RESUMEN

Inactivation of the Rb (retinoblastoma) tumor suppressor gene is associated with hereditary and sporadic cases of retinoblastoma and other Rb-related tumors. Early diagnosis and genetic counseling heavily depend on practical methods for the detection of Rb deletions and mutations in high-risk families. Here we report on the use of a pair of primers in polymerase chain reaction (PCR) to amplify a 945-bp fragment from intron 17 of the Rb gene (T.L. McGee, G.S. Cowley, D.W. Yandell and T.P. Dryja, 1990, Nucleic Acid Research, 18: 207). Xbal digestion of the PCR product reveals 2 allelic versions: a single 945-bp fragment (allele 1) or 2 fragments of 315 and 630 bp (allele 2). We used total genomic DNA (blood and tumors) to investigate the power of this PCR-Rb-Xbal-RFLP in the identification of both segregation and loss of heterozygosity of the Rb gene. In one family studied (family 1A) in which 2 generations were affected, it was possible to localize the mutated Rb gene to Xbal-Rb allele 2. The assay of loss of heterozygosity of the Rb gene is available for all Xbal-Rb allele 1-2 individuals, so that analyses may be applied in large scale investigation of the participation of Rb gene in tumor development. We conclude that PCR-Rb-Xbal-RFLP is a practical and powerful tool for oncology research and genetic counseling.

Asunto(s)

RESUMEN

Inactivation of the Rb (retinoblastoma) tumor suppressor gene is associated with hereditary and sporadic cases of retinoblastoma and other Rb-related tumors. Early diagnosis and genetic counseling heavily depend on practical methods for the detection of Rb deletions and mutations in high-risk families. Here we report on the use of a pair of primers in polymerase chain reaction (PCR) to amplify a 945-bp fragment from intron 17 of the Rb gene (T.L. McGee, G.S. Cowley, D.W. Yandell and T.P. Dryja, 1990, Nucleic Acid Research, 18: 207). Xbal digestion of the PCR product reveals 2 allelic versions: a single 945-bp fragment (allele 1) or 2 fragments of 315 and 630 bp (allele 2). We used total genomic DNA (blood and tumors) to investigate the power of this PCR-Rb-Xbal-RFLP in the identification of both segregation and loss of heterozygosity of the Rb gene. In one family studied (family 1A) in which 2 generations were affected, it was possible to localize the mutated Rb gene to Xbal-Rb allele 2. The assay of loss of heterozygosity of the Rb gene is available for all Xbal-Rb allele 1-2 individuals, so that analyses may be applied in large scale investigation of the participation of Rb gene in tumor development. We conclude that PCR-Rb-Xbal-RFLP is a practical and powerful tool for oncology research and genetic counseling

Asunto(s)

RESUMEN

We report the generation of stable transfectant cell lines by DNA-mediated transfection that overexpress viral and/or cellular oncogenes. Expression of heterologous genes (FBJ- and FBR-v-fos, polyoma large and middle T) was confirmed by Northern hybridization, immunofluorescence and immunoprecipitation. We also describe the isolation of two retinoblastoma cell lines from human tumors. Neuronal and glial markers were used to confirm the origin of these cell lines. Oncogene transfectant and retinoblastoma cell lines will be used to assess Rb expression and the possible role of its gene product in cell proliferation control and neoplasia.

Asunto(s)

RESUMEN

We report the generation of stable transfectant cell lines by DNA-mediated transfection that overexpress viral and/or cellular oncoghenes. Expression of heterologous genes (FBJ- and FBR-v-fos, polyoma large and middle T) was confirmed by Northern hybridization, immunofluorescence and immunoprecipitation. We also describe the isolation of two retinoblastoma cell lines from human tumors. Neuronal and glial markers were used to confirm the origin of these cell lines. Oncogene transfectant and retinoblastoma cell lines will be used to assess Rb expression and the possible role of its gene product in cell proliferation control and neoplasia

Asunto(s)

RESUMEN

The gene related to retinoblastoma (Rb gene) can be considered a model human tumor suppressor gene and was assigned to band 13q14, together with the esterase D (ESD) gene. We studied the ESD activity and phenotype in 40 retinoblastoma patients, 50 unaffected relatives, and 85 nonrelated healthy control individuals. ESD activity from patients is significantly different from that of relatives and control individuals, but there was no significant difference between ESD activity from unaffected relatives and control individuals. Twelve and one-half percent of patients and 4.2% of unaffected relatives with ESD1 phenotype showed a low ESD level. The results showed the importance of ESD studies in all retinoblastoma patients and their relatives.

Asunto(s)

Asunto(s)

Asunto(s)