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5,073 results on '"angelman syndrome"'

4. Integration of CTCF loops, methylome, and transcriptome in differentiating LUHMES as a model for imprinting dynamics of the 15q11-q13 locus in human neurons

Author

Fugón, Orangel J Gutierrez, Sharifi, Osman, Heath, Nicholas, Soto, Daniela C, Gomez, J Antonio, Yasui, Dag H, Mendiola, Aron Judd P, O’Geen, Henriette, Beitnere, Ulrika, Tomkova, Marketa, Haghani, Viktoria, Dillon, Greg, Segal, David J, and LaSalle, Janine M

Subjects
Biological Sciences, Genetics, Stem Cell Research - Induced Pluripotent Stem Cell, Human Genome, Rare Diseases, Stem Cell Research, Pediatric, Neurosciences, Intellectual and Developmental Disabilities (IDD), Brain Disorders, 1.1 Normal biological development and functioning, Generic health relevance, Humans, Genomic Imprinting, CCCTC-Binding Factor, Chromosomes, Human, Pair 15, Neurons, DNA Methylation, Transcriptome, Ubiquitin-Protein Ligases, Cell Differentiation, Angelman Syndrome, RNA, Long Noncoding, Prader-Willi Syndrome, snRNP Core Proteins, Alleles, Cell Line, Epigenome, chromatin, imprinting, human cell models, Angelman, LUHMES, methylation, UBE3A, Medical and Health Sciences, Genetics & Heredity
Abstract

Human cell line models, including the neuronal precursor line LUHMES, are important for investigating developmental transcriptional dynamics within imprinted regions, particularly the 15q11-q13 Angelman (AS) and Prader-Willi (PWS) syndrome locus. AS results from loss of maternal UBE3A in neurons, where the paternal allele is silenced by a convergent antisense transcript UBE3A-ATS, a lncRNA that terminates at PWAR1 in non-neurons. qRT-PCR analysis confirmed the exclusive and progressive increase in UBE3A-ATS in differentiating LUHMES neurons, validating their use for studying UBE3A silencing. Genome-wide transcriptome analyses revealed changes to 11 834 genes during neuronal differentiation, including the upregulation of most genes within the 15q11-q13 locus. To identify dynamic changes in chromatin loops linked to transcriptional activity, we performed a HiChIP validated by 4C, which identified two neuron-specific CTCF loops between MAGEL2-SNRPN and PWAR1-UBE3A. To determine if allele-specific differentially methylated regions (DMR) may be associated with CTCF loop anchors, whole genome long-read nanopore sequencing was performed. We identified a paternally hypomethylated DMR near the SNRPN upstream loop anchor exclusive to neurons and a paternally hypermethylated DMR near the PWAR1 CTCF anchor exclusive to undifferentiated cells, consistent with increases in neuronal transcription. Additionally, DMRs near CTCF loop anchors were observed in both cell types, indicative of allele-specific differences in chromatin loops regulating imprinted transcription. These results provide an integrated view of the 15q11-q13 epigenetic landscape during LUHMES neuronal differentiation, underscoring the complex interplay of transcription, chromatin looping, and DNA methylation. They also provide insights for future therapeutic approaches for AS and PWS.

Published
2024

9. Developmental milestones and daily living skills in individuals with Angelman syndrome.

Author

Sadhwani, Anjali, Powers, Sonya, Wheeler, Anne, Miller, Hillary, Potter, Sarah, Peters, Sarika, Bacino, Carlos, Skinner, Steven, Wink, Logan, Erickson, Craig, Bird, Lynne, and Tan, Wen-Hann

Subjects
Activities of Daily Living, Child development, Developmental disabilities, Intellectual disability, Humans, Angelman Syndrome, Activities of Daily Living, Female, Child, Preschool, Male, Child, Adolescent, Infant, Child Development, Longitudinal Studies, Motor Skills, Developmental Disabilities, Adult, Young Adult
Abstract

BACKGROUND: Angelman syndrome (AS) is a neurodevelopmental disorder associated with severe global developmental delay. However, the ages at which different developmental skills are achieved in these individuals remain unclear. We seek to determine the probability and the age of acquisition of specific developmental milestones and daily living skills in individuals with AS across the different molecular subtypes, viz. class I deletion, class II deletion, uniparental disomy, imprinting defect, and UBE3A variants. METHODS: Caregivers participating in a longitudinal multicenter Angelman Syndrome Natural History Study completed a questionnaire regarding the age at which their children achieved specific developmental milestones and daily living skills. The Cox Proportional Hazard model was applied to analyze differences in the probability of achievement of skills at various ages among five molecular subtypes of AS. RESULTS: Almost all individuals, regardless of molecular subtype, were able to walk with support by five years of age. By age 15, those with a deletion had at least a 50% probability of acquiring 17 out of 30 skills compared to 25 out of 30 skills among those without a deletion. Overall, fine and gross motor skills such as holding and reaching for small objects, sitting, and walking with support were achieved within a fairly narrow range of ages, while toileting, feeding, and hygiene skills tend to have greater variability in the ages at which these skills were achieved. Those without a deletion had a higher probability (25-92%) of achieving daily living skills such as independently toileting and dressing compared to those with a deletion (0-13%). Across all molecular subtypes, there was a low probability of achieving independence in bathing and brushing teeth. CONCLUSION: Individuals with AS without a deletion are more likely to achieve developmental milestones and daily living skills at an earlier age than those with a deletion. Many individuals with AS are unable to achieve daily living skills necessary for independent self-care.

