAcyl-GM1 was first acylated at the long chain base amino group with 12-aminododecanoic acid, which has the amino group protected by a fluorenyl residue, and tritium labeled at the sialic acid amino group with [3H]acetic anhydride of very high specific radioactivity. The fluorenyl group removed by ammonia treatment was substituted by a nitrophenyl azide group. Cultured human fibroblasts were exposed to mixtures of radioactive photolabeled GM1 and cold natural GM1 (1:10 by mol) for different times and then illuminated and the radioactive protein patterns studied by SDS-PAGE. After 2h of exposure, the photolabeled GM1 was stably associated to the cells and underwent almost no metabolic processing, behaving exactly as the underivatized natural GM1. Under these conditions very few proteins became radioactive: one, of about 30 kDa, interacted with the ganglioside molecules inserted into the outer membrane layer; three, in the region of 46 kDa, interacted with the portion of associated ganglioside able to be released by trypsin treatment. Thus, it is evident that the ganglioside binding to fibroblasts and insertion into the outer layer of the plasma membrane involve few individual proteins.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A photoreactive derivative of radiolabeled GM1 ganglioside: preparation and use to establish the involvement of specific proteins in GM1 uptake by human fibroblasts in culture. 270 71

Mouse epidermal cells (EC) are composed of at least two phenotypically discrete populations of cells that in epidermal sheets have a dendritic morphology: Ia+ Langerhans cells (LC) and dendritic, bone marrow-derived, Ia- cells that express Thy-1 antigen (Thy-1+ dEC). Thy-1+ dEC lack other typical T cell markers such as L3T4, Lyt-1, and Lyt-2; however they do express Ly-5 and asialo GM1 in common with NK cells and certain other leukocytes. To investigate the functional capabilities of Thy-1+ dEC in vitro, cell suspensions prepared from trypsin-disaggregated sheets of mouse body wall epidermis were first enriched to 8 to 20% Ia+ and 20 to 40% Thy-1+ cells by centrifugation over Isolymph and then were cultured for 2 to 10 days with Concanavalin A (Con A) and/or partially purified rat IL 2. Con A-induced proliferation of EC was readily seen, with the maximal response occurring at a Con A concentration of 2.5 micrograms/ml on day 5 of culture. Con A responses were significantly enhanced by the continuous presence of 1 microgram/ml indomethacin. Responses both in the presence and absence of Con A were significantly enhanced by the addition of 5 to 10 U/ml of partially purified rat IL 2; proliferation in cultures stimulated by both Con A and IL 2 continued to increase throughout the 10-day culture period. Culture of fluorescence-activated cell sorter (FACS)-separated EC suspensions revealed that Thy-1-depleted EC and irradiated Thy-1+ EC failed to proliferate in response to Con A and IL 2, whereas unirradiated purified Thy-1+ EC gave enhanced Con A- and IL 2-induced responses compared with the unseparated population. Finally, to distinguish between the proliferation of small numbers of mature peripheral T cells and that of Thy-1+ dEC, antibody and complement-depletion studies were conducted with an unusual monoclonal anti-Thy-1 reagent, 20-10-5S, and with the anti-T cell reagents, anti-L3T4 and anti-Lyt-2. Thy-1+ dEC, but not LC, express the 20-10-5S determinant; furthermore, in CBA (Thy-1.2) mice 20-10-5S reacts with Thy-1+ dEC, thymocytes, and peripheral T cells, whereas in AKR/J (Thy-1.1) mice, it reacts only with Thy-1+ dEC and thymocytes and not with peripheral T cells. Pretreatment of AKR/J EC with 20-10-5S and complement abolished the capacity of such cells to respond to Con A and to IL 2.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Thy-1+ epidermal cells proliferate in response to concanavalin A and interleukin 2. 287 Jan 20

