Measurement of sulfatides in the amniotic fluid supernatant: A useful tool in the prenatal diagnosis of metachromatic leukodystrophy

Clinical and Radiological Profile of Nine Patients with Metachromatic Leukodystrophy

Introduction

Metachromatic leukodystrophy (MLD) is a rare, demyelinating, autosomal recessive lysosomal storage disease caused by a deficiency in the arylsulfatase A enzyme (ASA), which is encoded by ARSA gene. A lack of ASA activity results in an accumulation of sulfatides in the myelin sheaths of both the central and peripheral nervous systems, leading to developmental and neurocognitive progressive deterioration that can be observed in all age groups.

Methods

We present a total of 9 patients with MLD with an average age of 61 months, whose clinical, laboratory and cranial magnetic resonance imaging findings were evaluated, and who underwent an ARSA gene molecular analysis.

Results

Of the 9 patients, 7 had the late infantile form of the condition, 2 had the juvenile form, and 3 were identified through family screening. The median age at diagnosis was 30 months (min 3-max 73 months), the mean ASA activity value was 2 nmol/h/mgprt and the median cranial MR imaging severity score was 10 (min 5-max 18). The grey and white matter volumes of all patients, evaluated using volBrain software, were within the normal range. At an average age of 48 months, the late-infantile MLD patients were unable to control any body part.

Conclusions

Hematopoietic stem cell transplantation (HSCT), a treatment option for both the juvenile and adult forms of MLD in asymptomatic or early symptomatic patients, was performed on two of the asymptomatic and early symptomatic patients, and post-HSCT ASA activity settled within the normal range and their developmental milestones stabilized. It is important to diagnose MLD in the asymptomatic period and newborn screening can support early diagnosis.

Improving newborn screening test performance for metachromatic leukodystrophy: Recommendation from a pre-pilot study that identified a late-infantile case for treatment

Metachromatic leukodystrophy (MLD) is a devastating rare neurodegenerative disease. Typically, loss of motor and cognitive skills precedes early death. The disease is characterised by deficient lysosomal arylsulphatase A (ARSA) activity and an accumulation of undegraded sulphatide due to pathogenic variants in the ARSA gene. Atidarsagene autotemcel (arsa-cel), an ex vivo haematopoietic stem cell gene therapy was approved for use in the UK in 2021 to treat early-onset forms of pre- or early-symptomatic MLD. Optimal outcomes require early diagnosis, but in the absence of family history this is difficult to achieve without newborn screening (NBS). A pre-pilot MLD NBS study was conducted as a feasibility study in Manchester UK using a two-tiered screening test algorithm. Pre-established cutoff values (COV) for the first-tier C16:0 sulphatide (C16:0-S) and the second-tier ARSA tests were evaluated. Before the pre-pilot study, initial test validation using non‑neonatal diagnostic bloodspots demonstrated ARSA pseudodeficiency status was associated with normal C16:0-S results for age (n = 43) and hence not expected to cause false positive results in this first-tier test. Instability of ARSA in bloodspot required transfer of NBS bloodspots from ambient temperature to -20°C storage within 7-8 days after heel prick, the earliest possible in this UK pre-pilot study. Eleven of 3687 de-identified NBS samples in the pre-pilot were positive for C16:0-S based on the pre-established COV of ≥170 nmol/l or ≥ 1.8 multiples of median (MoM). All 11 samples were subsequently tested negative determined by the ARSA COV of <20% mean of negative controls. However, two of 20 NBS samples from MLD patients would be missed by this C16:0-S COV. A further suspected false negative case that displayed 4% mean ARSA activity by single ARSA analysis for the initial test validation was confirmed by genotyping of this NBS bloodspot, a severe late infantile MLD phenotype was predicted. This led to urgent assessment of this child by authority approval and timely commencement of arsa-cel gene therapy at 11 months old. Secondary C16:0-S analysis of this NBS bloodspot was 150 nmol/l or 1.67 MoM. This was the lowest result reported thus far, a new COV of 1.65 MoM is recommended for future pilot studies. Furthermore, preliminary data of this study showed C16:1-OH sulphatide is more specific for MLD than C16:0-S. In conclusion, this pre-pilot study adds to the international evidence that recommends newborn screening for MLD, making it possible for patients to benefit fully from treatment through early diagnosis.

Sphingolipidoses in Morocco: Chemical profiling for an affordable and rapid diagnosis strategy

Sphingolipidoses are a group of metabolic diseases in which lysosomal hydrolases dysfunction disrupt normal sphingolipids' metabolism, leading to excess accumulation in cellular compartments and excretion in urine. These pathologies represent a significant burden among Moroccan population, for which an easy access to enzymatic assays and genetic tests is not guaranteed. Parallel analytical methods thus have to be developed for preliminary screening. In this study, 107 patients were addressed to the metabolic platform of the Marrakesh Faculty of Medicine for diagnosis confirmation. Thin-Layer Chromatography was used as a first step to perform chemical profiling of the patients' urinary lipids, allowing 36% of the patients to be efficiently oriented towards the adequate enzymatic assay. UPLC-MS/MS analyses of urinary sulfatides excreted in urines patient had been used to control the reliability of TLC analysis and to obtain more accurate information related to the sulfatides isoforms. This analytical process combining TLC with UPLC-MS/MS has enabled rapid and appropriate patient management in a reduced time and with reduced resources.

Relationship of Sulfatides Physiological Function and Peroxisome Proliferator-Activated Receptor α

Sulfatides are unique sphingolipids present in the serum and the plasma membrane. Sulfatides exert important functions in a number of systems in the human body, including the nervous, immune, cardiovascular, and coagulation systems.Furthermore, it is closely related to tumor occurrence, development, and metastasis. Peroxisome proliferators-activated receptor α (PPARα) is a class of the nuclear receptor superfamily of transcription factors, which is a potential regulator of sulfatides. This review not only summarizes the current knowledge on the physiological functions of sulfatides in various systems, but also discusses the possible PPARα regulatory mechanisms in sulfatide metabolism and functions. The results of the present analysis provide deep insights and further novel ideas for expanding the research on the physiological function and clinical application of sulfatides.

Infantile Metachromatic Leukodystrophy (MLD): A Rare Case

Metachromatic leukodystrophy (MLD) is the typical white matter disease belonging to the lysosomal sphingolipid storage group and is a genetic autosomal recessive disorder. Early presentation is in the form of learning disability and behavioral issues; the subsequent involvement is gait and balance. Prenatal blood testing for genetic screening is available for arylsulfatase A (ARSA) deficiency is indicated if the family history is positive for MLD. Diagnostic tools for MLD are- absence or low-level arylsulfatase activity in genetic screening, sulphatides in urine, and magnetic resonance image (MRI) showing frontal horns and atrial periventricular leukodystrophy. The typical finding is known as the trigonid pattern. A two and half-year-old boy was born out of marriage in near blood relation. No prenatal screening was done. As narrated by the mother, the patient was alright six months back when he gradually developed lower limb weakness. Due to this, he stopped walking, which he could initially do without support. The parent also complained that he used to speak fifteen to twenty words, and now he is not saying a single word. With the above complaint, the patient was taken to the local hospital, where an MRI showed periventricular leukodystrophy, suggesting metachromatic leukodystrophy of periventricular white matter. The practice of prenatal and newborn genetic screening could enhance the efficacy of management, as early interventions are more effective.