Published
2024

11. Angelman Syndrome Natural History Study

Author

University of California, San Diego, Angelman Syndrome Biomarker & Outcome Measure Consortium (A-BOM), Food and Drug Administration (FDA), Angelman Syndrome Foundation Canada, Foundation for Angelman Syndrome Therapeutics Canada, Foundation for Angelman Syndrome Therapeutics, Angelman Syndrome Foundation, Inc., and Wen-Hann Tan, Attending Physician in Genetics

Published
2024

17. UBE3A: Bridging the gap between neurodevelopment, neural function, and neurodegenerative woes.

Author

Nash, Kevin R, Jinwal, Umesh K, and Bhat, Krishna Moorthi

Subjects
*UBIQUITIN ligases, *ANGELMAN syndrome, *HUNTINGTON disease, *PROTEOLYSIS, *AUTISM spectrum disorders
Abstract

Post-translational modifications (PTMs) of proteins play a significant role in normal protein function but can also be instrumental in disease pathogenesis. One critical yet under-studied PTM in disease is ubiquitination. Ubiquitin chain addition and substrate specificity are determined by a large spectrum of ubiquitin-ligating and -modifying enzymes, E3 ligases, whose expression levels and activities are tightly regulated in a cell-specific manner. While most ubiquitin chains can target proteins for proteasomal degradation, ubiquitination can contribute to other functions within the cell, including protein localization, protein activity, endocytosis, transcription, and autophagy. One E3 ligase, UBE3A, has garnered much attention because of its involvement in learning and memory, as well as its association with neurodevelopmental autism spectrum disorders (ASDs). However, more recent findings have suggested a potential involvement of UBE3A in neurodegenerative proteinopathies, where reduced UBE3A levels can lead to an enhanced rate of aggregate formation and cell death. Here, we review the literature on UBE3A in neurodevelopment, function, and neurodegenerative diseases and demonstrate that UBE3A could play a critical role in disease progression and cognitive function. [ABSTRACT FROM AUTHOR]

Published
2024
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18. Generation of isogenic models of Angelman syndrome and Prader-Willi syndrome in CRISPR/Cas9-engineered human embryonic stem cells.

Author

Gilmore, Rachel B., Gorka, Dea, Stoddard, Christopher E., Sonawane, Pooja, Cotney, Justin, and Chamberlain, Stormy J.

Subjects
*HUMAN embryonic stem cells, *INDUCED pluripotent stem cells, *PRADER-Willi syndrome, *GENETIC regulation, *ANGELMAN syndrome
Abstract

Angelman syndrome (AS) and Prader-Willi syndrome (PWS), two distinct neurodevelopmental disorders, result from loss of expression from imprinted genes in the chromosome 15q11-13 locus most commonly caused by a megabase-scale deletion on either the maternal or paternal allele, respectively. Each occurs at an approximate incidence of 1/15,000 to 1/30,000 live births and has a range of debilitating phenotypes. Patient-derived induced pluripotent stem cells (iPSCs) have been valuable tools to understand human-relevant gene regulation at this locus and have contributed to the development of therapeutic approaches for AS. Nonetheless, gaps remain in our understanding of how these deletions contribute to dysregulation and phenotypes of AS and PWS. Variability across cell lines due to donor differences, reprogramming methods, and genetic background make it challenging to fill these gaps in knowledge without substantially increasing the number of cell lines used in the analyses. Isogenic cell lines that differ only by the genetic mutation causing the disease can ease this burden without requiring such a large number of cell lines. Here, we describe the development of isogenic human embryonic stem cell (hESC) lines modeling the most common genetic subtypes of AS and PWS. These lines allow for a facile interrogation of allele-specific gene regulation at the chromosome 15q11-q13 locus. Additionally, these lines are an important resource to identify and test targeted therapeutic approaches for patients with AS and PWS. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Association between sleep disturbances and challenging behavior in children and adolescents with Angelman syndrome.

Author

O'Donohoe, Darragh S., Whelan, Sally, Mannion, Arlene, Tones, Megan, Heussler, Helen, Bellgard, Matthew, and Leader, Geraldine

Subjects
*SLEEP interruptions, *ANGELMAN syndrome, *CHILD behavior, *DEVELOPMENTAL disabilities, *DEVELOPMENTAL delay
Abstract

Angelman Syndrome (AS) is a neurodevelopmental disorder with severe symptoms and associated comorbidities. It is caused by the inactivity or lack of the UBE3a gene. Symptoms of the syndrome include intellectual disability and developmental delay. The current study investigated sleep disturbances (SD) in children and adolescents with AS, associations between SD and possible predictors of SD. Variables examined included age, gender, newborn and infancy history, challenging behavior, type of therapy received, genetic type of AS, and seizures. The sample included data from 109 participants with a mean age of 8.21, accessed via the Global Angelman Syndrome Registry. Chi-square tests were carried out to assess the associations between the variables and a logistical regression was carried out to assess the possible predictors of SD. Associations were found between SD and certain repetitive behaviors: slapping walls, focal hand movements, and agitation at new situations. From these associations, a regression formed a predictive model for sleep disturbances. The findings of this research demonstrated the importance of investigating the relationship between sleep disturbances and challenging behavior in children and adolescents with AS and the need for further research in this area. • The current study investigated sleep disturbances (SD) in children and adolescents with AS. • The sample included data from 109 participants accessed via the Global Angelman Syndrome Registry. • Associations between sleep disturbances and challenging behavior were examined. • Associations were found between SD and slapping walls, focal hand movements, and agitation at new situations. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Comprehensive molecular and clinical findings in 29 patients with multi-locus imprinting disturbance.

