Differential localization within human kidney of five membrane proteins expressed on acute lymphoblastic leukemia cells

The reactivity of a panel of monoclonal antibodies (MAb) produced against non-T, non-B acute lymphoblastic leukemia cells was investigated by immunoperoxidase staining of sections of normal human kidney. The antigens of kidney reactive with the MAb were isolated by immunoaffinity chromatography and were purified further by immunoprecipitation. Two MAb, 44D7 and 44H9, reacted with determinants found exclusively on the basolateral membranes of proximal convoluted tubules. The 44D7 antigen isolated from kidney was biochemically similar to that isolated from leukemic cells. It was resolved as a multimeric complex with an apparent m.w. of 120,000 when analyzed by SDS-PAGE under nonreducing conditions. The 44H9 antigen has not yet been purified from kidney. MAb 50B4 reacted with components of the interstitium and with the mesangium of glomeruli. It immunoprecipitated a polypeptide chain of apparent m.w. 85,000, similar to that of the 50B4 antigen isolated from leukemic cells. MAb 44G4 also reacted with the mesangium of glomeruli and with the interstitium of the kidney. However, the endothelium of glomerular capillaries and of interstitial blood vessels has also reacted with MAb 44G4. The kidney antigen recognized by MAb 44G4 was characterized as a major polypeptide band, 95,000 m.w. (reduced) and 125,000 m.w. (nonreduced), a subunit structure analogous to the 44G4 antigen isolated from leukemic cells. MAb 44E3 reacted with all cellular elements of glomeruli, tubules, blood vessels, and interstitium. Two polypeptide chains of apparent m.w. 94,000 and 90,000 were immunoprecipitated from kidney by MAb 44E3, while a single polypeptide chain of 94,000 m.w. was precipitated from leukemic cells. Our results describe five new antigens with distinctive cellular distributions within kidney.     

Identification of three antigens in human brain associated with similar antigens on human leukaemic cells.

Monoclonal antibodies prepared against a non-T and non-B acute-lymphocytic-leukaemia cell line were tested for reactivity against human brain tissue. Several of the monoclonal antibodies were found to react specifically with brain fractions. Three antigens, 44H4, 44D7 and 44D10, were identified in white matter. Although 44D10 was absent from grey matter, the levels of 44H4 and 44D7 antigens present in grey matter were 2- and 4-fold higher respectively than in white matter. Fractionation of white matter indicated that all three antigens were absent from the multilamellar compact myelin, but associated with a membrane fraction of higher density. All three antigens, which required detergent for solubilization from the membranes, were purified by affinity to monoclonal antibodies and/or were analysed by immunoblotting. The 44H4 and 44D10 antigens were single polypeptide chains with Mr 94000 and 80000 respectively when resolved by sodium dodecyl sulphate/polyacrylamide-gel electrophoresis. Monoclonal antibody 44D7 reacted with a complex of a Mr greater than 120000 under non-reducing conditions in the presence of sodium dodecyl sulphate. This complex dissociated on reduction into four bands with Mr values of 80000, 57000, 47000 and 41000. The brain antigens are present on proteins similar to, or identical with, those isolated from acute-lymphocytic-leukaemia cells.     

The human lymphocyte function-associated (HLFA) antigen and a related macrophage differentiation antigen (HMac-1): functional effects of subunit-specific monoclonal antibodies

