JOURNAL OF INHERITED METABOLIC DISEASE

Endocannabinoid receptor 2 is a potential biomarker and therapeutic target for the lysosomal storage disorders
Simonaro CM, Yasuda M and Schuchman EH
Herein, we studied the expression of endocannabinoid receptor 2 (CB2R), a known inflammation mediator, in several lysosomal storage disorder (LSD) animal models and evaluated it as a potential biomarker and therapeutic target for these diseases. CB2R was highly elevated in the plasma of Farber disease and mucopolysaccharidosis (MPS) type IIIA mice, followed by Fabry disease and MPS type I mice. Mice with acid sphingomyelinase-deficient Niemann-Pick disease (ASMD) and rats with MPS type VI exhibited little or no plasma CB2R elevation. High-level expression of CB2R was also observed in tissues of Farber and MPS IIIA mice. Treatment of MPS IIIIA patient cells with CB2R agonists led to a reduction of CB2R and monocyte chemoattractant protein-1 (MCP-1), a chemotactic factor that is elevated in this LSD. Treatment of MPS IIIA mice with one of these agonists (JWH133) led to a reduction of plasma and tissue CB2R and MCP-1, a reduction of glial fibrillary acidic protein (GFAP) in the brain, and an improvement in hanging test performance. JWH133 treatment of Farber disease mice also led to a reduction of MCP-1 in tissues and plasma, and treatment of these mice by enzyme replacement therapy (ERT) led to a reduction of plasma CB2R, indicating its potential to monitor treatment response. Overall, these findings suggest that CB2R should be further examined as a potential therapeutic target for the LSDs and may also be a useful biomarker to monitor the impact of therapies.
A Dutch translational knowledge agenda for inherited metabolic diseases
Waterham HR, Wanders RJA, Wevers RA and van Karnebeek CD
Current global vitamin and cofactor prescribing practices for primary mitochondrial diseases: Results of a European reference network survey
Neugebauer J, Reinson K, Bellusci M, Park JH, Hikmat O, Bertini E, Schiff M, and Rahman S
Primary mitochondrial diseases (PMD) account for a group of approximately 400 different genetic disorders with diverse clinical presentations and pathomechanisms. Although each individual disorder is rare, collectively they represent one of the largest groups in the field of inherited metabolic disorders. The complexity of PMD results in a continued lack of therapeutic options, necessitating a predominantly symptomatic treatment approach for affected patients. While a subset of diseases responds exceptionally well to treatment with specific vitamins or cofactors, for most PMD systematic reviews were not able to show significant benefit. This is in discrepancy to their continued frequent use among specialists. To gain further insight into the current clinical practice of vitamin and cofactor supplementation among clinicians treating children and adults affected by PMD, we conducted a worldwide cross-sectional questionnaire study exploring the choice of substances and the specific diseases where they are applied. To our knowledge, this is the first global study exploring this topic and featuring a high response rate from paediatricians. The vast majority (95%, 106/112) of responding specialists recommended the use of vitamins and cofactors, either in an agnostic approach irrespective of the specific PMD or directed to the treatment of specific diseases or phenotypes. Our study highlights significant regional and specialty-specific differences in supplementation practices. We provide some preliminary insights into specialist-based opinions regarding the use of vitamins and cofactors in PMD and highlight the need for more rigorous clinical and preclinical investigations and/or clear consensus statements.
Brain morphometry in hepatic Wilson disease patients
Rahimi P, Mareček S, Brůha R, Dezortová M, Sojka P, Hájek M, Skowrońska M, Smoliński Ł, Urbánek P, Litwin T and Dušek P
Wilson disease (WD) primarily presents with hepatic and neurological symptoms. While hepatic symptoms typically precede the neurological manifestations, copper accumulates in the brain already in this patient group and leads to subclinical brain MRI abnormalities including T2 hyperintensities and atrophy. This study aimed to assess brain morphological changes in mild hepatic WD. WD patients without a history of neurologic symptoms and decompensated cirrhosis and control participants underwent brain MRI at 3T scanner including high-resolution T1-weighted images. A volumetric evaluation was conducted on the following brain regions: nucleus accumbens, caudate, pallidum, putamen, thalamus, amygdala, hippocampus, midbrain, pons, cerebellar gray matter, white matter (WM), and superior peduncle, using Freesurfer v7 software. Whole-brain analyses using voxel- and surface-based morphometry were performed using SPM12. Statistical comparisons utilized a general linear model adjusted for total intracranial volume, age, and sex. Twenty-six WD patients with mild hepatic form (30 ± 9 years [mean age ± SD]); 11 women; mean treatment duration 13 ± 12 (range 0-42) years and 28 healthy controls (33 ± 9 years; 15 women) were evaluated. Volumetric analysis revealed a significantly smaller pons volume and a trend for smaller midbrain and cerebellar WM in WD patients compared to controls. Whole-brain analysis revealed regions of reduced volume in the pons, cerebellar, and lobar WM in the WD group. No significant differences in gray matter density or cortical thickness were found. Myelin or WM in general seems vulnerable to low-level copper toxicity, with WM volume loss showing promise as a marker for assessing brain involvement in early WD stages.
