Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.22.32 (bromelain)
 1,025 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Four different proteases were screened for their capability of selectively digesting murine monoclonal IgGl to obtain active F(ab)2. For the screening, a series of five different mouse monoclonal antibodies (IgGl, k) was used, recognizing different tumor-associated antigens and currently used for radioimmunoimaging studies. The enzymes (pepsin, bromelain, ficin and elastase) showed different fragmentation capability and the fragments obtained showed different stability and immunoreactivity. No digestion was noticed using elastase. Pepsin gave discontinuous results, in that its activity ranged from reduction of IgG to small inactive fragments to an inability to digest the immunoglobulin. Pepsin activity was strongly pH-dependent and immunoreactivity of the obtained fragments was not always conserved. Bromelain and, in particular, ficin gave excellent results. Digestion was always rapid and stable, all five MAbs were reduced to F(ab)2 in a comparable time range and with high yields. Moreover, ficin-obtained F(ab)2 showed a highly conserved immunoreactivity. Therefore, ficin was selected as the murine monoclonal IgGl digestion enzyme to obtain active bivalent antibody fragments. The digestion procedure gave a uniform result for all five different MAbs and was easily scaled up to produce hundreds of milligrams of F(ab)2.
Mol Immunol
PMID:A new enzymatic method to obtain high-yield F(ab)2 suitable for clinical use from mouse IgGl. 201 Nov 30

Human monoclonal IgG1 and IgG3 antibodies specific for the Rh antigen D (anti-D) were tested for their ability to promote the binding of D-positive red cells to peripheral blood monocytes and Fc receptor (FcR)-bearing cell lines (U937, K562 and Daudi). Monocyte-mediated antibody-dependent cell-mediated cytotoxicity and metabolic (chemiluminescent) responses were also determined. By comparing the activity of different cell lines in rosette assays, and by using murine myeloma IgG2a and IgG1 to block FcRI and FcRII respectively, these functional interactions of sensitized red cells (E-IgG1 and E-IgG3) with monocytes or cell lines were shown to be mediated predominantly and perhaps solely by FcRI. E-IgG3 bound to human monocytes and cell lines to a greater extent than E-IgG1. Rosette formation by E-IgG3 was relatively less susceptible to inhibition by fluid-phase murine IgG2a than was rosette formation by E-IgG1. These findings may be due to the long hinge region of IgG3 which enables it to bridge the gap between two negatively charged cells more efficiently than IgG1. Consistent with this hypothesis was the greatly increased rosette formation achieved by treating monocytes or U937 cells with neuraminidase or bromelain, procedures shown to reduce the zeta potential of these cells. The lytic and metabolic activities of untreated human monocytes were also greater towards E-IgG3 than E-IgG1, red cell binding being a prerequisite for these responses. However, after pretreatment of monocytes with neuraminidase, these responses were greater with E-IgG1 than with E-IgG3. Further, the addition of polybrene to non-specifically enhance cell to cell binding also resulted in greater lysis and chemiluminescence with E-IgG1 than with E-IgG3. These results indicate that, although E-IgG3 are more effective than E-IgG1 in promoting red cell binding to monocytes, E-IgG1 are more efficient at activating the lytic and metabolic processes providing the steric disadvantages of the shorter hinge region of cell-bound IgG1 are circumvented.
Mol Immunol 1990 Mar
PMID:Functional interactions of red cells sensitized by IgG1 and IgG3 human monoclonal anti-D with enzyme-modified human monocytes and FcR-bearing cell lines. 211 55

We have previously described a series of Ly-1+ B cell lines obtained as spontaneous outgrowth cultures from mouse spleen cells (B-Ly1 cells). In this study, we report the variable region sequences utilized by independent cell lines derived from three mouse strains. Remarkably, V region utilization and junctional diversification were essentially identical in all three cell lines. These included: lambda 1 light chain; JH1; DSP2-7,8; and, a novel VH gene segement. The VH was highly homologous to CP4, a rare VH family previously found in a group of Ly-1 B cell-derived autoantibodies to bromelain-treated mouse red blood cells. The selective expression of this unusual lg species implies the action of distinctive molecular or immunophysiological processes in the outgrowth of B-Ly1 cell lines. Clarification of these factors may be relevant to understanding the peculiar biology of Ly-1 B cells in vivo. We have also evaluated switch-committed B-Ly1 clones to determine whether this phenotype is accompanied by variable region somatic mutation. However, no evidence for somatic mutation was observed in these induced clones. This may indicate that these two processes are independently regulated, despite their common concordance in vivo.
J Mol Cell Immunol 1989
PMID:Unique V gene usage by B-Ly1 cell lines, and a discordance between isotype switch commitment and variable region hypermutation. 278 28

