Rapid screening of multiple beta-globin gene mutations by real-time PCR on the LightCycler: application to carrier screening and prenatal diagnosis of thalassemia syndromes.

Abstract

Hemoglobinopathies are priority genetic diseases for prevention programs. Rapid genotype characterization is fundamental in the diagnostic laboratory, especially when offering prenatal diagnosis for carrier couples. As a model, we designed a protocol based on the LightCycler technology to screen for a spectrum of beta-globin gene mutations in the Greek population. Design was facilitated by dual fluorochrome detection and close proximity of many mutations. Three probe sets were capable of screening 95% of beta-globin gene mutations in the Greek population, including IVSII-745C-->G, HbS, Cd5-CT, Cd6-A, Cd8-AA, IVSI-1G-->A, IVSI-5G-->A, IVSI-6T-->C, IVSI-110G-->A, and Cd39 C-->T. The protocol, standardized by analysis of 100 beta-thalassemia heterozygotes with known mutations, was 100% reliable in distinguishing wild-type from mutant alleles. Subsequent screening of 100 Greek beta-thalassemia heterozygotes with unknown mutations found 96 of 100 samples heterozygous for 1 of the 10 mutations, although melting curves were indistinguishable for mutations HbS/Cd6 and IVSI-5/IVSI-1, indicating a need of alternative methods for definitive diagnosis. One sample demonstrating a unique melting curve was characterized by sequencing as Cd8/9+G. Three samples carried mutations outside the gene region covered by the probes. The protocol was 100% accurate in 25 prenatal diagnosis samples, with 14 different genotype combinations diagnosed. The protocol was also flexible, detecting five beta-globin gene mutations from other population groups (IVSI-1G-->T, IVSI-5G-->C, IVSI-116T-->G, Cd37 TGG-->TGA, and Cd41/42 -TCTT). The described LightCycler system protocol can rapidly screen for many beta-globin gene mutations. It is appropriate for use in many populations for directing definitive mutation diagnosis and is suited for rapid prenatal diagnosis with low cost per assay.