The structural and functional relations between the alpha- and beta-subunits of the human lymphocyte function-associated antigen (HLFA) and the human Mac-1 antigen (HMac-1) have been analyzed with the use of five monoclonal antibodies that react with these proteins. The specificities of these antibodies were examined by immunoprecipitation of proteins from 125I-labeled cells and purified HLFA and HMac-1 antigens. Three antibodies reacted with the Mr 95,000 common beta-subunit of the proteins, and also co-precipitated the Mr 175,000 HLFA alpha-subunit, the Mr 165,000 HMac-1 alpha-subunit, and a third polypeptide alpha-subunit of Mr 150,000. The other antibodies were specific to noncross-reactive epitopes present on the alpha-subunits of HLFA or HMac-1. These specificities were confirmed in sequential immunoprecipitation studies. Peptide mapping showed that the beta-subunits of HLFA and HMac-1 were identical, whereas the two alpha-subunits differed considerably. The HLFA alpha-subunit-specific monoclonal antibody inhibited phytohemagglutinin stimulation, the mixed lymphocytes reaction, cytolytic T lymphocyte-mediated killing, and tetanus toxoid stimulation, but did not affect natural killer cell-mediated killing or complement receptor type 3 function. The HMac-1 alpha-subunit-specific monoclonal antibody inhibited complement receptor type 3 function but had no effect on T cell or natural killer cell functions. Three monoclonal antibodies to the beta-subunit inhibited all functions tested, including T cell, natural killer cell, and complement receptor type 3 activities. The results suggest that the functions of the HLFA and HMac-1 molecules may be determined by the alpha-subunit, and that the common beta-subunit also bears functionally important epitopes.     

Monoclonal antibodies to the glucose transporter from human erythrocytes. Identification of the transporter as a Mr = 55,000 protein

Using the preparation of purified glucose transporter from human erythrocytes as antigen, we have prepared and characterized six monoclonal antibodies. Three of these antibodies have been shown to be to the glucose transporter by several criteria: they immunoprecipitate the transport activity, the cytochalasin B binding activity, and 75% of the protein from the solubilized purified preparation. The remaining three antibodies were shown to recognize the same polypeptide by a Western blot procedure. All of the antibodies reacted with the deglycosylated transporter and are thus against peptide determinants; most bound to the cytoplasmic domain of the transporter. The antibodies exhibited a range of effects on cytochalasin B binding, from slight enhancement to modest inhibition to strong inhibition; for this reason they must bind to at least three different epitopes. Western blot analysis of erythrocyte membranes prepared in the presence of protease inhibitors showed that all six antibodies bound to a polypeptide of average Mr = 55,000. Moreover, by immunological assay this polypeptide accounted for 5.3% of the membranes protein, a value similar to that given by cytochalasin B binding. Thus, the proposal that the native transporter is a Mr = 100,000 polypeptide is highly unlikely. The antibodies also react with the glucose transporter in other human cell types, but not with that in rodent or avian cells.     

Masking of epitopes in tissue sections

Summary Antisera to chicken brain antigen (CBA) isolated by hydroxyapatite chromatography from 8 M urea extracts following repeated extractions with phosphate buffer selectively decorate neurofilaments (NF) in neuronal perikarya, dendrites and axons. The antisera also reacted with GFA protein, the astrocyte-specific intermediate filament protein, as indicated by the adsorption of NF immunoreactivity following passage of the antisera through columns prepared with purified GFA protein. Moreover, the antisera stained the polypeptides of the NF triplet (70 kd, 150 kd, 200 kd) and GFA protein by the immunoblotting procedure. Monoclonal antibodies selectively decorating NF in tissue sections were isolated from a fusion of mouse myeloma cells with spleen cells of mice immunized with CBA. By the immunoblotting procedure the antibodies decorated the 150 kd NF polypeptide and GFA protein. No staining of glial filaments or any other structure on tissue sections was also observed with antibodies derived from another fusion strongly reacting with GFA protein on immunoblots. All antibodies (monoclonal and polyclonal) appeared to react with the same region of the GFA polypeptide as indicated by immunoblots of cleavage products.     

