RESUMO
Introduction: Dried blood spot (DBS) samples have been used for diagnostic purposes since their introduction in the neonatal screening of phenylketonuria almost 50 years ago. The range of its application has been extended to modern approaches, such as next-generation sequencing (NGS) for molecular genetic testing. This study aimed to evaluate the use of a standardized organic method for DNA extraction from DBS samples in the diagnostic setting.Methods: The clinical applicability of the method was tested using 3 samples collected from a newborn screening project for lysosomal storage diseases, allowing the determination of the genotype of the individuals. DNA was extracted from 3 3-mm diameter DBS punches. Quality, purity, and concentration were determined, and method performance was assessed by standard polymerase chain reaction, restriction length polymorphism, Sanger sequencing, and targeted NGS.Results: Results were compared with the ones obtained from DNA samples extracted following the internally validated in-house extraction protocol that used 6 3-mm punches of DBS and samples extracted from whole blood.Conclusion: This organic method proved to be effective in obtaining high-quality DNA from DBS, being compatible with several downstream molecular applications, in addition to having a lower cost per sample
Assuntos
Humanos , Recém-Nascido , Reação em Cadeia da Polimerase/estatística & dados numéricos , Triagem Neonatal , Análise de Sequência de DNA/estatística & dados numéricos , DNA/genética , Teste em Amostras de Sangue Seco/estatística & dados numéricosRESUMO
Abstract Neuronal ceroid lipofuscinoses (NCLs), also referred as "Batten disease", are a group of thirteen rare genetic conditions, which are part of the lysosomal storage disorders. CLN type 2 (CLN2) is caused by the deficient activity of the tripeptidyl peptidase I (TPP1) enzyme, encoded by the TPP1 gene, most frequently leading to the classic late infantile phenotype. Nearly 140 CLN2-causing mutations have been described. In this case report, we describe the identification of a new disease-causing mutation and highlight the importance of appropriate laboratory investigation based on clinical suspicion. The collection of dried blood spots (DBS) on filter paper, which is a convenient sample, can be used to measure the TPP1 enzyme activity and detect CLN2-related mutations. Since the biochemical and genetic diagnoses are possible and as the disease progression is fast and the therapeutic window is short, the investigation of CLN2 should be always considered when this diagnostic hypothesis is raised in order to enable the patients to benefit from the specific pharmacological treatment.
RESUMO
RESUMEN Las distrofias musculares de Duchenne/Becker son enfermedades raras que reciben poca atención en nuestro medio. El objetivo del presente estudio fue implementar la técnica de amplificación múltiple dependiente de ligación por sondas (MLPA) y demostrar que tiene ventajas sobre la técnica de reacción en cadena de la polimerasa multiplex (PCR-multiplex). Se analizaron muestras de 40 individuos con diagnóstico presuntivo de distrofia muscular de Duchenne/Becker, primero por PCR-multiplex y luego por MLPA. Con la PCR-multiplex se detectaron 15 individuos con deleciones causales y con la técnica MLPA se logró diagnosticar a 21 individuos, cuatro duplicaciones y 17 deleciones. En conclusión, la técnica MLPA logra detectar mutaciones de tipo deleción y duplicación de exones, consiguiendo un mayor número de diagnósticos moleculares por alteraciones en el gen DMD.
ABSTRACT Duchenne and Becker muscular dystrophies are rare diseases that receive limited attention in our field. The objective of this study was to implement the Multiplex Ligation-dependent Probe Amplification technique (MLPA) and to demonstrate that it has advantages over the Multiplex Polymerase Chain Reaction (Multiplex PCR) technique. Samples from 40 individuals with a presumptive diagnosis of Duchenne and Becker muscular dystrophies were analyzed: first by Multiplex PCR and then by MLPA. Fifteen individuals with causal deletions were detected with Multiplex PCR, while the MLPA technique was able to diagnose 21 individuals, four duplications, and 17 deletions. In conclusion, the MLPA technique can detect mutations of the exon deletion and duplication type, yielding a larger number of molecular diagnoses due to alterations in the DMD gene.