The aim was to develop a cellular-ELISA assay to detect natural autoantibodies specific for bromelain-treated mouse red blood cells (BrMRBC). High, unexpected IgM titres against normal mouse red blood cells (NMRBC) were detected in day 7-14 sera of CBA mice treated with E. coli lipopolysaccharide (LPS). These "autoantibodies" bound to normal mouse red blood cells in the presence or absence of commonly used c-ELISA adhering agents. Such high reactivity to NMRBC was never detected using complement dependent haemolytic assays in earlier work in this system. The question whether these IgM alpha-NMRBC molecules were binding nonspecifically (via Fc) or specifically (via Fab) was answered indirectly by comparing the binding titres of LPS-stimulated serum and several purified IgM antibody preparations (alpha-PC, alpha-KLH, MOPC 104E) on the same antigen coated plates. The observed binding ratios (titre on antigen X: titre on NMRBC) varied widely between different antibody sources, indicative of specific binding. In addition no significant unequivocal binding against NMRBC could be detected in vivo (LPS-stimulated mice) nor could bound IgM antibody be detected in a suspension-c-ELISA assay (high binding titres to BrMRBC could be detected in the latter test system). In conventional c-ELISA assays, modification of normal erythrocyte by adhesion to plastic microtitre plates appears to expose or create "neoantigens" on NMRBC which are not encountered in suspension-type c-ELISA, nor in lytic or agglutination assays where the erythrocyte targets are in suspension at physiological pH and isotonicity.
Mol Immunol 1988 Jun
PMID:IgM anti-erythrocyte autoantibodies specific for buried and neo-antigens using cellular-ELISA assays. 317 55

An accurate three-dimensional structure is known for papain (1.65 A resolution) and actinidin (1.7 A). A detailed comparison of these two structures was performed to determine the effect of amino acid changes on the conformation. It appeared that, despite only 48% identity in their amino acid sequence, different crystallization conditions and different X-ray data collection techniques, their structures are surprisingly similar with a root-mean-square difference of 0.40 A between 76% of the main-chain atoms (differences less than 3 sigma). Insertions and deletions cause larger differences but they alter the conformation over a very limited range of two to three residues only. Conformations of identical side-chains are generally retained to the same extent as the main-chain conformation. If they do change, this is due to a modified local environment. Several examples are described. Spatial positions of hydrogen bonds are conserved to a greater extent than are the specific groups involved. The greatest structural similarity is found for the active site residues of papain and actinidin, for the internal water molecules and for the main-chain conformation of residues in alpha-helices and anti-parallel beta-sheet structure. This was reflected also in the similarity of the temperature factors. It suggests that the secondary structural elements form the skeleton of the molecule and that their interaction is the main factor in directing the fold of the polypeptide chain. Therefore, substitution of residues in the skeleton will, in general, have the most drastic effect on the conformation of the protein molecule. In papain and actinidin, some main-chain-side-chain hydrogen bonds are also strongly conserved and these may determine the folding of non-repetitive parts of the structure. Furthermore, we included primary structure information for three homologous thiol proteases: stem bromelain, and the cathepsins B and H. By combining the three-dimensional structural information for papain and actinidin with sequence homologies and identities, we conclude that the overall folding pattern of the polypeptide chain is grossly the same in all five proteases, and that they utilize the same catalytic mechanism.
J Mol Biol 1985 Mar 20
PMID:Thiol proteases. Comparative studies based on the high-resolution structures of papain and actinidin, and on amino acid sequence information for cathepsins B and H, and stem bromelain. 388 50