Author

Urakawa, Tatsuki, Soejima, Hidenobu, Yamoto, Kaori, Hara-Isono, Kaori, Nakamura, Akie, Kawashima, Sayaka, Narusawa, Hiromune, Kosaki, Rika, Nishimura, Yutaka, Yamazawa, Kazuki, Hattori, Tetsuo, Muramatsu, Yukako, Inoue, Takanobu, Matsubara, Keiko, Fukami, Maki, Saitoh, Shinji, Ogata, Tsutomu, and Kagami, Masayo

Subjects
*PRADER-Willi syndrome, *ANGELMAN syndrome, *GENETIC variation, *REPRODUCTIVE technology, *SEQUENCE analysis
Abstract

Background: Multi-locus imprinting disturbance (MLID) with methylation defects in various differentially methylated regions (DMRs) has recently been identified in approximately 150 cases with imprinting disorders (IDs), and deleterious variants have been found in genes related to methylation maintenance of DMRs, such as those encoding proteins constructing the subcortical maternal complex (SCMC), in a small fraction of patients and/or their mothers. However, integrated methylation analysis for DMRs and sequence analysis for MLID-causative genes in MLID cases and their mothers have been performed only in a single study focusing on Beckwith-Wiedemann syndrome (BWS) and Silver-Russell syndrome (SRS) phenotypes. Results: Of 783 patients with various IDs we have identified to date, we examined a total of 386 patients with confirmed epimutation and 71 patients with epimutation or uniparental disomy. Consequently, we identified MLID in 29 patients with epimutation confirmed by methylation analysis for multiple ID-associated DMRs using pyrosequencing and/or methylation-specific multiple ligation-dependent probe amplification. MLID was detected in approximately 12% of patients with BWS phenotype and approximately 5% of patients with SRS phenotype, but not in patients with Kagami-Ogata syndrome, Prader-Willi syndrome, or Angelman syndrome phenotypes. We next conducted array-based methylation analysis for 78 DMRs and whole-exome sequencing in the 29 patients, revealing hypomethylation-dominant aberrant methylation patterns in various DMRs of all the patients, eight probably deleterious variants in genes for SCMC in the mothers of patients, and one homozygous deleterious variant in ZNF445 in one patient. These variants did not show gene-specific methylation disturbance patterns. Clinically, neurodevelopmental delay and/or intellectual developmental disorder (ND/IDD) was observed in about half of the MLID patients, with no association with the identified methylation disturbance patterns and genetic variants. Notably, seven patients with BWS phenotype were conceived by assisted reproductive technology (ART). Conclusions: The frequency of MLID was 7.5% (29/386) in IDs caused by confirmed epimutation. Furthermore, we revealed diverse patterns of hypomethylation-dominant methylation defects, nine deleterious variants, ND/IDD complications in about half of the MLID patients, and a high frequency of MLID in ART-conceived patients. [ABSTRACT FROM AUTHOR]

Published
2024
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21. Rhythmic high-amplitude delta with superimposed spikes (RHADS): a treatment dilemma.

Author

Shukla, Vanita, Webb, Paul, AlMohaimeed, Bashayer, Lee, James, and Boelman, Cyrus

Subjects
*RETT syndrome, *ANGELMAN syndrome, *ELECTROENCEPHALOGRAPHY, *SEIZURES (Medicine), *BRAIN diseases
Abstract

Pathognomonic EEG patterns have been described in genetic conditions such as Angelman and Rett syndromes. EEG patterns along the ictal-interictal continuum have been increasingly recognized with the greater availability of continuous EEG monitoring; however, treatment decisions may be difficult with unpredictable clinical implications. Rhythmic High-Amplitude Delta Activity with Superimposed (Poly) Spikes (RHADS) has been described as a particular EEG pattern in POLG1 Alpers Syndrome. The balance between treating subclinical seizures and managing encephalopathy in these patients is challenging. [ABSTRACT FROM AUTHOR]

Published
2024
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22. Adaptive Skills of Individuals with Angelman Syndrome Assessed Using the Vineland Adaptive Behavior Scales, 2nd Edition.