Development of a novel tool for individual treatment trials in mucopolysaccharidosis
Wiesinger AM, Bigger B, Giugliani R, Lampe C, Scarpa M, Moser T, Kampmann C, Zimmermann G and Lagler FB
Mucopolysaccharidosis (MPS) encompasses a group of genetic lysosomal storage disorders, linked to reduced life expectancy and a significant lack of effective treatment options. Immunomodulatory drugs could have the potential to be a relevant medical approach, as the accumulation of undegraded substances initiates an innate immune response, which leads to inflammation and clinical deterioration. However, immunomodulators are not licensed for this indication. Consequently, we aim to provide evidence advocating fast access to innovative individual treatment trials (ITTs) with immunomodulatory drugs and high-quality evaluation of drug effects by implementing a risk-benefit model tailored for MPS. The iterative methodology of our novel decision analysis framework (DAF) involves three key steps: (i) literature review on promising treatment targets and immunomodulators in MPS; (ii) quantitative risk-benefit assessment (RBA) of selected molecules; (iii) assigning phenotypic profiles and quantitative evaluations. The results facilitate a personalized application of the model and are based on published evidence as well as interdisciplinary experts' consensus and patient perspectives. Four promising immunomodulators have been identified: adalimumab, abatacept, anakinra, and cladribine. An improvement in mobility is most likely with adalimumab, while anakinra is anticipated as a treatment of choice for neuronopathic MPS patients. Nevertheless, a comprehensive RBA should always be completed on an individual basis. Our evidence-based DAF tool for ITTs directly addresses the substantial unmet medical need in MPS and characterizes an initial stride toward precision medicine with immunomodulators.
Exploring RNA therapeutics for urea cycle disorders
Richard E, Martínez-Pizarro A and Desviat LR
RNA has triggered a significant shift in modern medicine, providing a promising way to revolutionize disease treatment methods. Different therapeutic RNA modalities have shown promise to replace, supplement, correct, suppress, or eliminate the expression of a targeted gene. Currently, there are 22 RNA-based drugs approved for clinical use, including the COVID-19 mRNA vaccines, whose unprecedented worldwide success has meant a definitive boost in the RNA research field. Urea cycle disorders (UCD), liver diseases with high mortality and morbidity, may benefit from the progress achieved, as different genetic payloads have been successfully targeted to liver using viral vectors, N-acetylgalactosamine (GalNAc) conjugations or lipid nanoparticles (LNP). This review explores the potential of RNA-based medicines for UCD and the ongoing development of applications targeting specific gene defects, enzymes, or transporters taking part in the urea cycle. Notably, LNP-formulated mRNA therapy has been assayed preclinically for citrullinemia type I (CTLN1), adolescent and adult citrin deficiency, argininosuccinic aciduria, arginase deficiency and ornithine transcarbamylase deficiency, in the latter case has progressed to the clinical trials phase.