Mevalonolactone inhibits the rate of synthesis and enhances the rate of degradation of 3-hydroxy-3-methylglutaryl coenzyme A reductase in rat hepatocytes

3-Hydroxy-3-methylglutaryl(HMG)-coenzyme A reductase purified from rat liver in the absence of protease inhibitors is composed of two distinct polypeptides of Mr = 51,000 and 52,500. Antibody raised to enzyme purified from rats fed a diet supplemented with cholestyramine and mevinolin inactivated HMG-CoA reductase. The antibody specifically precipitated a polypeptide of Mr = 94,000 from rat liver cells that had been previously incubated with [35S]methionine. The immunoprecipitation of the 35S-labeled polypeptide of Mr = 94,000 was prevented by addition of unlabeled pure HMG-CoA reductase (Mr = 51,000 and 52,500). Incubation of rat liver cells with mevalonolactone resulted in a decreased activity of HMG-CoA reductase and in a 40% decrease in the rate of incorporation of [35S]methionine into the immunoprecipitable reductase polypeptide of Mr = 94,000. In pulse-chase experiments, mevalonolactone enhanced the rate of degradation of the Mr = 94,000 polypeptide 3-fold. We propose that endogenous microsomal HMG-CoA reductase has a subunit of Mr = 94,000 and that the synthesis and degradation of this polypeptide are regulated by either mevalonolactone or, more likely, a product of mevalonolactone metabolism.     

Induction of complement-dependent and -independent neutralizing antibodies by recombinant-derived human cytomegalovirus gp55-116 (gB).

The human cytomegalovirus (HCMV) envelope glycoprotein complex gp55-116 was expressed in both Escherichia coli and cells infected with a recombinant vaccinia virus. E. coli produced a single protein of Mr 100,000 which approximated the size of the nonglycosylated gp55-116 precursor found in HCMV-infected cells. Cells infected with the recombinant vaccinia virus contained three intracellular forms of Mr 160,000, 150,000, and 55,000 which were detected by a monoclonal antibody reactive with gp55. Comparison of the immunological properties of these recombinant proteins indicated that several of the HCMV gp55-116 monoclonal antibodies and sera from patients infected with HCMV reacted with the vaccinia virus-derived proteins whereas a more restricted group of monoclonal antibodies recognized the E. coli-produced protein. Immunization of mice with either E. coli or vaccinia virus recombinant HCMV gp55-116 resulted in production of virus-neutralizing antibodies. In contrast to the almost exclusive production of complement-dependent neutralizing antibodies following immunization with recombinant vaccinia virus, the E. coli-derived protein induced complement-independent neutralizing antibodies.     

Identification, immunoaffinity purification and partial characterization of a human decidua-associated protein

A crude extract of pooled early-pregnancy decidual tissue was enriched for soluble decidual proteins by exhaustive affinity absorption with antibodies to human serum proteins immobilized on Eupergit C. The partly purified extract was used to prepare monoclonal antibodies. A monoclonal antibody was obtained recognizing an antigen present in extract of decidual tissue and not in extract of proliferative endometrium. The monoclonal antibody was used for immunoaffinity purification of the decidua-associated protein. By SDS-PAGE analysis, under reducing conditions it yielded 2 bands at apparent molecular weights of 55,000 and 25,000. Under non-reducing conditions a single protein band at apparent molecular weight of 200,000 was observed. The Mr 200,000 protein was named hDP200 and the Mr 55,000 protein was named hDP55. It is suggested that hDP55 is a subunit of the hDP200. The hDP200 did not react with polyclonal antibodies specific for PP12 and PP14. PP14 has been shown to be immunologically indistinguishable from PEP and alpha 2-PEG. Our data therefore suggest that hDP200 is a novel human decidua-associated protein.     

Purification and characterization of the human brain insulin receptor

The insulin receptor from human brain cortex was purified by a combination monoclonal antibody affinity column and a wheat germ agglutinin column. This purified receptor preparation exhibited major protein bands of apparent Mr = 135,000 and 95,000, molecular weights comparable to those for the alpha and beta subunits of the purified human placental and rat liver receptors. A minor protein band of apparent Mr = 120,000 was also observed in the brain receptor preparation. Crosslinking of 125I-insulin to all three receptor preparations was found to preferentially label a protein of apparent Mr = 135,000. In contrast, cross-linking of 125I-labeled insulin-like growth factor I to the brain preparation preferentially labeled the protein of apparent Mr = 120,000. The purified brain insulin receptor was found to be identical with the placental insulin receptor in the amount of neuraminidase-sensitive sialic acid and reaction with three monoclonal antibodies to the beta subunit of the placental receptor. In contrast, a monoclonal antibody to the insulin binding site recognized the placental receptor approximately 300 times better than the brain receptor. These results indicate that the brain insulin receptor differs from the receptor in other tissues and suggests that this difference is not simply due to the amount of sialic acid on the receptor.     

