BackgroundMucopolysaccharidoses (MPS) are lysosomal storage diseases in which mutations of genes encoding for lysosomal enzymes cause defects in the degradation of glycosaminoglycans (GAGs). The accumulation of GAGs in lysosomes results in cellular dysfunction and clinical abnormalities. The early initiation of enzyme replacement therapy (ERT) can slow or prevent the development of severe clinical manifestations. MPS I and II newborn screening has been available in Taiwan since August 2015. Infants who failed the recheck at recall were referred to MacKay Memorial Hospital for a detailed confirmatory diagnosis.MethodsFrom August 2015 to November 2017, 294,196 and 153,032 infants were screened using tandem mass spectrometry for MPS I and MPS II, respectively. Of these infants, 84 suspected cases (eight for MPS I; 76 for MPS II) were referred for confirmation. Urinary first-line biochemistry examinations were performed first, including urinary GAG quantification, two-dimensional electrophoresis, and tandem mass spectrometry assay for predominant disaccharides derived from GAGs. If the results were positive, a confirmative diagnosis was made according to the results of leukocyte enzymatic assay and molecular DNA analysis. Leukocyte pellets were isolated from EDTA blood and used for fluorescent α-iduronidase (IDUA) or iduronate-2-sulfatase (IDS) enzymatic assay. DNA sequencing analysis was also performed.ResultsNormal IDS and IDUA enzyme activities were found in most of the referred cases except for four who were strongly suspected of having MPS I and three who were strongly suspected of having MPS II. Of these infants, three with novel mutations of the IDS gene (c.817C > T, c.1025A > G, and c.311A > T) and four with two missense mutations of the IDUA gene (C.300-3C > G, c.1874A > C; c.1037 T > G, c.1091C > T) showed significant deficiencies in IDS and IDUA enzyme activities (< 5% of mean normal activity), respectively. Urinary dermatan sulfate and heparan sulfate quantitative analyses by tandem mass spectrometry also demonstrated significant elevations. The prevalence rates of MPS I and MPS II in Taiwan were 1.35 and 1.96 per 100,000 live births, respectively.ConclusionsThe early initiation of ERT for MPS can result in better clinical outcomes. An early confirmatory diagnosis increases the probability of receiving appropriate medical care such as ERT quickly enough to avoid irreversible manifestations. All high risk infants identified in this study so far remain asymptomatic and are presumed to be affected with the attenuated disease variants.
Significant cardiomyocyte substrate accumulation in IVS4 patients led to severe and irreversible cardiac fibrosis before development of LVH or other significant cardiac manifestations. Thus, it might be too late to start enzyme replacement therapy after the occurrence of LVH or other significant cardiac manifestations in patients with later onset FD. This study also indicated the importance of newborn screening for early detection of the insidious, ongoing, irreversible cardiac damage in patients with later onset FD.
Objective: The first live and large-scale newborn screening program of multiple mucopolysaccharidoses (MPS) was developed in Taiwan. The initial cutoff values, rates of screen positives, and genotypes were evaluated. Study Design: More than 100,000 dried blood spots (DBSs) were collected consecutively as part of the national Taiwan newborn screening programs. Enzyme activities were measured by tandem mass spectrometry (MS/MS) from DBS punches. Genotypes were obtained when a second newborn screening specimen again had a reduced enzyme activity. Additional clinical evaluation was then initiated based on enzyme activity and/or genotype. Results: Molecular genetic analysis for cases with low enzyme activity revealed 5 newborns with pathogenic IDUA mutations, 3 newborns with pathogenic IDS mutations, and one newborn was a carrier of an ARSB mutation. Several variants of unknown pathogenic significance were also identified, most likely causing pseudodeficiency. Conclusions: The highly robust MS/MS-based enzyme assays for MPS I, MPS II and MPS VI allow for high throughput newborn screening for these lysosomal storage disorders (LSDs). Optimized cutoff values combined with second tier testing could largely eliminate false positive results. Accordingly, newborn screening for these LSDs is possible.
BACKGROUND Deficiency of the lysosomal enzyme galactosylcerebrosidase (GALC) causes Krabbe disease. Newborn screening for Krabbe disease is ongoing, but improved methods for follow-up analysis of screen-positive babies are needed to better advise families and to optimize treatment. We report a new assay for the enzymatic activity of GALC in lymphocytes. METHODS T lymphocytes were isolated from venous blood by magnetic bead technology. The assay used a close structural analog of the natural substrate and liquid chromatography-tandem mass spectrometry (LC-MS/MS) to quantify the amount of product with the aid of a chemically identical internal standard. RESULTS The analytical range of the assay (ratio of assay response for the quality control high standard to that from all non-enzymatic-dependent processes) was 20-fold greater than that for the conventional radiometric GALC assay. The LC-MS/MS could distinguish cells that were null in GALC from those that contained traces of active enzyme (down to 0.3 % of normal). There was a good correlation between the level of residual GALC activity in lymphocytes and the severity of Krabbe disease. CONCLUSIONS The new assay can measure small amounts of residual GALC activity in leukocytes with high accuracy compared to previous assays and can contribute, along with genotyping, biomarker analysis, and neurological imaging, a better plan for post newborn screening follow-up for Krabbe disease.
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