Extended long-term efficacy and safety of velmanase alfa treatment up to 12 years in patients with alpha-mannosidosis
Guffon N, Borgwardt L, Tylki-Szymańska A, Ballabeni A, Donà F, Joseph A, Nienhuis H, Maugeri C and Lund A
Enzyme replacement therapy (ERT) using velmanase alfa previously showed promising efficacy and safety outcomes for up to 4 years of therapy in patients with alpha-mannosidosis. This pooled analysis from two multicenter, open-label phase IIIb extension trials rhLAMAN-07 (N = 13; NCT01908712) and rhLAMAN-09 (N = 8; NCT01908725) evaluated the long-term effects of velmanase alfa. Sixteen patients who previously completed phase I-III rhLAMAN-02/-03/-04/-05/-08 trials and five ERT-naïve patients were enrolled. Patients received 1 mg/kg velmanase alfa once weekly. Endpoints included changes from treatment baseline (before initial dose of velmanase alfa in any trial) in serum oligosaccharides, 6-minute walk test (6MWT), 3-minute stair climb test (3MSCT), pulmonary function (forced vital capacity [FVC], % predicted), serum immunoglobulin G (IgG) levels, and adverse events. The overall cohort comprised 21 patients, divided by age at treatment baseline into pediatric (n = 14) and adult subgroups (n = 7). Distance walked according to 6MWT increased or stabilized in pediatric patients, while in adults either stabilization or slight decline was observed. Similarly, pediatric patients performed better in the 3MSCT. Changes in FVC, % predicted, were comparable in both subgroups up to ~6 years of observation, diverging thereafter. Overall, sustained serum oligosaccharide clearance and serum IgG level increase was observed upon treatment initiation and persisted until last common observation. Velmanase alfa treatment was generally well tolerated, with the majority of reported adverse events being of mild-to-moderate intensity. With follow-up of up to 12 years, long-term efficacy and safety outcomes indicate continued benefits of velmanase alfa in patients with alpha-mannosidosis.
Genetically humanized phenylketonuria mouse model as a testing tool for human genome editing in fertilized eggs
Tsuji-Hosokawa A, Tsuchiya I, Shimizu K, Terao M, Yasuhara M, Miyamoto N, Kikuchi S, Ogawa Y, Nakamura K, Matsubara Y and Takada S
Targeted genome editing has made significant advancements; however, safety and ethical issues have not been fully elucidated, resulting in strict control of the technique. We tested genome editing tools on gametes from a genetically humanized mouse model using a phenylketonuria (PKU) mouse model to gain insights into genome editing in human embryos. The human PKU mouse model Pah mice was generated. The junctional region between exon 3 and intron 3 of Pah was replaced with a 120 bp corresponding human PAH sequence, including the pathogenic common variant c.331C > T in Pah mice. Pah mice successfully recapitulated the PKU phenotype and showed cognitive dysfunction and depressive-like behavior, which are observed in human patients with PKU. Genome editing was applied to fertilized eggs of Pah mice utilizing sgRNA that targets the human sequence. Mice with the corrected allele exhibited normal serum phenylalanine levels. Through genome editing, we validated the utility of sgRNA. The genetically humanized mouse model suggested that germ-line genome editing of the pathogenic variant may be feasible for monogenic disorders by revealing the recovery of the phenotype; however, there are remaining issues with the tool, including its efficiency and accuracy. This genome editing protocol using a genetically humanized mouse model will provide insights for improving current issues and contribute to the establishment of heritable human genome editing protocols.
Disease models of Leigh syndrome: From yeast to organoids
Henke MT, Prigione A and Schuelke M
Leigh syndrome (LS) is a severe mitochondrial disease that results from mutations in the nuclear or mitochondrial DNA that impairs cellular respiration and ATP production. Mutations in more than 100 genes have been demonstrated to cause LS. The disease most commonly affects brain development and function, resulting in cognitive and motor impairment. The underlying pathogenesis is challenging to ascertain due to the diverse range of symptoms exhibited by affected individuals and the variability in prognosis. To understand the disease mechanisms of different LS-causing mutations and to find a suitable treatment, several different model systems have been developed over the last 30 years. This review summarizes the established disease models of LS and their key findings. Smaller organisms such as yeast have been used to study the biochemical properties of causative mutations. Drosophila melanogaster, Danio rerio, and Caenorhabditis elegans have been used to dissect the pathophysiology of the neurological and motor symptoms of LS. Mammalian models, including the widely used Ndufs4 knockout mouse model of complex I deficiency, have been used to study the developmental, cognitive, and motor functions associated with the disease. Finally, cellular models of LS range from immortalized cell lines and trans-mitochondrial cybrids to more recent model systems such as patient-derived induced pluripotent stem cells (iPSCs). In particular, iPSCs now allow studying the effects of LS mutations in specialized human cells, including neurons, cardiomyocytes, and even three-dimensional organoids. These latter models open the possibility of developing high-throughput drug screens and personalized treatments based on defined disease characteristics captured in the context of a defined cell type. By analyzing all these different model systems, this review aims to provide an overview of past and present means to elucidate the complex pathology of LS. We conclude that each approach is valid for answering specific research questions regarding LS, and that their complementary use could be instrumental in finding treatment solutions for this severe and currently untreatable disease.