A derivative of ganglioside GT1b (IV3NeuAc,II3(NeuAc)2-GgOse4) with an active ester in its lipid portion was synthesized and covalently attached to bovine serum albumin (BSA). The conjugate, having four GT1b molecules per albumin molecule [GT1b)4BSA) was radioiodinated and used to probe rat brain membranes for ganglioside binding proteins. A ganglioside-specific, high affinity (KD = 2-4 nM), saturable (Bmax = 13-20 pmol/mg membrane protein) binding site for 125I-(GT1b)4BSA was demonstrated on detergent-solubilized rat brain membranes adsorbed to filters. 125I-(GT1b)4BSA binding was tissue-specific (more than 35-fold greater to brain than to liver membranes) and was nearly eliminated by pretreatment of brain membrane-adsorbed filters with trypsin (1 microgram/ml). Underivatized gangliosides added as mixed detergent-lipid micelles blocked 125I-(GT1b)4BSA binding to brain membranes; structurally related GQ1b, GT1b, and GD1b were the most potent (half-maximal inhibition at 70-110 nM), while half-maximal inhibition by other gangliosides (GD3, GD1a, GM3, GM2, and GM1) required 5-20-fold higher concentrations. Other sphingolipids, neutral glycosphingolipids, and glycoproteins were poor inhibitors, and treatment of (GT1b)4BSA with neuraminidase attenuated its binding. Although most phospholipids were noninhibitory, phosphatidylinositol and phosphatidylglycerol inhibited half-maximally at 400-600 nM. However, inhibition of 125I-(GT1b)4BSA binding by gangliosides was competitive and reversible while that by phosphatidylinositol and phosphatidylglycerol was not. Ganglioside-protein conjugate binding reveals ganglioside-specific brain membrane receptors.
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PMID:Ganglioside-specific binding protein on rat brain membranes. 291 79

Microsomal membranes isolated from calf brain contain a sialidase which cleaves ganglioside substrates naturally occurring within these membranes as well as exogenously added [3H]ganglioside GD1a. Micelles of [3H]ganglioside GD1a bind to the microsomal membranes in two steps. The first step, called adsorption, is fast and reversible by treatment with trypsin; the second step, called uptake, is slower and not reversible. The product of the enzymic degradation, [3H]ganglioside GM1, is exclusively located in the ganglioside pool taken up by the sialidase-bearing membranes, and not in the trypsin-releasable pool. Electron spin resonance (ESR) studies using a spin-labelled analogue of ganglioside GD1a indicate that the ganglioside uptake by microsomal membranes is accompanied by the disappearance of the micellar structure and by the 'dilution' of the probe molecules with membrane lipids. These findings suggest that exogenously added ganglioside substrate inserts into the microsomal membrane before it is recognized as substrate by the membrane-bound sialidase. Therefore, the influence of pH, ionic strength and membrane-fluidizing agents on the degradation rate measured with exogenous ganglioside GD1a does not only reflect kinetic parameters of the enzymic reaction itself but also the velocity of ganglioside insertion. Increasing ionic strength reduces the degradation rate. The acceleration of insertion with falling pH values shifts the measured pH optimum of the ganglioside degradation to lower values (pH 3.6) and masks the substantial residual sialidase activity at pH 5-7. The membrane-fluidizing alcohol n-hexanol greatly accelerates ganglioside insertion as well as ganglioside degradation. The latter was clearly demonstrated by studying the hydrolysis of endogenous ganglioside substrates, and is due to a decrease of the apparent Km value and an increase in the Vmax value. The Vmax value was also enhanced by freezing and thawing of the microsomal membranes.
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PMID:The influence of ganglioside insertion into brain membranes on the rate of ganglioside degradation by membrane-bound sialidase. 299 92

Type II heat-labile enterotoxin (LT-II) of Escherichia coli has several biologic activities similar to cholera toxin (CT) and E. coli type I heat-labile enterotoxin (LT-I), but it is not neutralized by antiserum prepared against CT or LT-I. LT-II was purified from E. coli SA53 and from E. coli HB101(pCP3837), a strain that contains the cloned LT-II genes in a hybrid plasmid and produces up to 600 times more LT-II than does SA53. Purification involved sonic disruption of bacterial cells, ammonium sulfate fractionation, chromatography on Affi-Gel Blue, chromatofocusing, and gel filtration on Sephadex G-100. The LT-II purified to apparent homogeneity from HB101(pCP3837) had an isoelectric point of 6.8, induced increased vascular permeability in rabbit intracutaneous tests, caused rounding of cultured Y1 adrenal cells accompanied by increased intracellular cyclic AMP, and was 25 to 50 times more potent than CT or LT-I in the Y1 adrenal-cell assay. In contrast, purified LT-II did not cause secretion in ligated rabbit ileal segments at doses corresponding to CT controls that gave strongly positive reactions. LT-II was composed of two different polypeptides with MrS of 28,000 (A) and 11,800 (B); treatment of LT-II with trypsin cleaved the A polypeptide to fragments A1 (Mr, 21,000) and A2 (Mr, 7,000). The activity of LT-II was not blocked by ganglioside GM1 at concentrations that inactivated LT-I or CT. Antiserum against the LT-II from E. coli HB101(pCP3837) completely neutralized purified LT-II and the LT-II in crude extracts of SA53, but it did not neutralize purified LT-I or CT.
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PMID:Purification and characterization of type II heat-labile enterotoxin of Escherichia coli. 301 62