Characterization and sequence-specific binding to mouse mammary tumor virus DNA of purified activated human glucocorticoid receptor

Activated glucocorticoid receptor (GR) from the human cell line HeLa S3 was purified by differential chromatography on DNA-cellulose followed by DEAE-Sepharose chromatography to 50-60% homogeneity according to sodium dodecyl sulfate gel electrophoresis and densitometric scanning of silver-stained gels. These gels routinely demonstrated a main band of Mr 94,000 (94K band) and two minor bands of Mr 79,000 (79K band) and 39,000 (39K band), respectively. Photoaffinity labeling indicated that the hormone was bound to the 94K and 79K components. In some preparations, a 72K band was observed. Further characterization of the purified receptor by gel permeation chromatography on Sephadex G-200 revealed a receptor complex with a Stokes radius of 5.8 nm. The sedimentation coefficient of the purified receptor was 4.4 Sw. In analogy to the rat hepatic GR, limited proteolysis of the purified GR with trypsin or alpha-chymotrypsin led to degradation of the 94K and 79K components and appearance of 28K and 39K fragments, respectively. In addition, no difference in the protease digestion pattern using Staphylococcus aureus V8 protease was observed. Immunoblotting using a monoclonal antibody raised against the 94K GR from rat liver demonstrated cross-reactivity with the human 94K and 79K proteins from HeLa S3 cells, indicating similar antigenic characteristics between rat and human GR. In our study, five out of nine tested monoclonal antibodies against the rat liver GR cross-reacted with human GR. DNase I and exonuclease III protection experiments demonstrated binding of the purified human GR to specific GR binding regions in mouse mammary tumor virus DNA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Protein polymorphism of a human plasma apolipoprotein D antigenic epitope

Based on our previous observation that monoclonal antibody anti-apoD-4E11 reacted with several HDL proteins we studied them further with three questions in mind: i) is there common protein polymorphism in healthy individuals? ii) how many proteins are present and what are their characteristics? iii) are they all apolipoproteins and do they have the same lipoprotein distribution as apoD? Isolated, delipidated apoD was used as a standard for radioimmunometric assay of plasma with antibody 4E11. The antigen varied from 3 to 11 mumol-equivalents of apoD per liter of plasma (equivalent to 5-20 mg apoD/dl plasma) with means of 6.1 and 6.8 mumol/l in men and women, respectively. Two-dimensional electrophoresis of plasma found up to eight 4E11-antigenic-proteins of different Mr, each heterogeneous in pI. All plasmas tested contained apoD and an Mr 38,000 antigen, the latter being the most immunoreactive. Six proteins of Mr 70,000-94,000 were found, but the number varied between subjects. Eighty nine percent of the plasma antigen was associated with lipoproteins: 83% with HDL and VHDL, 5% with LDL and VLDL. Lipoproteins of all sizes, separated by polyacrylamide gradient gel electrophoresis, contained the antigen. ApoD was almost the only 4E11-antigen in LDL, and was in two states: the one free, the other an apoD-apoB mixed disulfide complex. The apparent proportions of higher Mr antigens increased with increasing lipoprotein density, and the proportion of apoD decreased reciprocally. None of these 4E11-antigenic-proteins cross-reacted with antiserum to retinol-binding protein.     