A phase III, open-label clinical trial evaluating pegunigalsidase alfa administered every 4 weeks in adults with Fabry disease previously treated with other enzyme replacement therapies
Holida M, Linhart A, Pisani A, Longo N, Eyskens F, Goker-Alpan O, Wallace E, Deegan P, Tøndel C, Feldt-Rasmussen U, Hughes D, Sakov A, Rocco R, Almon EB, Alon S, Chertkoff R, Warnock DG, Waldek S, Wilcox WR and Bernat JA
Pegunigalsidase alfa, a PEGylated α-galactosidase A enzyme replacement therapy (ERT) for Fabry disease, has a longer plasma half-life than other ERTs administered intravenously every 2 weeks (E2W). BRIGHT (NCT03180840) was a phase III, open-label study in adults with Fabry disease, previously treated with agalsidase alfa or beta E2W for ≥3 years, who switched to 2 mg/kg pegunigalsidase alfa every 4 weeks (E4W) for 52 weeks. Primary objective assessed safety, including number of treatment-emergent adverse events (TEAEs). Thirty patients were enrolled (24 males); 23 previously received agalsidase beta. Pegunigalsidase alfa plasma concentrations remained above the lower limit of quantification throughout the 4-week dosing interval. Thirty-three of 182 TEAEs (in 9 patients) were considered treatment-related; all were mild/moderate. No patients developed de novo anti-drug antibodies (ADAs). In the efficacy analysis (n = 29), median (inter-quartile range) eGFR change from baseline over 52 weeks was -1.9 (-5.9; 1.8) mL/min/1.73 m (n = 28; males [n = 22]: -2.4 [-5.2; 3.2]; females [n = 6]: -0.7 [-9.2; 2.0]). Overall, median eGFR slope was -1.9 (-8.3; 1.9) mL/min/1.73 m/year (ADA-negative [n = 20]: -1.2 [-6.4; 2.6]; ADA-positive [n = 9]: -8.4 [-11.6; -1.0]). Lyso-Gb3 concentrations were low and stable in females, with a slight increase in males (9/24 ADA-positive). The BRIGHT study results suggest that 2 mg/kg pegunigalsidase alfa E4W is tolerated well in stable adult patients with Fabry disease. Due to the low number of patients in this study, more research is needed to demonstrate the effects of pegunigalsidase alfa given E4W. Further evidence, outside of this clinical trial, should be factored in for physicians to prolong the biweekly ERT intervals to E4W. TAKE-HOME MESSAGE: Treatment with 2 mg/kg pegunigalsidase alfa every 4 weeks could offer a new treatment option for patients with Fabry disease.
An update on autophagy disorders
Dafsari HS, Martinelli D, Saffari A, Ebrahimi-Fakhari D, Fanto M, Dionisi-Vici C and Jungbluth H
Macroautophagy is a highly conserved cellular pathway for the degradation and recycling of defective cargo including proteins, organelles, and macromolecular complexes. As autophagy is particularly relevant for cellular homeostasis in post-mitotic tissues, congenital disorders of autophagy, due to monogenic defects in key autophagy genes, share a common "clinical signature" including neurodevelopmental, neurodegenerative, and neuromuscular features, as well as variable abnormalities of the eyes, skin, heart, bones, immune cells, and other organ systems, depending on the expression pattern and the specific function of the defective proteins. Since the clinical and genetic resolution of EPG5-related Vici syndrome, the paradigmatic congenital disorder of autophagy, the widespread use of massively parallel sequencing has resulted in the identification of a growing number of autophagy-associated disease genes, encoding members of the core autophagy machinery as well as related proteins. Recently identified monogenic disorders linking selective autophagy, vesicular trafficking, and other pathways have further expanded the molecular and phenotypical spectrum of congenital disorders of autophagy as a clinical disease spectrum. Moreover, significant advances in basic research have enhanced the understanding of the underlying pathophysiology as a basis for therapy development. Here, we review (i) autophagy in the context of other intracellular trafficking pathways; (ii) the main congenital disorders of autophagy and their typical clinico-pathological signatures; and (iii) the recommended primary health surveillance in monogenic disorders of autophagy based on available evidence. We further discuss recently identified molecular mechanisms that inform the current understanding of autophagy in health and disease, as well as perspectives on future therapeutic approaches.
