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  • antibodies  (3)
  • 1
    Keywords: CELLS ; EXPRESSION ; tumor ; BLOOD ; carcinoma ; human ; MICROSCOPY ; liver ; PROTEIN ; PROTEINS ; TUMORS ; FAMILY ; RAT ; hepatocytes ; MEMBER ; MEMBERS ; antibodies ; MOUSE ; IDENTIFICATION ; RAT-LIVER ; MEMBRANE ; metastases ; CONJUGATE ; LOCALIZATION ; EPITHELIAL-CELLS ; HEPATOCYTE CANALICULAR ISOFORM ; METASTATIC CARCINOMAS ; MULTIDRUG-RESISTANCE PROTEIN ; POLYPEPTIDE OATP2
    Abstract: Transport proteins mediating the selective uptake of organic anions into human hepatocytes include the organic anion transporters SLC21A6 (also termed OATP2, OATP-C, or LST-1) and SLC21A8 (OATP8). Both transporters are localized to the basolateral membrane of human hepatocytes. Because of the importance of these transporters for hepatobiliary elimination, including the removal of bilirubin and its conjugates from the blood circulation, we have generated monoclonal antibodies for studies on the expression and localization of these transport proteins. We describe two antibodies, designated monoclonal antibody MDQ (mMDQ) and monoclonal antibody ESL (mESL), directed against the amino terminus and the carboxyl terminus of human SLC21A6, respectively. Both antibodies have been characterized by immunoblot analysis, immunoprecipitation, and immunofluorescence microscopy. While mESL reacted specifically with SLC21A6, mMDQ detects both SLC21A6 and SLC21A8. Neither of the two antibodies reacted with other human, or with dog, rat, or mouse liver SLC21A family members. Antibody mMDQ may be used for the simultaneous detection of SLC21A6 and SLC21A8 in immunoblotting because of its immunoreactivity with both molecules and because of the different molecular masses of both glycosylated proteins in human hepatocytes. This is exemplified in hepatocellular carcinomas where SLC21A6 and SLC21A8 were differentially synthesized and showed an irregular staining pattern. Both transport proteins have not been detected in human hepatoma HepG2 cells. In routine paraffin sections, 10 of 12 hepatocellular carcinomas were focally positive with antibody mMDQ. In contrast, cholangiocarcinomas and liver metastases of colorectal and pancreatic adenocarcinoma were negative without exception. This suggests the usefulness of SLC21A6/SLC21A8 within a panel of tumor markers for hepatocellular carcinomas. Moreover, both antibodies should be useful in studies on the expression and localization of two important uptake transporters of human hepatocytes under physiologic and pathophysiologic conditions
    Type of Publication: Journal article published
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  • 2
    Keywords: CELLS ; proliferation ; carcinoma ; Germany ; MICROSCOPY ; GENE-EXPRESSION ; PROTEIN ; PROTEINS ; DIFFERENTIATION ; MONOCLONAL-ANTIBODY ; DOMAIN ; antibodies ; antibody ; MOUSE ; MEMBRANE ; MONOCLONAL-ANTIBODIES ; PHENOTYPE ; PERIPHERAL-BLOOD ; BARRIER FUNCTION ; PERMEABILITY ; CYTOKERATINS ; HETEROGENEITY ; SINGLE ; immunofluorescence ; monoclonal antibody ; BOVINE ; EPITHELIUM ; IA ; ASYMMETRIC UNIT MEMBRANE ; MAMMALIAN URINARY-BLADDER ; PLAQUE PARTICLE ; UROPATHOGENIC ESCHERICHIA-COLI ; uroplakins ; urothelium
    Abstract: Urothelial umbrella cells are characterized by apical, rigid membrane plaques, which contain four major uroplakin proteins (UP la, Ib, II and III) forming UPla/UPII and UPIb/UPIII pairs. These integral membrane proteins are thought to play an important role in maintaining the physical integrity and the permeability barrier function of the urothelium. We asked whether the four uroplakins always coexpress in the entire human lower urinary tract. We stained immunohistochemically (ABC-peroxidase method) paraffin sections of normal human ureter (n = 18) and urinary bladder (n = 10) using rabbit antibodies against UPIa, UPIb,. UPII and UPIII; a recently raised mouse