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Objective To explore the mechanism of Tn antigen expression in colon cancer cells HT-29.Methods Tn(+) and Tn(-) cells were separated from human colon cancer cell line HT-29 by im-mune magnetic beads.Total RNA, genomic DNA ( gDNA) and cytoplasmic proteins in these cells were ex-tracted by using Trizol, DNA preparation kit and nuclear and cytoplasmic extraction reagents respectively.T-synthase activity was measured by a fluorescent assay.Cosmc and T-synthase transcriptional levels were ana-lyzed by RT-PCR using mRNA as the templates.The coding sequence ( CDS) and CpG islands of Cosmc were amplified by PCR using gDNA as the templates.Amplified products were analyzed on 1%agarose gel. The expected bands were purified, and then sequenced to examine Cosmc mutation.Wild type Cosmc ( Wt-Cosmc) were transfected into tumor cell lines and normal cells to define the function of Cosmc.The expres-sions of Cosmc protein in these cells were then examined by Western blot.Results Although no mutation appeared in HT-29-Tn(-) cells, the deletion of CDS and inactivity of T-synthase were observed in HT-29-Tn(+) cells.Additionally, transfected WtCosmc restored T-synthase activity and then decreased Tn antigen expression in Tn antigen positive cells.Conclusion The absence of CDS in Cosmc gene resulted in the loss of T-synthase activity and consequent Tn antigen expression in HT-29-Tn(+) cells.
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Objective To explore the mutation in corel β3-galactosyl-transferase specific molecular chaperone(Cosmc、no-coding region and it's effects on the transcription level of Cosmc in Tn antigen positive tumor cells.Methods The Tn antigen positive(Tn+)and negative(Tn-)cells were separated from tumor tissues by immune magnetic bead,then the genomic DNA(gDNA),total RNA were prepared by Qiagen AllPrep DNA/RNA mini kit. In these cells.the transcription levels of T-synthase and Cosmc mRNA were tested by RT-PCR.the DNA of Cosmc non-coding region was amplified by PCR,the mutation in Cosmc non-coding region were further detected by sequencing.Results There are no mutation appearing in Tn-cells,one or more mosaic sequence allele appearing in portion of patient's Tn-cells.Almost of the Tn+cells which separated from tumor tissues and Jurkat T cell exists mutation.but the mutation style and mutation point were not saine in different tumor.Thtee patient's Tn+cells have loss of hetemzygosity(LOH),four patient's Tn+cells and Jurkat T cell have point mutation.Although no difference of transcription level of T-synthase mRNA in Tn+ and Tn-cells.but the transcription level of Cosmc mRNA in Tn+ cell was much lower than that in Tn-cell.The ratio of T-synthase/Cosmc mRNA in Tn+ tumor cells was hiigher than that in Tn-cell.Conclusion The tumor Tn antigen arise from mutation in Cosmc non-coding region maybe result from transcription level decreased of Cosmc mRNA.
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Immunoglobulins isolated from egg yolk (IgY) are tools which are currently used in different fields of the biological sciences; they have clear advantages over mammalian serum IgGs. We have established the conditions for obtaining anti-Salvia bogotensis lectin IgYs in previous work; their use in immunocytochemical studies requires that their main molecular characteristics are known as well as the conditions for IgY-lectin interaction. Salvia bogotensis lectin (SBoL) can specifically recognise Tn antigen, a recognised tumoral marker in many types of cancer but additional tools are required for evidencing this interaction in cells. Given the availability of S. bogotensis anti-lectin IgY, this work was aimed at molecularly characterising these IgYs and evaluating their application in immunocytochemical studies for detecting Tn antigen in tumour cells. Purified IgYs' isoelectric points, molecular weight and carbohydrate content were determined. Homologous and heterologous lectins were obtained for establishing the specificity of antibody interaction with the lectin; they were assayed by ELLSA. Biotin-or peroxidase-labelled IgYs were prepared; Tn antigen was specifically detected by CELISA and immunocytochemistry in MCF-7 and HeLa cell-lines with the lectin which was revealed with the labelled IgYs. Results showed that anti-SBoL IgY antibodies represent a highly sensitive tool for specific Tn antigen recognition assays.
Las inmunoglobulinas aisladas de la yema de huevo (IgY) son muy utilizadas actualmente en diversos campos de las ciencias biológicas, dadas sus ventajas frente a las IgG séricas de mamíferos. En un trabajo previo establecimos las condiciones de obtención de IgY dirigidas contra la lectina de Salvia bogotensis; su utilización en estudios inmunocitoquímicos requiere conocer sus principales características moleculares y las condiciones para la interacción IgY-lectina. La lectina de Salvia bogotensis (SBoL) reconoce específicamente el antígeno Tn, marcador tumoral en muchos tipos de cáncer, pero se requieren herramientas adicionales para evidenciar esta interacción a nivel celular. Dada la disponibilidad de IgY anti-lectina de S. bogotensis, se realizó este trabajo con el objeto de caracterizar molecularmente estas IgY y evaluar su utilización en estudios inmunocitoquímicos para la detección del antígeno Tn en células tumorales. A las IgY purificadas se les determinó su punto isoeléctrico, peso molecular y contenido de carbohidratos. Para establecer la especificidad de interacción IgY-SBoL se obtuvieron lectinas homólogas y heterólogas y se ensayaron por ELLSA. La detección del antígeno Tn en las líneas celulares MCF-7 y HeLa con la lectina y las IgYs marcadas con biotina o peroxidasa se realizó por CELISA e inmunocitoquímica. Los resultados mostraron que los anticuerpos IgY anti-SBoL son una herramienta de una alta sensibilidad para los ensayos de reconocimiento específico del antígeno Tn.
Imunoglobulinas isoladas a partir de gema de ovo (IgY) são ferramentas utilizadas actualmente em diferentes áreas das ciências biológicas y apresentam vantagens claras sobre o soro de mamífero IgGs. Em investigações anteriores estabelecemos as condições para obter lectina IgYs anti-Salvia bogotensis. O seu uso em estudos imunocitoquímicos requer que as suas principais características moleculares sejam conhecidas, assim como as condições para a interacção IgY-lectina. A lectina de Salvia bogotensis (SBoL) pode reconhecer especificamente o anti-génio Tn, um reconhecido marcador tumoral em muitos tipos de cancro, mas novas ferramentas são necessárias para evidenciar esta interacção em células. Dada a disponibilidade de anti-lectina IgY de S. bogotensis, este trabalho teve como objectivo a caracterização molecular de estes IgYs e avaliar a sua aplicação em estudos imunocitoquímicos para detectar antigénio Tn em células tumorais. Foram determinados os pontos isoeléctricos, peso molecular e conteúdo de carbohidratos de IgYs purificadas. Lectinas homologas e heterologas foram obtidas para estabelecer a especificidade da interacção de anticorpo com a lectina; estes foram ensaiados por ELLSA. Foram preparados IgYs marcados com biotina ou peroxidase. O antigénio Tn foi detectado especificamente por CELISA e imunocitoquimica em linhas celulares MCF-7 y HeLa com lectina que foi revelada com as IgYs marcadas. Os resultados mostraram que os anticorpos anti-SBoL IgY representam uma ferramenta altamente especifica para ensaios de reconhecimento especifico de antigenio Tn.
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acts was much lower than that in Tn-cell.Conclusion The expression of Tn,STn,T and ST antigen in gastric carcinoma tissues of different TNM stages is different.Tn antigen expression in tumor cells may be caused by the decrease of T-Synthase activity.