Author

Gwaltney, Angela, Potter, Sarah Nelson, Peters, Sarika U., Barbieri-Welge, Rene L., Horowitz, Lucia T., Noll, Lisa M., Hundley, Rachel J., Bird, Lynne M., Tan, Wen-Hann, Sadhwani, Anjali, and Wheeler, Anne

Subjects
*MOTOR ability, *RESEARCH funding, *CHILD psychopathology, *ANGELMAN syndrome, *PSYCHOLOGICAL adaptation, *DESCRIPTIVE statistics, *DEVELOPMENTAL disabilities, *HEALTH behavior, *COMMUNICATION, *LANGUAGE disorders, *ACTIVITIES of daily living, *SOCIALIZATION
Abstract

In the current study, we examined adaptive skills and trajectories over time in 257 individuals with Angelman syndrome (AS) using the Vineland Adaptive Behavior Scales, 2nd Edition. Multilevel linear models were used to examine differences between molecular subtypes over time, from one year to 13 years of age, in the adaptive domains of communication, daily living skills, socialization and motor skills. Individuals with non-deletion subtypes typically demonstrated a higher level of adaptive skills compared to those with deletion subtypes. Statistically significant growth was observed in all adaptive domains through at least early adolescence. Individuals with AS should continue to receive developmental services and educational supports through adolescence and into adulthood given the slow rates of growth being observed across adaptive domains. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Targeting TrkB–PSD-95 coupling to mitigate neurological disorders

Author

Xin Yang, Yu-Wen Alvin Huang, and John Marshall

Subjects
angelman syndrome, autism, brain-derived neurotrophic factor, depression, neurodegenerative disorder, neurodevelopmental disorder, postsynaptic density protein-95, synaptic plasticity, trkb, Neurology. Diseases of the nervous system, RC346-429
Abstract

Tropomyosin receptor kinase B (TrkB) signaling plays a pivotal role in dendritic growth and dendritic spine formation to promote learning and memory. The activity-dependent release of brain-derived neurotrophic factor at synapses binds to pre- or postsynaptic TrkB resulting in the strengthening of synapses, reflected by long-term potentiation. Postsynaptically, the association of postsynaptic density protein-95 with TrkB enhances phospholipase Cγ-Ca2+/calmodulin-dependent protein kinase II and phosphatidylinositol 3-kinase-mechanistic target of rapamycin signaling required for long-term potentiation. In this review, we discuss TrkB-postsynaptic density protein-95 coupling as a promising strategy to magnify brain-derived neurotrophic factor signaling towards the development of novel therapeutics for specific neurological disorders. A reduction of TrkB signaling has been observed in neurodegenerative disorders, such as Alzheimer’s disease and Huntington’s disease, and enhancement of postsynaptic density protein-95 association with TrkB signaling could mitigate the observed deficiency of neuronal connectivity in schizophrenia and depression. Treatment with brain-derived neurotrophic factor is problematic, due to poor pharmacokinetics, low brain penetration, and side effects resulting from activation of the p75 neurotrophin receptor or the truncated TrkB.T1 isoform. Although TrkB agonists and antibodies that activate TrkB are being intensively investigated, they cannot distinguish the multiple human TrkB splicing isoforms or cell type-specific functions. Targeting TrkB–postsynaptic density protein-95 coupling provides an alternative approach to specifically boost TrkB signaling at localized synaptic sites versus global stimulation that risks many adverse side effects.

Published
2025
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24. Early Check: Expanded Screening in Newborns

Author

University of North Carolina, Chapel Hill, The John Merck Fund, Duke University, Wake Forest University, North Carolina Department of Health and Human Services, National Center for Advancing Translational Sciences (NCATS), Cure SMA, The National Fragile X Foundation, Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), Asuragen, Inc., Sarepta Therapeutics, Inc., Muscular Dystrophy Association, The Leona M. and Harry B. Helmsley Charitable Trust, Juvenile Diabetes Research Foundation, Janssen Pharmaceuticals, GeneDx, and Illumina, Inc.

Published
2024

29. Angelman syndrome in Poland: current diagnosis and therapy status—the caregiver perspective: a questionnaire study

Author

Agata Suleja, Katarzyna Milska-Musa, Łukasz Przysło, Marzena Bednarczyk, Marcin Kostecki, Dominik Cysewski, Paweł Matryba, Anna Rozensztrauch, Michał Dwornik, Marcin Opacki, Robert Śmigiel, and Kacper Łukasiewicz

Subjects
Angelman syndrome, Rase diseases, Healthcare organisation, Genetic testing, Medicine
Abstract

Abstract Background Angelman syndrome (AS) is a rare neurodevelopmental disease caused by imprinting disorders that impede the production of the ubiquitin E3A ligase protein (UBE3A). AS affects multiple systems, with the main symptoms including epilepsy, psychomotor disorders and speech development disorders. To date, no study has been conducted in the Polish population to verify the condition's diagnosis and treatment process. Results Seventy patients with the median age of 60 months were included into the analysis. 80% of patients were diagnosed with deletion, 19.9% with a mutation of UBE3A gene, 4.3% with paternal uniparental disomy (UPD) and 2.8% with an imprinting defect. The mean age of first symptoms was 5 months, while the mean age of diagnosis was 29 months (earliest in deletion group at 23 months), and the median duration of diagnosis process was 7 months. The average time to a clinical geneticist appointment was 3 months. 37.9% of the patients initially received a different diagnosis. Epileptic seizures were present in 88.6% of the individuals. 98.6% of the studied group were under care of a pediatric neurologist, 47.1% of a gastroenterologist. A ketogenic diet was used in 7.1% of patients. Caregivers identified finding a specialist suitable for AS patients and access to genetic testing as the biggest problems. Conclusions The care of patients with AS in Poland is carried out according to the European and world standards, however there is an impeded access to clinical geneticist, and the knowledge about rare diseases among primary healthcare physicians could be improved. Moreover, access to AS care specialists and coordination of care is limited. There is a need for creation a specialized centers and databases for AS patients.