Cultured mouse peritoneal cells from unstimulated mice developed plaque-forming activity against isologous bromelain-treated erythrocytes. Several IgM monoclonal autoantibodies obtained by fusion of peritoneal cells from NZB or CBA origin with BALB/c myeloma cells were purified by affinity chromatography on trimethyl ammonium (TMA) column on the basis of their cross-reactivity with TMA, phosphorylcholine (PC) or choline haptens. Binding affinity for PC hapten was of the order of 10(3) M-1. Idiotypic studies with a polyclonal rabbit anti-idiotypic reagent revealed strong cross-reactions with all hybridoma autoantibodies thus far tested. In addition, the rabbit anti-idiotypic serum detected idiotypes or cross-reactive idiotypes in the sera of NZB and CBA as well as BALB/c mice. N-terminal amino acid sequence analyses of three hybridoma autoantibodies from NZB mice and one from CBA mice were carried out. The sequences of the first 32 residues of the four heavy chains showed that three were identical while one had one amino acid interchange; they belong to the VHIII-subgroup. The light chains were identical in the first 35 residues with the exception of a substitution at position 3 in two light chains and are members of the VK-9-subgroup. These results entirely support the idiotypic data. These monoclonal autoantibodies from NZB and CBA mice although isolated and eluted from PC-related haptens do not have any apparent structural nor idiotypic relationship to PC-specific antibodies. Idiotypic and V-region N-terminal sequence data suggest that these autoantibodies constitute a highly restricted family of molecules likely to be encoded by unique germ-line genes which may be expressed as such or as somatic variants in different mouse strains.
Mol Immunol 1985 May
PMID:Monoclonal autoantibodies against mouse red blood cells: a family of structurally restricted molecules. 389 36

A detailed analysis is presented of the small-angle neutron scattering curves of homogeneous solutions of influenza B virus, both intact and after treatment with bromelain, which removes the external glycoprotein spikes. The two sets of data are consistent with the following low-resolution structure: the virus particles are spherical, about 1200 A in diameter and of Mr about 180 X 10(6). The lipid bilayer is centred at a radius of 425 A, is 40 A to 50 A thick and constitutes 25% to 28% of the virus mass. The surface glycoproteins, predominantly haemagglutinin, contribute 40% to 46% of the total mass. Surprisingly little protein is found in the interior of the virus. It is suggested that the reason for this is that many particles do not contain the full complement of ribonucleoprotein complexes. These results are in good agreement with recent scanning transmission electron microscopic measurements of molecular mass and cryo-electron microscopic observations of the same preparations. Appendix 1 describes a new method of deriving spherical shell models from contrast variation neutron scattering data on viruses, in which scattering curves from all measured contrasts are used simultaneously. There is also a discussion of the assumptions and limitations implicit in the structural interpretation of such models, with emphasis on viruses containing lipid bilayers. Appendix 2 examines the effect on the scattering curves of various arrangements of the surface glycoproteins.
J Mol Biol 1985 Dec 05
PMID:Structure and composition of influenza virus. A small-angle neutron scattering study. 409 79