Apolipoprotein D and cross-reacting human plasma apolipoproteins identified using monoclonal antibodies

We have produced five hybridomas which secreted monoclonal antibodies that reacted with human plasma apolipoprotein D. On analysis by polyacrylamide gel electrophoresis (PAGE) high density lipoproteins and lecithin:cholesterol acyltransferase (EC 2.3.1.43)-enriched fractions of plasma contained many protein bands that reacted with the antibodies. Purified apolipoprotein D had the lowest Mr (29,000), the lowest pI (4.8-5.2), and the greatest migration on alkaline urea-PAGE of all the immunoreactive bands. These characteristics agreed with those described for apolipoprotein D in the literature. The other immunoreactive proteins had apparent Mr from about 39,000 to 98,000, they migrated more slowly than apolipoprotein D on alkaline urea-PAGE, and there were 10 polymorphs on isoelectric focusing. These cross-reacting proteins were present in the high density lipoproteins of each of four individuals sampled on several occasions and in pooled plasma. All of the monoclonal antibodies reacted both with apo-D and the higher Mr cross-reacting proteins. Each of our five monoclonal antibodies bound to one of two distinct antigenic sites on apo-D, determined by antibody competition immunoassays. Neither of these two sites was composed of carbohydrate, but expression of both sites seemed to be influenced by thiol-reducing agents: site 5G10 gained but 4E11 either lost immunoreactivity or was unchanged by reduction according to the conditions. We conclude that apolipoprotein D is only one of several plasma proteins, which contain two homologous polypeptide antigenic sites, recognized by monoclonal antibodies and also by a specific goat antiserum. Apolipoprotein D had the least Mr of these proteins.     

Monoclonal antibodies against the 1,4-dihydropyridine receptor associated with voltage-sensitive Ca2+ channels detect similar polypeptides from a variety of tissues and species

Four monoclonal antibodies have been raised against voltage-sensitive Ca2+ channel dihydropyridine receptors from rabbit skeletal muscle. When tested by immunoblot assay of denatured transverse tubule membranes in reducing polyacrylamide gels, each recognised a single polypeptide of Mr approximately 140,000 that co-migrated with the large glycoprotein subunit of the purified receptor. In blots of nonreducing gels, a larger protein of Mr approximately 170,000 was seen and three of the antibodies recognised additional components at Mr approximately 310,000 and approximately 330,000. Crossreactive material of similar molecular mass was also seen in rabbit heart and brain, and in the skeletal muscle of other species.     

Detection of caldesmon in muscle and non-muscle tissues of the chicken using polyclonal antibodies

Polyclonal antibodies raised in rabbits against chicken gizzard caldesmon have been purified and used in immunoblotting experiments to study the distribution of this actin- and calmodulin-binding protein in diverse tissues of the chicken. Total homogenates and heat-treated homogenate supernatants derived from each tissue were subjected to sodium dodecyl sulfate-polyacrylamide gradient slab gel electrophoresis and immunoblotting using the horseradish peroxidase method. All chicken tissues examined contained caldesmon of Mr = 141,000. The amount of caldesmon found in the different tissues varied considerably and semi-quantitative comparison of stained immunoblots indicated the following relative caldesmon contents: gizzard greater than oesophagus greater than duodenum = small intestine greater than lung greater than aorta greater than heart = skeletal muscle greater than kidney = trachea greater than brain greater than liver. Each tissue revealed small amounts of lower Mr immunoreactive proteins, predominantly bands of Mr 94,000 and 70,000, which appear to be proteolytic fragments of caldesmon. Isolated caldesmon was found to be highly sensitive to proteolysis. The widespread distribution and similarity of caldesmon in different tissues of the chicken suggest its functional importance and structural conservation.     

Association of the Mr 58,000 postsynaptic protein of electric tissue with Torpedo dystrophin and the Mr 87,000 postsynaptic protein.

