OBJECTIVE: To investigate the possible association of a Fas ligand (FasL) gene mutation(s) or polymorphism(s) with systemic lupus erythematosus (SLE). METHODS: For amplification of the introns of the FasL gene, long polymerase chain reaction (PCR) using exon-based primers was utilized, followed by partial sequencing to construct exon-specific oligonucleotide primers for the analyses of FasL genomic DNA in SLE patients. Structural defects were studied by use of a composite analysis of reverse transcriptase-PCR/single-strand conformational polymorphism (SSCP) analysis of messenger RNA (mRNA) transcripts of the FasL gene in 35 SLE patients and PCR/SSCP analysis of FasL genomic DNA in 143 SLE patients. RESULTS: The sizes of the introns were approximately 0.6 kb for intron 1, 4.3 kb for intron 2, and 1.3 kb for intron 3. By SSCP analysis, we did not identify any mutations or polymorphisms in the FasL mRNA transcripts or in any of the 4 exons or areas of the introns adjacent to the exons. CONCLUSION: Using the same methods used in the present studies (PCR/SSCP), one group of investigators identified a structural defect of the FasL molecule in 1 of 75 SLE patients evaluated. Among the 143 SLE patients in the present study, however, we did not identify any mutations or polymorphisms of the FasL gene. Our results suggest that a FasL defect is not the major contributing factor in the pathogenesis of SLE.
OBJECTIVE: To investigate the possible association of a Fas ligand (FasL) gene mutation(s) or polymorphism(s) with systemic lupus erythematosus (SLE). METHODS: For amplification of the introns of the FasL gene, long polymerase chain reaction (PCR) using exon-based primers was utilized, followed by partial sequencing to construct exon-specific oligonucleotide primers for the analyses of FasL genomic DNA in SLEpatients. Structural defects were studied by use of a composite analysis of reverse transcriptase-PCR/single-strand conformational polymorphism (SSCP) analysis of messenger RNA (mRNA) transcripts of the FasL gene in 35 SLEpatients and PCR/SSCP analysis of FasL genomic DNA in 143 SLEpatients. RESULTS: The sizes of the introns were approximately 0.6 kb for intron 1, 4.3 kb for intron 2, and 1.3 kb for intron 3. By SSCP analysis, we did not identify any mutations or polymorphisms in the FasL mRNA transcripts or in any of the 4 exons or areas of the introns adjacent to the exons. CONCLUSION: Using the same methods used in the present studies (PCR/SSCP), one group of investigators identified a structural defect of the FasL molecule in 1 of 75 SLEpatients evaluated. Among the 143 SLEpatients in the present study, however, we did not identify any mutations or polymorphisms of the FasL gene. Our results suggest that a FasL defect is not the major contributing factor in the pathogenesis of SLE.
Authors: Juan José Bollain-Y-Goytia; Mariela Arellano-Rodríguez; Felipe de Jesús Torres-Del-Muro; Leonel Daza-Benítez; José Francisco Muñoz-Valle; Esperanza Avalos-Díaz; Rafael Herrera-Esparza Journal: Int J Nephrol Date: 2014-11-18
Authors: Lilia L Bi; George Pan; T Prescott Atkinson; Lixin Zheng; Janet K Dale; Christopher Makris; Vishnu Reddy; Jay M McDonald; Richard M Siegel; Jennifer M Puck; Michael J Lenardo; Stephen E Straus Journal: BMC Med Genet Date: 2007-07-02 Impact factor: 2.103