Protein requirements in adults with phenylketonuria and bioavailability of glycomacropeptide compared to an l-amino acid-based product
Turki A, Stockler-Ipsiroglu S, Sirrs S, Branov J, Bosdet T and Elango R
Phenylketonuria (PKU) is caused by phenylalanine hydroxylase deficiency. Treatment is primarily a low-Phe diet combined with l-amino acid-based products (l-AA). Protein requirements in adults with PKU have not been directly determined. A formula with glycomacropeptide (GMP) and low phenylalanine is available, yet untested for optimal protein synthesis.
Therapeutic liver cell transplantation to treat murine PKU
Willimann M, Grisch-Chan HM, Rimann N, Rothgangl T, Hruzova M, Schwank G and Thöny B
For gene therapy of the liver, in vivo applications based on adeno-associated virus are the most advanced vectors despite limitations, including low efficacy and episomal loss, potential integration and safety issues, and high production costs. Alternative vectors and/or delivery routes are of high interest. The regenerative ability of the liver bears the potential for ex vivo therapy using liver cell transplantation for disease correction if provided with a selective advantage to expand and replace the existing cell mass. Here we present such treatment of a mouse model of human phenylketonuria (PKU). Primary hepatocytes from wild-type mice were gene modified in vitro (with a lentiviral vector) that carries a gene editing system (CRISPR) to inhibit Cypor. Cypor inactivation confers paracetamol (or acetaminophen) resistance to hepatocytes and thus a growth advantage to eliminate the pre-existing liver cells upon grafting (via the spleen) and exposure to repeated treatment with paracetamol. Grafting Cypor-inactivated wild-type hepatocytes into inbred young adult enu2 (PKU) mice, followed by selective expansion by paracetamol dosing, resulted in replacing up to 5% of cell mass, normalization of blood phenylalanine, and permanent correction of PKU. Hepatocyte transplantation offers thus an armamentarium of novel therapy options for genetic liver defects.
Natural history of valve disease in patients with mucopolysaccharidosis II and the impact of enzyme replacement therapy
Kampmann C, Lampe C, Wiethoff CM, Arash-Kaps L, Mengel E, Reinke J, Beck M, Hennermann JB and Abu-Tair T
Mucopolysaccharidosis II (MPS II, Hunter syndrome) is a rare, X-linked lysosomal storage disease caused by reduced activity of iduronate-2-sulfatase (I2S), with subsequent cellular accumulation of the glycosaminoglycans (GAGs), heparan sulfate, and dermatan sulfate (DS). DS is a major component of the extracellular matrix of heart valves, which can be affected in MPS II. We investigated the natural history of valve disease in MPS II and the impact of long-term intravenous enzyme replacement therapy (ERT) with recombinant I2S (idursulfase). In total, 604 cardiac examinations were assessed from serial follow-up of 80 male patients (49 neuronopathic). Valve disease was classified according to standard practice from hemodynamic features evident from echocardiography. The natural history group comprised 48 patients (up to 14.8 years of follow-up; median, 2.6 years; 24 patients started ERT during the study); 56 patients were treated (up to 14.2 years of follow-up; median, 6.2 years). Lifetime GAG burden (calculated from urinary GAG measurements) correlated significantly with the degree of valve disease. Onset of moderate-to-severe valve disease was significantly delayed in treated (median age at onset, 29.1 ± 2 [95% CI: 25.2-32.9] years; Kaplan-Meier estimation) versus untreated patients (17.6 ± 1 [95% Cl: 15.8-19.4] years; p < 0.0001). Cox regression modeling found that long-term ERT reduced the probability of developing severe valve disease (χ, 32.736; significant after 5 years of ERT). Overall, this study found that valve disease severity in MPS II correlates with GAG burden and that progression is delayed by long-term ERT.