monoclonal antibody (MAb), AU1 and two new MAbs, AU2 and AU3, all against UPHIII; and mouse MAbs against umbrella cell-associated cytokeratins CK18 and CK20. Immunoblotting showed that AU1, AU2 and AU3 antibodies all recognized the N-terminal extracellular domain of bovine UPIII. By immunochemistry, we found that in 15 cases of human ureter, but in only 2 18 TO cases of bladder, groups of normal-looking, CK18-positive umbrella cells lacked both UPIII and UPIb immunostaining. The UPIb/UPIII-negative cells showed either normal or reduced amounts of UPla and UPII staining. These data were confirmed by double immunofluorescence microscopy. The distribution of the UPlb/UPIII-negative umbrella cells was not correlated with localized urothelial proliferation (Ki-67 staining) or with the distribution pattern of CK20. Similar heterogeneities were observed in bovine but not in mouse ureter. We provide the first evidence that urothelial umbrella cells are heterogeneous as some normal-looking umbrella cells can possess only one, instead of two, uroplakin pairs. This heterogeneity seems more prominent in the urothelium Of human ureter than that of bladder. This finding may indicate that ureter urothelium is intrinsically different from bladder urothelium. Alternatively, a single lineage of urothelium may exhibit different phenotypes resulting from extrinsic modulations due to distinct mesenchymal influence and different degrees of pressure and stretch in bladder versus ureter. Additional studies are needed to distinguish these two possibilities and to elucidate the physiological and pathological significance of the observed urothelial and uroplakin heterogeneity. (c) 2005 Elsevier GmbH. All rights reserved
    Type of Publication: Journal article published
    PubMed ID: 15819416
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  • 3
    Keywords: CELLS ; CELL ; CELL-PROLIFERATION ; Germany ; GENERATION ; DISTINCT ; PROTEIN ; PROTEINS ; COMPONENTS ; MONOCLONAL-ANTIBODY ; BIOLOGY ; antibodies ; antibody ; PARTICLES ; IDENTIFICATION ; SPECTROMETRY ; REGION ; REGIONS ; XENOPUS ; MONOCLONAL-ANTIBODIES ; DNA-REPLICATION ; REPLICATION ; CLUSTER ; XENOPUS-LAEVIS ; WERNER-SYNDROME PROTEIN ; AMPLIFIED NUCLEOLI ; DESMOSOMAL PLAQUE ; NUCLEAR LAMINA PROTEINS ; NUCLEOPLASMIN FAMILY ; RIBOSOME BIOGENESIS
    Abstract: It has recently become clear that the nucleolus, the most prominent nuclear subcompartment, harbors diverse functions beyond its classic role in ribosome biogenesis. To gain insight into nucleolar functions, we have purified amplified nucleoli from Xenopus laevis oocytes using a novel approach involving fluorescence-activated cell sorting techniques. The resulting protein fraction was analyzed by mass spectrometry and used for the generation of monoclonal antibodies directed against nucleolar components. Here, we report the identification and molecular characterization of a novel, ubiquitous protein, which in most cell types appears to be a constitutive nucleolar component. Immunolocalization studies have revealed that this protein, termed NO66, is highly conserved during evolution and shows in most cells analyzed a dual localization pattern, i.e., a strong enrichment in the granular part of nucleoli and in distinct nucleoplasmic entities. Colocalizations with proteins Ki-67, HP1alpha, and PCNA, respectively, have further shown that the staining pattern of NO66 overlaps with certain clusters of late replicating chromatin. Biochemical experiments have revealed that protein NO66 cofractionates with large preribosomal particles but is absent from cytoplasmic ribosomes. We propose that in addition to its role in ribosome biogenesis protein NO66 has functions in the replication or remodeling of certain heterochromatic regions
    Type of Publication: Journal article published
    PubMed ID: 14742713
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