We have previously described a murine B-cell lymphoma, CH12, the cells of which bear surface IgM reactive with sheep erythrocytes (SRbc) and which could differentiate to secrete hemolytic antibody. The question addressed in this paper was whether differentiation of CH12 cells could be influenced by interaction with regulatory T cells and antigen. If so, we wanted to know whether the conditions required differed from those known to govern similar interactions with normal B cells. We had two reasons for wanting to answer these questions. First, we wondered whether CH12 could be used as a clonal population of indicator cells to study the regulation of B cell differentiation and, second, we wanted to know the extent to which these neoplastic cells were still responsive to normal regulatory signals. The first addresses a major difficulty which must be faced in studies of normal B cell differentiation: to what extent is the interpretation limited by heterogeneity of the B cells used? The second relates to the nature of neoplasia and the possibility that neoplastic cells might be rendered harmless by inducing terminal differentiation. CH12 is one of a series of transplantable B cell lymphomas which arose in B10.H-2aH-4b p/Wts (2a4b) mice, following intense immunization with SRbc. It is a monoclonal tumor, all the cells of which bear membrane IgM(kappa) of a single idiotype, reactive with sheep and chicken Rbc and with bromelain-treated autologous mouse Rbc. The cells express KkAkEk and Dd antigens appropriate to the H-2a haplotype. During the latter stages of growth in vivo or in vitro, a small proportion (less than 3%) of the cells differentiate to secrete hemolytic antibody as measured by the Cunningham assay for plaque forming cells (PFC). We cultured CH12 cells for 3 or 4 days, together with antigen and spleen cells from primed animals, and assayed for PFC induction. Differentiation was induced by spleen cells from SRbc primed 2a4b mice in the presence of SRbc or ChRbc but not rabbit or human erythrocytes. Activity was depleted by treatment of the spleen cells with anti-Thy-1 or anti-Lyt-1 but not anti-Lyt-2 plus complement. Helper cells could also be induced by priming 2a4b mice with ChRbc but not rabbit or human Rbc. Neither of these last two would induce differentiation of CH12, even when both homologous antigen and SRbc were present in the cultures.(ABSTRACT TRUNCATED AT 400 WORDS)
J Mol Cell Immunol 1984
PMID:Induced differentiation of a B cell lymphoma with known antigen specificity. 624 57

Rabbit antibody produced in response to the purified mitogenic glycoprotein lectin from Wistaria floribunda seeds (WFM) contains anti-carbohydrate antibody. This antibody, which represents 25% of the total antibody precipitated by the homologous antigen cross-reacts with the glycoprotein hemagglutinating lectins from Sophora japonica (SJL), W. floribunda (WFA) and the glycoprotein bromelain, but not the protein lectin from Maclura pomifera seeds. The cross-reactive reaction is totally abolished by the presence of glycopeptides obtained from SJL. Utilization of a fluorometric binding assay employing fluorescein derivatized glycopeptides from SJL, bromelain, fetuin and ovalbumin, it was found that the total anti-carbohydrate antibody population best reacts with the following carbohydrate structure: MAN alpha 1 leads to 6 MAN alpha 1 leads to 6 MAN beta 1 leads to 4 GLCNAC beta 1 leads to 4 GLCNAC beta 1 leads to Asn. Substitution of the beta-mannosyl moiety at position 3 results in structures not capable of binding to the anti-carbohydrate antibody. This antibody appears to distinguish between those glycan moieties of glycoproteins commonly found in animals from those lacking 3-O-substitution of the beta-mannosyl residue as found in some plant glycoproteins.
Mol Immunol 1983 Jul
PMID:Rabbit anti-carbohydrate antibody elicited by the lymphocyte mitogenic glycoprotein from Wistaria floribunda seeds. 641 71

Matrix ligands are agents for isolating proteins out of dilute crudes by coprecipitating proteins. The ligands have a strong anion sulfonate head which initiates binding to proteins having a positive net charge, ZH+ approximately 5-20. Initial binding tightens protein conformation and starts to squeeze water from conformationally motile proteins. The tails are stackable hydrophobic organic groups, azoaromatic dyes which draw protein-ligand complexes together. Proteins coprecipitate as guests, in the ligand host matrix. In addition to stacking, ligand tails displace water because of their bulk, and lower the average dielectric constant near charged groups, which reinforces the electrostatic component of binding. Matrix ligands protect proteins, scavenge them from dilute crudes (0.01-0.1 per cent protein), and densify coprecipitates. Detergent ions in low concentrations, 10(-4)-10(-5) M also sometimes serve as coprecipitating agents, entangling their tails but probably not stacking. Divalent metal ions, Zn++, sometimes are useful auxiliary agents. Preparative scaleability from crudes is demonstrated starting from 100-200 g of raw peanuts and raw pineapple to coprecipitate a lectin and bromelain enzyme respectively in 1-2 h with 80-90 per cent activity yields. Ligands are released from coprecipitates by shifting the pH and trapping the ligands with exchange resins. Protein conformation tightening in solution is seen by viscosity measurements.
J Mol Recognit
PMID:Coprecipitation of proteins with matrix ligands: scaleable protein isolation. 917 21


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