Published
2024
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30. 1H-NMR-based metabolomics reveals metabolic alterations in early development of a mouse model of Angelman syndrome

Author

Pooja Kri Gupta, Sharon Barak, Yonatan Feuermann, Gil Goobes, and Hanoch Kaphzan

Subjects
Angelman syndrome, Metabolite, Mitochondria, Reactive oxygen species, Developmental disorders, Lactate, Neurology. Diseases of the nervous system, RC346-429
Abstract

Abstract Background Angelman syndrome (AS) is a rare neurodevelopmental genetic disorder caused by the loss of function of the ubiquitin ligase E3A (UBE3A) gene, affecting approximately 1:15,000 live births. We have recently shown that mitochondrial function in AS is altered during mid to late embryonic brain development leading to increased oxidative stress and enhanced apoptosis of neural precursor cells. However, the overall alterations of metabolic processes are still unknown. Hence, as a follow-up, we aim to investigate the metabolic profiles of wild-type (WT) and AS littermates and to identify which metabolic processes are aberrant in the brain of AS model mice during embryonic development. Methods We collected brain tissue samples from mice embryos at E16.5 and performed metabolomic analyses using proton nuclear magnetic resonance (1H-NMR) spectroscopy. Multivariate and Univariate analyses were performed to determine the significantly altered metabolites in AS mice. Pathways associated with the altered metabolites were identified using metabolite set enrichment analysis. Results Our analysis showed that overall, the metabolomic fingerprint of AS embryonic brains differed from those of their WT littermates. Moreover, we revealed a significant elevation of distinct metabolites, such as acetate, lactate, and succinate in the AS samples compared to the WT samples. The elevated metabolites were significantly associated with the pyruvate metabolism and glycolytic pathways. Limitations Only 14 metabolites were successfully identified and investigated in the present study. The effect of unidentified metabolites and their unresolved peaks was not determined. Additionally, we conducted the metabolomic study on whole brain tissue samples. Employing high-resolution NMR studies on different brain regions could further expand our knowledge regarding metabolic alterations in the AS brain. Furthermore, increasing the sample size could reveal the involvement of more significantly altered metabolites in the pathophysiology of the AS brain. Conclusions Ube3a loss of function alters bioenergy-related metabolism in the AS brain during embryonic development. Furthermore, these neurochemical changes could be linked to the mitochondrial reactive oxygen species and oxidative stress that occurs during the AS embryonic development.

Published
2024
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31. A clinical-translational review of sleep problems in neurodevelopmental disabilities

Author

Sarika U. Peters, Althea Robinson Shelton, Beth A. Malow, and Jeffrey L. Neul

Subjects
Sleep, Neurodevelopmental disabilities, Animal models, Rett syndrome, Angelman syndrome, Down syndrome, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Abstract Sleep disorders are very common across neurodevelopmental disorders and place a large burden on affected children, adolescents, and their families. Sleep disturbances seem to involve a complex interplay of genetic, neurobiological, and medical/environmental factors in neurodevelopmental disorders. In this review, we discuss animal models of sleep problems and characterize their presence in two single gene disorders, Rett Syndrome, and Angelman Syndrome and two more commonly occurring neurodevelopmental disorders, Down Syndrome, and autism spectrum disorders. We then discuss strategies for novel methods of assessment using wearable sensors more broadly for neurodevelopmental disorders in general, including the importance of analytical validation. An increased understanding of the mechanistic contributions and potential biomarkers of disordered sleep may offer quantifiable targets for interventions that improve overall quality of life for affected individuals and their families.

Published
2024
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32. NanoImprint: A DNA methylation tool for clinical interpretation and diagnosis of common imprinting disorders using nanopore long‐read sequencing.

Author

Bækgaard, Caroline Hey, Lester, Emilie Boye, Møller‐Larsen, Steffen, Lauridsen, Mathilde Faurholdt, and Larsen, Martin Jakob

Subjects
*WHOLE genome sequencing, *DNA methylation, *ANGELMAN syndrome, *METHYLATION, *EPIGENETICS
Abstract

Introduction: Long‐read whole genome sequencing like Oxford Nanopore Technology, is increasingly being introduced in clinical settings. With its ability to simultaneously call sequence variation and DNA modifications including 5‐methylcytosine, nanopore is a promising technology to improve diagnostics of imprinting disorders. Methods: Currently, no tools to analyze DNA methylation patterns at known clinically relevant imprinted regions are available. Here we present NanoImprint, which generates an easily interpretable report, based on long‐read nanopore sequencing, to use for identifying clinical relevant abnormalities in methylation levels at 14 imprinted regions and diagnosis of common imprinting disorders. Results and conclusion: NanoImprint outputs a summarizing table and visualization plots displays methylation frequency (%) and chromosomal positions for all regions, with phased data color‐coded for the two alleles. We demonstrate the utility of NanoImprint using three imprinting disorder samples from patients with Beckwith‐Wiedemann syndrome (BWS), Angelman syndrome (AS) and Prader‐Willi syndrome (PWS). NanoImprint script is available from https://github.com/carolinehey/NanoImprint. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Angelman syndrome in Poland: current diagnosis and therapy status—the caregiver perspective: a questionnaire study.