The involvement of gangliosides as receptors for Sendai virus was established previously using experimentally produced receptor-deficient cells. In the search for a naturally occurring counterpart, NCTC 2071 cells emerged as a likely candidate. These cells in their native state were not agglutinated nor infected by Sendai virus, but were infected by the virus when the gangliosides GD1a, GT1b, or GQ1b were supplied in the culturing medium. Preliminary analysis indicated that NCTC 2071 cells contained an unusually high ratio of sialoglycoproteins to gangliosides. A brief treatment of the cell surface with the protease trypsin made greater than 99% of the native monolayer susceptible to infection by the wild-type virus which contains the viral attachment protein HN. (Incubation of the trypsin-treated cells with a temperature-sensitive mutant missing HN produced no detectable infection.) The increased binding of cholera toxin, a ganglioside-specific probe, after incubation of the cells with trypsin and sialidase, was consistent with the hypothesis that gangliosides more complex than GM1 are on the surface of NCTC 2071 cells and that trypsin treatment increases their accessibility. The presence of receptor gangliosides in lipid extracts of NCTC 2071 cells was confirmed by thin-layer chromatography of the ganglioside fraction and by the binding of cholera toxin. These results demonstrate that cells containing receptor gangliosides may still be resistant to infection because these are not expressed properly at the cell surface as receptors for interaction with the HN protein of Sendai virus.
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PMID:Expression of gangliosides as receptors at the cell surface controls infection of NCTC 2071 cells by Sendai virus. 302 93

The potential involvement of gangliosides in the adherence and neurite extension of human neuroblastoma cells (Platt and La-N1) was investigated on tissue culture substrata coated with the ganglioside GM1-binding protein, cholera toxin B (CTB) subunit, for comparison with similar processes on plasma fibronectin (pFN)-coated substrata. Cells attached with reduced efficiency on CTB substrata as compared with pFN substrata and required a much longer time to form neurite processes for a small percentage of cells on CTB. The specificity of these processes for GM1 binding was tested in a variety of ways. Supplementation of the cells with exogenous GM1, but not GD1a, identified a larger population of cells adherent on CTB (comparable to pFN-adherent cells) and dramatically increased the proportion of cells capable of forming neurites without reducing the time requirement. In ultrastructural studies using the scanning electron microscope (SEM) and immunofluorescence (IF) analyses to discriminate microtubule distributions, neurites of GM1-supplemented cells on CTB were virtually identical with pFN-adherent neurites, whereas unsupplemented cells on CTB generated processes with fine-structural differences. Treatment of cells during the GM1 supplementation period with cycloheximide completely abolished the ability of cells to generate neurites on CTB and decreased the adhesive capacity of cells as well; a similar treatment of cells had no adverse effect on adherence or neurite extension on pFN. The importance of one or more proteins in GM1-dependent processes was further confirmed by demonstrating the trypsin sensitivity of a cell surface component(s) required to achieve maximal attachment on CTB; in contrast, adherence and neurite extension on pFN were much more resistant to this treatment process. Therefore, these experiments demonstrate that certain cell surface gangliosides are capable of mediating adherence and neurite outgrowth of human neuroblastoma cells on a suitable ganglioside-binding substratum; this ganglioside dependence is cooperative with one or more cell surface proteins which can now be analysed. These results are discussed in light of the identification in ref. [16] (Exp cell res 169 (1987) 311) of a second 'cell-binding' domain on the pFN molecule competent for adherence and neurite extension of these neuroblastoma cells, as well as the potential role of pFN binding to a complex ganglioside on the surface of these neural tumor cells in these processes.
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PMID:Cooperativity of ganglioside-dependent with protein-dependent substratum adhesion and neurite extension of human neuroblastoma cells. 310 72