Dystrophin was purified by immunoaffinity chromatography from detergent-solubilized Torpedo electric organ postsynaptic membranes using monoclonal antibodies. A major doublet of proteins at Mr 58,000 and minor proteins at Mr 87,000, Mr 45,000, and Mr 30,000 reproducibly copurified with dystrophin. The Mr 58,000 and Mr 87,000 proteins were identical to previously described peripheral membrane proteins (Mr 58,000 protein and 87,000 protein) whose muscle homologs are associated with the sarcolemma (Froehner, S. C., Murnane, A. A., Tobler, M., Peng, H. B., and Sealock, R. (1987) J. Cell Biol. 104, 1633-1646; Carr, C., Fischbach, G. D., and Cohen, J. B. (1989) J. Cell Biol. 109, 1753-1764). The copurification of dystrophin and Mr 58,000 protein was shown to be specific, since dystrophin was also captured with a monoclonal antibody against the Mr 58,000 protein but not by several control antibodies. The Mr 87,000 protein was a major component (along with the Mr 58,000 protein) in material purified on anti-58,000 columns, suggesting that the Mr 58,000 protein forms a distinct complex with the Mr 87,000 protein, as well as with dystrophin. Immunofluorescence staining of skeletal and cardiac muscle from the dystrophin-minus mdx mouse with the anti-58,000 antibody was confined to the sarcolemma as in normal muscle but was much reduced in intensity, even though immunoblotting demonstrated that the contents of Mr 58,000 protein in normal and mdx muscle were comparable. Thus, the Mr 58,000 protein appears to associate inefficiently with the sarcolemmal membrane in the absence of dystrophin. This deficiency may contribute to the membrane abnormalities that lead to muscle necrosis in dystrophic muscle.     

降钙素原的原核表达及单克隆抗体制备

目的:高效表达与纯化可溶性重组人PCT蛋白,制备高灵敏度和高特异性的抗人PCT医用诊断单克隆抗体。方法:大肠杆菌表达重组人PCT蛋白后,利用饱和硫酸铵沉淀和亲和层析方法纯化PCT蛋白后,经质谱、Western blot和间接ELISA法进行性质鉴定和分析重组蛋白的表达与免疫反应性;重组蛋白免疫小鼠,经细胞融合及筛选制备抗PCT单克隆抗体(m Ab)。结果:在大肠杆菌中高效表达了人PCT蛋白;重组人PCT蛋白具有良好的免疫反应性与免疫原性;经筛选获得7株抗PCT单克隆抗体细胞株,经ELISA鉴定,筛选抗体可与PCT抗原有良好的特异性反应。结论:利用重组人PCT蛋白免疫制备了抗人PCT单克隆抗体,为进一步研发PCT快速诊断试剂提供了原料。     

Identification and partial characterization of human platelet C1q binding sites

We recently showed that human blood platelets bind the complement component, C1q, and mAb directed against lymphoblastoid C1q receptors in a specific and saturable manner. To identify and further characterize platelet C1q binding sites, human platelets were washed, solubilized in Triton X-100 and either subjected to SDS-PAGE and Western blotting by using monoclonal (II1/D1) and polyclonal antibodies recognizing C1qR on lymphoblastoid cells, or applied to a C1q-Sepharose affinity column under low ionic strength conditions (20 mM NaCl). Adherent proteins were eluted with buffer containing 300 mM NaCl. Western blotting with monoclonal and polyclonal antibodies directed against C1qR showed exclusive reactivity with a 67,000 m.w. protein possessing intrachain disulfide bonds. SDS-PAGE of C1q-Sepharose eluates also revealed the presence of a 67,000 protein which was accompanied to varying degrees by a 94,000 constituent. Because similar m.w., 125I-labeled proteins were recovered from C1q-Sepharose columns to which lysed, surface-labeled platelets had been applied, both 94,000 and 67,000 components appear to be platelet membrane constituents. The 94,000 and 67,000 species, however, appear to be antigenically distinct. The 94,000 protein was immunoprecipitated by polyclonal antibodies against platelet membrane glycoprotein IIIa but not polyclonal antibodies against C1qR, whereas the 67,000 protein was immunoprecipitated exclusively by the polyclonal anti-C1qR antibody. The 67,000 protein thus appears to represent platelet C1q binding sites resembling C1qR on lymphoblastoid cells.     