Author

Suleja, Agata, Milska-Musa, Katarzyna, Przysło, Łukasz, Bednarczyk, Marzena, Kostecki, Marcin, Cysewski, Dominik, Matryba, Paweł, Rozensztrauch, Anna, Dwornik, Michał, Opacki, Marcin, Śmigiel, Robert, and Łukasiewicz, Kacper

Subjects
*PSYCHOMOTOR disorders, *ANGELMAN syndrome, *CAREGIVERS, *SPEECH disorders, *POLISH people
Abstract

Background: Angelman syndrome (AS) is a rare neurodevelopmental disease caused by imprinting disorders that impede the production of the ubiquitin E3A ligase protein (UBE3A). AS affects multiple systems, with the main symptoms including epilepsy, psychomotor disorders and speech development disorders. To date, no study has been conducted in the Polish population to verify the condition's diagnosis and treatment process. Results: Seventy patients with the median age of 60 months were included into the analysis. 80% of patients were diagnosed with deletion, 19.9% with a mutation of UBE3A gene, 4.3% with paternal uniparental disomy (UPD) and 2.8% with an imprinting defect. The mean age of first symptoms was 5 months, while the mean age of diagnosis was 29 months (earliest in deletion group at 23 months), and the median duration of diagnosis process was 7 months. The average time to a clinical geneticist appointment was 3 months. 37.9% of the patients initially received a different diagnosis. Epileptic seizures were present in 88.6% of the individuals. 98.6% of the studied group were under care of a pediatric neurologist, 47.1% of a gastroenterologist. A ketogenic diet was used in 7.1% of patients. Caregivers identified finding a specialist suitable for AS patients and access to genetic testing as the biggest problems. Conclusions: The care of patients with AS in Poland is carried out according to the European and world standards, however there is an impeded access to clinical geneticist, and the knowledge about rare diseases among primary healthcare physicians could be improved. Moreover, access to AS care specialists and coordination of care is limited. There is a need for creation a specialized centers and databases for AS patients. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Epigenetics in rare neurological diseases.

Author

Roberts, Chris-Tiann, Arezoumand, Khatereh Saei, Shahib, Ashraf Kadar, Davie, James R., and Rastegar, Mojgan

Subjects
HUNTINGTON disease, PRADER-Willi syndrome, NEUROLOGICAL disorders, RETT syndrome, ANGELMAN syndrome
Abstract

Rare neurological diseases include a vast group of heterogenous syndromes with primary impairment(s) in the peripheral and/or central nervous systems. Such rare disorders may have overlapping phenotypes, despite their distinct genetic etiology. One unique aspect of rare neurological diseases is their potential common association with altered epigenetic mechanisms. Epigenetic mechanisms include regulatory processes that control gene expression and cellular phenotype without changing the composition of the corresponding DNA sequences. Epigenetic factors include three types of proteins, the "readers, writers, and erasers" of DNA and DNA-bound proteins. Thus, epigenetic impairments of many neurological diseases may contribute to their pathology and manifested phenotypes. Here, we aim to provide a comprehensive review on the general etiology of selected rare neurological diseases, that include Rett Syndrome, Prader-Willi Syndrome, Rubinstein-Taybi Syndrome, Huntington's disease, and Angelman syndrome, with respect to their associated aberrant epigenetic mechanisms. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Do metabolic deficits contribute to sleep disruption in monogenic intellectual disability syndromes?

Author

Valencia, Mariela Lopez, Sofela, Folasade A., Jongens, Thomas A., and Sehgal, Amita

Subjects
*FRAGILE X syndrome, *SLEEP interruptions, *TUBEROUS sclerosis, *PEOPLE with intellectual disabilities, *ANGELMAN syndrome
Abstract

Sleep disturbances are often found in people with monogenic intellectual disability syndromes (MIDS), representing an interesting target for investigation as these disturbances are likely to contribute to other behavioral phenotypes. Animal models recapitulate many features of MIDS, including sleep and circadian phenotypes, which allows dissection of the mechanisms that lead to sleep disruption. Recent studies suggest links between sleep/circadian rhythm disruptions and metabolic deficits, which are supported by animal models of MIDS. A mechanistic understanding of these links could suggest noninvasive treatments, including dietary interventions, for MIDS. Beneficial effects of current therapies that improve behavior, including sleep, in MIDS may be mediated in part by metabolic mechanisms. Intellectual disability is defined as limitations in cognitive and adaptive behavior that often arise during development. Disordered sleep is common in intellectual disability and, given the importance of sleep for cognitive function, it may contribute to other behavioral phenotypes. Animal models of intellectual disability, in particular of monogenic intellectual disability syndromes (MIDS), recapitulate many disease phenotypes and have been invaluable for linking some of these phenotypes to specific molecular pathways. An emerging feature of MIDS, in both animal models and humans, is the prevalence of metabolic abnormalities, which could be relevant for behavior. Focusing on specific MIDS that have been molecularly characterized, we review sleep, circadian, and metabolic phenotypes in animal models and humans and propose that altered metabolic state contributes to the abnormal sleep/circadian phenotypes in MIDS. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Epilepsy, EEG and chromosomal rearrangements.