Nontargeted urine metabolomic analysis of acute intermittent porphyria reveals novel interactions between bile acids and heme metabolism: New promising biomarkers for the long-term management of patients
Lefebvre T, Eguether T, Thévenot E, Poli A, Chu-Van E, Krasniqi P, Schmitt C, Talbi N, Nicolas G, Puy H, Junot C, Lamazière A, Castelli F, Gouya L and Fenaille F
Acute intermittent porphyria is an inherited error of heme synthesis. The underlying pathophysiology, involving mainly hepatic heme synthesis, is poorly understood despite its occurrence, and the severity of acute porphyria attack is still difficult to control. A better understanding of the interactions between heme synthesis and global metabolism would improve the management of AIP patients. An untargeted metabolomic analysis was performed on the urine of 114 patients with overt AIP and asymptomatic carriers using liquid chromatography coupled to high-resolution mass spectrometry. The collected data were analyzed by combining univariate and multivariate analyses. A total of 239 metabolites were annotated in urine samples by matching chromatographic and mass spectral characteristics with those from our chemical library. Twenty-six metabolites, including porphyrin precursors, intermediates of tryptophan or glycine metabolism and, unexpectedly, bile acids, showed significant concentration differences between the phenotypic groups. Dysregulation of bile acid metabolism was confirmed by targeted quantitative analysis, which revealed an imbalance in favor of hydrophobic bile acids associated with changes in conjugation, which was more pronounced in the severe phenotype. Using a random forest model, the cholic acid/chenodeoxycholic acid ratio enables the differential classification of severe patients from other patients with a diagnostic accuracy of 84%. The analysis of urine samples revealed significant modifications in the metabolome of AIP patients. Alteration in bile acids provides new insights into the pathophysiology of chronic complications, such as primary liver cancer, while also providing new biomarker candidates for predicting the most severe phenotypes.
The relation between dietary polysaccharide intake and urinary excretion of tetraglucoside
Gross-Valle C, Jacobs TC, Dijck-Brouwer JDA, Lubberts J, Bakker BM, Bakker SJL, van der Veen Y, Schreuder AB, Derks TGJ, van der Krogt J, Groen J and Heiner-Fokkema MR
The urinary metabolite tetraglucoside (Glc4) is a potential biomarker for hepatic glycogen storage diseases (GSDs). Glc4 is believed to reflect body glycogen content and/or turnover. However, dietary polysaccharide intake may influence Glc4 excretion, potentially limiting the utility of Glc4 as a monitoring biomarker in hepatic GSDs. We aimed to investigate the association of dietary polysaccharide intake with Glc4 excretion. Urinary Glc4 excretion (mmol/mmol creatinine and mmol/24 h) was analyzed using a validated LC-MS/MS method. Data was analyzed from 65 kidney transplant recipients and 58 healthy kidney donors in the TransplantLines cohort study. Spearman's correlation and multivariable linear regression analyses were performed. In the multivariable analysis, dry lean body mass (DLBM), dietary polysaccharide intake, transplantation status, age, sex, and glycated hemoglobin (HbA1c) served as independent variables. Daily variation was examined in 21 healthy individuals of urinary Glc4 excretion in 2-h collections over a 24-h period. Mixed generalized additive models were built to study the association of prior polysaccharide intake with Glc4 excretion. No (univariate) associations were found between polysaccharide intake and Glc4 excretion. However, a significant interaction between DLBM and polysaccharide on 24 h Glc4 excretion was observed in the multivariate analysis. Glc4 excretion throughout the day exhibited no relationship to prior polysaccharide intake. Our findings suggest an indirect effect of polysaccharide intake on Glc4 excretion, potentially due to changes in muscle glycogen content and/or turnover. We have found no evidence that dietary polysaccharides under normal intakes increase urinary Glc4 directly.
News from Valencia: JIMD themed issue on ureagenesis defects and allied disorders
Rubio V and Häberle J
Evaluation of early treatment with intravenous idursulfase and intrathecal idursulfase-IT on cognitive function in siblings with neuronopathic mucopolysaccharidosis II
Muenzer J, Burton BK, Harmatz P, Gutiérrez-Solana LG, Ruiz-Garcia M, Jones SA, Guffon N, Inbar-Feigenberg M, Bratkovic D, Rust S, Hale M, Wu Y, Yee KS, Whiteman DAH and Alexanderian D
Mucopolysaccharidosis II (MPS II; Hunter syndrome; OMIM 309900) is a rare, X-linked, heterogeneous lysosomal storage disease. Approximately two-thirds of patients develop cognitive impairment, which is difficult to assess in clinical trials, partly owing to the variable nature of cognitive impairment. Analyzing data from siblings can help to minimize this heterogeneity. We report analyses of cognitive function from siblings with MPS II enrolled in clinical trials: a natural history study (NCT01822184), a randomized, open-label, phase 2/3 study of intravenous (IV) idursulfase with or without intrathecal idursulfase (idursulfase-IT; NCT02055118), and its extension (NCT2412787). Cognitive function was assessed using Differential Abilities Scales, Second Edition General Conceptual Ability (DAS-II GCA) scores; Bayley Scales of Infant and Toddler Development, Third Edition; and Vineland Adaptive Behavior Scales, Second Edition Adaptive Behavior Composite (VABS-II ABC). Seven sets of siblings (six pairs and one set of three) were included. All patients received IV idursulfase and 10 received subsequent idursulfase-IT. Younger siblings initiated IV idursulfase at an earlier age than their older sibling(s) in six of the sets; the younger sibling started treatment before 1 year of age in three sets. Monthly idursulfase-IT was generally associated with a stabilization of cognitive function: DAS-II GCA and VABS-II ABC scores were higher at age-matched assessments in the majority of those who either received idursulfase-IT earlier than their sibling or who received idursulfase-IT versus no idursulfase-IT. These data suggest that early initiation of intrathecal enzyme replacement therapy may stabilize or slow cognitive decline in some patients with neuronopathic MPS II.