In the present study we investigated some of the physicochemical properties of macrophage-activating factor(s) (MAF) produced by the tumor-immune Lyt-1+2- T cell subset. Supernatant from mixed culture of spleen and lymph node cells, obtained from C3H/HeN mice immunized with syngeneic MH134 hepatoma or MCH-1-A1 fibrosarcoma, with the corresponding tumor cells exhibited the capability of activating peritoneal exudate macrophages to exert their cytostatic and cytolytic activities on tumor cells. Such MAF production was abolished by treatment of tumor-immune spleen and lymph node cells with anti-Thy-1.2 or anti-Lyt-1.1 antibody plus complement (C) before culturing. Anti-Lyt-2.1 and/or anti-asialo GM1 plus C treatment, however, had only marginal effect on the generation of MAF by these cells, despite the complete disappearance of natural killer (NK) cell activity of spleen and lymph node cells after the treatment with anti-asialo GM1 plus C. Thus, the tumor-specific Lyt-1+2- T cell subset could fulfill a crucial role in generating MAF without the support of NK cells. The MAF activity was heat, acid, and trypsin sensitive. On Sephacryl S-300 column, MAF activity was eluated in a broad single peak around a molecular weight (m.w.) of 70,000 daltons. Antiviral activity was detected in the concentrated pool of MAF-containing fractions from Sephacryl S-300. Gel permeation analysis using HPLC also showed a coincident peak of MAF and antiviral activities at a m.w. of approximately 70,000 daltons. In addition, MAF activity was almost completely neutralized by incubation with rabbit antiserum against recombinant murine gamma-interferon (IFN gamma). Taken together, these results indicate that MAF generated by tumor-immune Lyt-1+2- T cell subset is closely related to IFN gamma.
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PMID:Studies on macrophage-activating factor (MAF) in antitumor immune responses. II. Molecular characterization of MAF produced by the tumor-immune Lyt-1+2- T cell subset. 311 13

The identification of microvascular pericytes in vitro relies principally on morphological characteristics and growth dynamics, as there is a paucity of immunochemical markers for these cells. Consequently, an attempt was made to identify mAb reagents that would aid in both the rapid identification and enrichment of retinal capillary pericytes in vascular cell cultures. A panel of mAbs raised by xenogeneic immunization of mice with various tissues was screened for immunoreactivity with dissociated cultures of bovine retinal capillary pericytes. Two antibodies from the panel (3G5 and HISL-8) were seen to react with pericytes by indirect immunofluorescence. The mAb 3G5 was selected for further study. mAb 3G5 did not react with dissociated cultures of smooth muscle cells, endothelial cells, or retinal pigmented endothelial cells. The pericyte 3G5 antigen was insensitive to the action of trypsin; therefore, mAb 3G5 was used to selectively purify pericytes from trypsinized mixed retinal cell cultures by flow cytometry. 3G5+ pericytes (representing 8% of cells in a mixed retinal cell culture) were enriched at least nine-fold to represent greater than 70% of cells. The mAb 3G5 stained retinal capillaries in vivo with a fluorescence distribution consistent with pericyte staining. The 3G5 antigen of cultured pericytes was found to be a glycolipid of mobility intermediate between ganglioside markers GM1 and GM2.
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PMID:A monoclonal antibody (3G5)-defined ganglioside antigen is expressed on the cell surface of microvascular pericytes. 335 33

Ganglioside GM2, 3H-labeled in the sphingoid base, was added to the culture medium of normal and GM2 gangliosidosis fibroblasts. Ganglioside was found to adsorb rapidly to the cell surface, most of it could however be removed by trypsination. The trypsin-resistant incorporation was about 10 nmol/mg cell protein, after 48 h. The rates of adsorption and incorporation depended strongly on the concentration of fetal calf serum in the medium, higher serum concentrations being inhibitory. After various incubation times, the lipids were extracted, separated by thin-layer chromatography and visualized by fluorography. In normal cells a variety of degradation products as well as sphingomyelin was found whereas in GM2 gangliosidosis cells, only trace amounts of such products (mainly GA2) were found. In contrast, the higher gangliosides GM1 and GD1a were formed in comparable amounts (2.2-3.6% of total radioactivity after 92 h) in normal and pathologic cell lines. Supplementation of cells from GM2 gangliosidosis, variant AB, with purified GM2-activator protein restored ganglioside GM2 degradation to almost normal rates but had no effect on its glycosylation to gangliosides GM1 and GD1a. From these results we conclude that the synthesis of higher gangliosides from incorporated GM2 can occur by direct glycosylation and not only via lysosomal degradation and resynthesis from [3H]sphinganine-containing degradation products. Preliminary studies with subcellular fractionation after various times of [3H]ganglioside incorporation indicated biphasic kinetics for the net transport of membrane-inserted ganglioside to lysosomes, compatible with the notion that a portion of the glycolipids can also escape from secondary lysosomes and migrate to Golgi compartment or cell surface.
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PMID:Incorporation and metabolism of ganglioside GM2 in skin fibroblasts from normal and GM2 gangliosidosis subjects. 392 57


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