Author

Paprocka, Justyna, Coppola, Antonietta, Cuccurullo, Claudia, Stawicka, Elżbieta, and Striano, Pasquale

Subjects
FRAGILE X syndrome, CHROMOSOMAL rearrangement, ANGELMAN syndrome, SYMPTOMS, LITERATURE reviews, ELECTROENCEPHALOGRAPHY
Abstract

Chromosomal abnormalities are associated with a broad spectrum of clinical manifestations, one of the more commonly observed of which is epilepsy. The frequency, severity, and type of epileptic seizures vary according to the macro‐ and microrearrangements present. Even within a single chromosomal anomaly, we most often deal with a phenotypic spectrum. The aim of the study was to look for chromosomal rearrangements with a characteristic electroencephalographic pattern. Only a few disorders have peculiar electroclinical abnormalities: 1p36, 4p16, 6q terminal or trisomy 12p, Angelman syndrome, inv dup 15, 15q13.3 deletions, ring 20, Down syndrome, or Xp11.22–11.23 duplication. We also reviewed studies on epileptic seizures and typical electroencephalographic patterns described in certain chromosomal rearrangements, focusing on the quest for potential electroclinical biomarkers. The comprehensive review concludes with clinical presentations of the most common micro and macro chromosomal rearrangements, such as 17q21.31 microdeletion, 6q terminal deletion, 15q inv dup syndrome, 2q24.4 deletion, Xp11.22–11.23 duplication, 15q13.3 microdeletion, 1p36 terminal deletion, 5q14.3 microdeletion, and Xq28 duplication. The papers reviewed did not identify any specific interictal electroencephalographic patterns that were unique and significant biomarkers for a given chromosomal microrearrangement. The types of seizures described varied, with both generalized and focal seizures of various morphologies being reported. Patients with chromosomal anomalies may also meet the criteria for specific epileptic syndromes such as Infantile Epilepsy Spasms Syndrome (IESS, West syndrome): 16p13.11, 15q13.3 and 17q21.31 microdeletions, 5q inv dup. syndrome; Dravet syndrome (2q24.4 deletion), Lennox–Gastaut syndrome (15q11 duplication. 1q13.3, 5q inv dup.); or Self‐Limited Epilepsy with Autonomic Features (SeLEAS, Panayiotopoulos syndrome: terminal deletion of 6q.n), Self‐Limited Epilepsy with Centrotemporal Spikes (SeLECT): fragile X syndrome. It is essential to better characterize groups of patients to more accurately define patterns of epilepsy and EEG abnormalities. This could lead to new treatment strategies. Future research is required to better understand epileptic syndromes and chromosomal rearrangements. Plain Language Summary: This paper presents EEG recording abnormalities in patients with various gene abnormalities that can cause epilepsy. The authors summarize these EEG variations based on a literature review to see if they occur frequently enough in other chromosomal abnormalities (in addition to those already known) to be a clue for further diagnosis. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Evaluation of an In-House Genetic Testing Method for Confirming Prader-Willi and Angelman Syndromes in Sri Lanka.

Author

Kugalingam, Nirosha, de Silva, Deepthi, Rathnayake, Pyara, Atapattu, Navoda, Ranaweera, Dinali M., and Chandrasekharan, Naduviladath V.

Subjects
PRADER-Willi syndrome, GENETIC testing, ANGELMAN syndrome, TEST methods, GENETIC counseling, INTERFERON beta 1b
Abstract

Background: Prader-Willi syndrome (PWS, MIM 176,270) and Angelman syndrome (AS, MIM 105,830) are caused by imprinting defects of chromosome 15q11-13, with loss of maternal gene expression causing AS and paternal gene expression causing PWS. The diagnosis, once established in most cases by using a methylation-specific PCR test, enables appropriate therapeutic interventions and avoids the need for further investigations. Genetic testing for PWS/AS is limited in Sri Lanka (and in other low- and middle-income countries), mainly because parents are unable to pay for testing as these are not funded by the health service. Methods: Ninety cases (46 female) with clinical features suggesting PWS (n = 37) and AS (n = 53), referred by a pediatric endocrinologist and a pediatric neurologist, were recruited. Clinical information and blood samples were obtained following informed consent. DNA was extracted and methylation-specific PCR (MS-PCR) was performed following bisulfite modification of DNA by using an in-house method and a kit. Results were validated using known positive controls. Parent-child trio DNA samples were used in cases with confirmed PWS and AS to determine if the disease was due to a deletion or uniparental disomy. The cost of the MS-PCR testing of the two modification methods and the microsatellite analysis was determined. Results: Among the suspected PWS cases, 19/37 were positive, while 5/53 of the suspected AS cases were positive. The lower identification rate of AS is probably related to the overlap of clinical features of this condition with other disorders. The kit-based modification method was more reliable, less time-consuming, and cost-effective in our laboratory. Conclusions: The kit-based modification followed by MS-PCR described in this study enables more affordable genetic testing of suspected PWS/AS cases, and this is likely to improve patient care by targeting appropriate therapy for the affected cases. Parental genetic counselling is made possible regarding the low recurrence risk, especially where a deletion or uniparental disomy is confirmed. In MS-PCR, negative cases with a strong clinical suspicion of AS, UBE3A mutation testing is required. In addition, imprinting center mutation/deletion testing may also be needed in strongly clinically suspected, MS-PCR negative PWS and AS cases. [ABSTRACT FROM AUTHOR]

Published
2024
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38. 1H-NMR-based metabolomics reveals metabolic alterations in early development of a mouse model of Angelman syndrome.