Newborn screening algorithm distinguishing potential symptomatic isovaleric acidemia from asymptomatic newborns
Rock R, Rock O, Daas S, Biton-Regev V, Sagiv N, Salah NA, Anikster Y, Barel O, Cohen RH, Dumin E, Fattal-Valevski A, Falik-Zaccai T, Herskovitz E, Josefsberg S, Khammash H, Kneller K, Korman SH, Landau YE, Lerman-Sagie T, Mandel H, Pras E, Reznik-Wolf H, Shaag A, Lotan NS, Spiegel R, Tal G, Staretz-Chacham O, Wilnai Y and Almashanu S
Newborn screening (NBS) for isovaleric acidemia (IVA) reduces mortality and morbidity; however, it has also resulted in the detection of individuals with an asymptomatic or mild presentation for which early detection via newborn screening has not been proven to alter neurological outcome. We reevaluated biochemical and molecular data for newborns flagged positive for IVA in aim of developing a new screening algorithm to exclude the latter from positive screening. Among 2 794 365 newborns underwent routine newborn screening in Israel, 412 flagged positive for IVA, of which, 371 were false positives on recall sample testing and 41 positive newborns were referred to the clinic. 38/41 have biochemical and molecular confirmation in keeping with IVA. Among the 38 patients, 32% (12/38) were classified as symptomatic while, 68% (26/38) were classified as asymptomatic. 69% of the latter group harbor the known variant associated with mild potentially asymptomatic phenotype, c.932C>T; p. Ala311Val. Among asymptomatic patients, only 46% (12/26) are currently treated. Two novel variants have been detected in the IVD gene: c.487G>A; p. Ala163Thr and c.985A>G; p. Met329Val. Cut-off recalculation, of referred newborns' initial biochemical results, after classifying the referred patients to two binary groups of symptomatic and asymptomatic, resulted in an improved NBS algorithm comprising of C5 >5 μM and C5/C2>0.2 and C5/C3>4 flagging only those likely to have the classic symptomatic phenotype.
Assessing age of onset and clinical symptoms over time in patients with heterozygous pathogenic DHDDS variants
Muffels IJJ, Sadek M, Kozicz T and Morava E
Mono-allelic DHDDS variants are associated with seizures, intellectual disability, and movement disorders. The age of onset and progression rates of symptoms vary greatly among patients, spanning from infancy to late adulthood. Yet, the reasons behind this clinical variability and the underlying pathophysiological mechanisms of the disease have remained elusive. We investigated the age of onset and the progression of symptoms over time in 59 patients with heterozygous DHDDS variants, drawing from medical literature and incorporating five previously unreported cases from the FCDGC Natural History Study. Clinical symptoms typically emerged early in life. Ataxia, tremor, dystonia, and dyskinesia manifested slightly later in childhood. Global developmental delay usually presented as the initial symptom. We observed diverse rates of symptom accumulation over time: some patients exhibited the full spectrum of symptoms in early childhood, while others developed novel symptoms well into adulthood. Interestingly, neither the sex nor the underlying DHDDS variants correlated with the age of symptom onset or specific clinical symptoms. Additionally, we found that 19% of patients presented with autism spectrum disorder. This study offers insight into the age of symptom onset and the rate of symptom accumulation in patients with DHDDS variants. We found no correlation between the age of onset and progression of clinical symptoms with specific DHDDS variants or patient sex. Autism spectrum disorder is common in patients and warrants attention in clinical management.
"East meets West": SSIEM 2023 Annual Symposium at Jerusalem
Anikster Y