Identification and characterization of the ligand binding subunit of a kainic acid receptor using monoclonal antibodies and peptide mapping

Monoclonal antibodies (mAb) and a polyclonal antiserum were produced against a kainic acid receptor (KAR) purified from frog brain. Several of the mAb and the antiserum immunoprecipitated [3H]kainic acid binding activity from solubilized preparations of frog brain and labeled a group of proteins on immunoblots that migrated at Mr = 48,000. These results confirm that the ligand binding subunit of the frog brain KAR is contained in the Mr = 48,000 proteins. Immunoblots from different frog tissues demonstrated that the antibody reactivity was highly concentrated in the frog nervous system with no detectable immunoreactivity observed in non-neuronal tissues. The purified KAR was radioiodinated and subjected to two-dimensional gel electrophoresis and autoradiography. A series of proteins was detected at Mr = 48,000 with isoelectric points from 5.5 to 6.3. The anti-KAR mAb and the antiserum reacted with the same group of proteins from frog whole brain after separation by two-dimensional gel electrophoresis. Peptide maps of the 125I-labeled KAR separated by two-dimensional gel electrophoresis demonstrated that the group of proteins clustered at Mr = 48,000 is homologous. mAb KAR-B1 reacted on immunoblots with a protein in rat brain with a Mr = 99,000. This protein comigrated with an unreduced form of the KAR in frog brain. It was present in rat cerebral cortex, hippocampus, and cerebellum but was not detected in thalamus, globus pallidus, or brain stem, nor was it detected in rat non-neuronal tissues. The presence of the Mr = 99,000 immunoreactive polypeptide in discrete areas of rat brain suggests that this protein may be part of a mammalian KAR or a related receptor.     

Thrombin-stimulated elevation of human endothelial-cell cytoplasmic free calcium concentration causes prostacyclin production.

The nucleoside transporter has been purified by passage of a preparation of human erythrocyte-membrane band-4.5 proteins through a column of immobilized antibodies specific for the glucose transporter. This procedure removed greater than 99.8% of the glucose transporters and achieved an approx. 18-fold purification of the nucleoside transporter, constituting a 478-fold purification from erythrocyte membranes. The isolated protein migrated as a single broad band of average apparent Mr 55,000 on SDS/polyacrylamide gels and bound approx. 0.6 mol of nitrobenzylthioinosine/mol of polypeptide, with a Kd of 1.1 +/- 0.14 (S.E.M.) nM. Upon reconstitution into large unilamellar phospholipid vesicles it catalysed the uptake of uridine with an apparent specific activity 6-fold greater than that of the unfractionated band-4.5 proteins. Furthermore, the purified nucleoside transporter was not labelled on Western blots by monoclonal antibody raised against the glucose transporter. It is concluded that the nucleoside transporter has been purified to near homogeneity.     

Determination and validation of off-target activities of anti-CD44 variant 6 antibodies using protein biochips and tissue microarrays

We describe a novel procedure for determination and validation of off-target activities of anti-cluster designation antigen identity 44 (CD44) variant 6 recombinant antibodies by combining two complementary technology platforms; namely UNIchip AV-400, containing a printed serial dilution of CD44 variant 6 and approximately 400 different human proteins, and TISSOMICS, enabling human tissue microarray analysis in high-throughput mode. We have analyzed the performance of two human monoclonal recombinant antibodies directed against CD44 variant 6 protein, BMS 116 and BMS 125, in a blinded study. The antibodies exhibit a clear differentiation with regard to their binding profiles in the two systems. BMS 116 shows a low degree of specificity in the normal human Food and Drug Administration (FDA) tissue panel, which was confirmed by binding to more than 206 proteins on the protein biochip. In contrast, BMS 125 gives a highly selective membranous staining on selected human epithelial tissue components with no off-target activities observed on the protein biochip. Additionally, antibody BMS 125 shows a higher sensitivity to its antigen CD44 variant 6 than antibody BMS 116 as determined by the protein biochip.