The mitochondrial phospholipid cardiolipin plays an important role in cellular metabolism as exemplified by its involvement in mitochondrial energy production and apoptosis. Following its biosynthesis, cardiolipin is actively remodeled to achieve its final acyl composition. An important cardiolipin remodeling enzyme is tafazzin, of which several mRNA splice variants exist. Mutations in the tafazzin gene cause the X-linked recessive disorder Barth syndrome. In addition to providing an overview of the current knowledge in literature about tafazzin, we present novel experimental data and use this to discuss the functional role of the different tafazzin variants in cardiolipin metabolism in relation to Barth syndrome. We developed and performed specific quantitative PCR analyses of different tafazzin mRNA splice variants in 16 human tissues and correlated this with the tissue cardiolipin profile. In BTHS fibroblasts we showed that mutations in the tafazzin gene affected both the level and distribution of tafazzin mRNA variants. Transient expression of selected human tafazzin variants in BTHS fibroblasts showed for the first time in a human cell system that tafazzin lacking exon5 indeed functions in cardiolipin remodeling.
Tandem mass spectrometry (MS/MS) has become a leading technology used in clinical chemistry and has shown to be particularly sensitive and specific when used in newborn screening (NBS) tests. The success of tandem mass spectrometry is due to important advances in hardware, software and clinical applications during the last 25 years. MS/MS permits a very rapid measurement of many metabolites in different biological specimens by using filter paper spots or directly on biological fluids. Its use in NBS give us the chance to identify possible treatable metabolic disorders even when asymptomatic and the benefits gained by this type of screening is now recognized worldwide. Today the use of MS/MS for second-tier tests and confirmatory testing is promising especially in the early detection of new disorders such as some lysosomal storage disorders, ADA and PNP SCIDs, X-adrenoleucodistrophy (X-ALD), Wilson disease, guanidinoacetate methyltransferase deficiency (GAMT), and Duchenne muscular dystrophy. The new challenge for the future will be reducing the false positive rate by using second-tier tests, avoiding false negative results by using new specific biomarkers and introducing new treatable disorders in NBS programs.
Background:The expansion of newborn screening programs has increased the number of newborns diagnosed with inborn errors of metabolism in the presymptomatic phase, but it has also increased the number of costly, stress-producing false-positive results. Because propionylcarnitine (C3) is one of the analytes most frequently responsible for false-positive results, we aimed to develop a rapid liquid chromatographytandem mass spectrometry (LC-MS/MS) method to identify free methylmalonic (MMA) and 3-OH propionic (3OH-PA) acids in blood spots. Methods: We studied newborn screening spots from 250 healthy controls; 124 from infants with abnormal C3, of whom only 5 (4%) were truly affected; 124 from infants with altered isolated methylmalonylcarnitine; and 4 from clinically diagnosed patients. Whole blood was eluted from a 3.2-mm dried blood spot by a CH 3 CN/H 2 O 7:3 and 5 mL/L formic. This extract was injected into a LC-MS/MS equipped with pneumatically assisted electrospray without derivatization. Total analysis time was 5 min per sample. Results: The assays were linear up to 3300 nmol/L for both metabolites. Intra-and interassay imprecision data were 3.6%-8% and 3.1%-6%, respectively, for MMA
The aim of this study was to set up a robust method suitable for large-scale studies (screening) with a minimized preparation process and with reduced running costs, for measuring five enzyme activities on dried blood spots by a new and simplified tandem mass spectrometry-based method. After incubation, all 5 reaction mixtures, carried out separately, were stopped, combined together, and centrifuged. The cleaning-up of the injected mixture was performed through a fast online trapping step preceding a liquid chromatography/tandem mass-spectrometry measurement. This method takes only 4 min as analysis run time and without any purification following the enzymatic reaction. We assessed the effectiveness of this approach in assaying the enzymatic activities on dried blood spots from 10 patients affected by "Pompe", 6 by "Gaucher", 12 by "Fabry", 3 by "Niemann-Pick" A/B, and 2 by "Krabbe" diseases. Reference values were established on 5000 healthy newborns and 300 healthy adults. All affected patients showed enzymatic activities below the normal range. In heterozygous carriers (18 for Fabry, 10 for Pompe, and 4 for Gaucher disease) the activities were slightly lower than in control subjects. The results show that the method set out in its simplicity, low costs, and low processes preparations can be fully applicable to a mass screening.
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