Author

Gupta, Pooja Kri, Barak, Sharon, Feuermann, Yonatan, Goobes, Gil, and Kaphzan, Hanoch

Subjects
*ANGELMAN syndrome, *PROTON magnetic resonance, *METABOLOMICS, *LABORATORY mice, *METABOLOMIC fingerprinting
Abstract

Background: Angelman syndrome (AS) is a rare neurodevelopmental genetic disorder caused by the loss of function of the ubiquitin ligase E3A (UBE3A) gene, affecting approximately 1:15,000 live births. We have recently shown that mitochondrial function in AS is altered during mid to late embryonic brain development leading to increased oxidative stress and enhanced apoptosis of neural precursor cells. However, the overall alterations of metabolic processes are still unknown. Hence, as a follow-up, we aim to investigate the metabolic profiles of wild-type (WT) and AS littermates and to identify which metabolic processes are aberrant in the brain of AS model mice during embryonic development. Methods: We collected brain tissue samples from mice embryos at E16.5 and performed metabolomic analyses using proton nuclear magnetic resonance (1H-NMR) spectroscopy. Multivariate and Univariate analyses were performed to determine the significantly altered metabolites in AS mice. Pathways associated with the altered metabolites were identified using metabolite set enrichment analysis. Results: Our analysis showed that overall, the metabolomic fingerprint of AS embryonic brains differed from those of their WT littermates. Moreover, we revealed a significant elevation of distinct metabolites, such as acetate, lactate, and succinate in the AS samples compared to the WT samples. The elevated metabolites were significantly associated with the pyruvate metabolism and glycolytic pathways. Limitations: Only 14 metabolites were successfully identified and investigated in the present study. The effect of unidentified metabolites and their unresolved peaks was not determined. Additionally, we conducted the metabolomic study on whole brain tissue samples. Employing high-resolution NMR studies on different brain regions could further expand our knowledge regarding metabolic alterations in the AS brain. Furthermore, increasing the sample size could reveal the involvement of more significantly altered metabolites in the pathophysiology of the AS brain. Conclusions: Ube3a loss of function alters bioenergy-related metabolism in the AS brain during embryonic development. Furthermore, these neurochemical changes could be linked to the mitochondrial reactive oxygen species and oxidative stress that occurs during the AS embryonic development. [ABSTRACT FROM AUTHOR]

Published
2024
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39. A clinical-translational review of sleep problems in neurodevelopmental disabilities.

Author

Peters, Sarika U., Shelton, Althea Robinson, Malow, Beth A., and Neul, Jeffrey L.

Subjects
SLEEP, SLEEP interruptions, NEURAL development, AUTISM spectrum disorders, RETT syndrome, CHILDREN with autism spectrum disorders
Abstract

Sleep disorders are very common across neurodevelopmental disorders and place a large burden on affected children, adolescents, and their families. Sleep disturbances seem to involve a complex interplay of genetic, neurobiological, and medical/environmental factors in neurodevelopmental disorders. In this review, we discuss animal models of sleep problems and characterize their presence in two single gene disorders, Rett Syndrome, and Angelman Syndrome and two more commonly occurring neurodevelopmental disorders, Down Syndrome, and autism spectrum disorders. We then discuss strategies for novel methods of assessment using wearable sensors more broadly for neurodevelopmental disorders in general, including the importance of analytical validation. An increased understanding of the mechanistic contributions and potential biomarkers of disordered sleep may offer quantifiable targets for interventions that improve overall quality of life for affected individuals and their families. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Ube3a unsilencer for the potential treatment of Angelman syndrome.

Author

Vihma, Hanna, Li, Kelin, Welton-Arndt, Anna, Smith, Audrey L., Bettadapur, Kiran R., Gilmore, Rachel B., Gao, Eric, Cotney, Justin L., Huang, Hsueh-Cheng, Collins, Jon L., Chamberlain, Stormy J., Lee, Hyeong-Min, Aubé, Jeffrey, and Philpot, Benjamin D.

Subjects
ANGELMAN syndrome, SMALL molecules, RESEARCH personnel, DELETION mutation, GENE silencing, LABORATORY mice
Abstract

Deletion of the maternal UBE3A allele causes Angelman syndrome (AS); because paternal UBE3A is epigenetically silenced by a long non-coding antisense (UBE3A-ATS) in neurons, this nearly eliminates UBE3A protein in the brain. Reactivating paternal UBE3A holds promise for treating AS. We previously showed topoisomerase inhibitors can reactivate paternal UBE3A, but their therapeutic challenges prompted our search for small molecule unsilencers with a different mechanism of action. Here, we found that (S)-PHA533533 acts through a novel mechanism to significantly increase paternal Ube3a mRNA and UBE3A protein levels while downregulating Ube3a-ATS in primary neurons derived from AS model mice. Furthermore, peripheral delivery of (S)-PHA533533 in AS model mice induces widespread neuronal UBE3A expression. Finally, we show that (S)-PHA533533 unsilences paternal UBE3A in AS patient-derived neurons, highlighting its translational potential. Our findings provide a lead for developing a small molecule treatment for AS that could be safe, non-invasively delivered, and capable of brain-wide unsilencing of paternal UBE3A. Angelman syndrome is a neurodevelopmental disorder caused by the deletion of a single gene. Here, researchers discovered a small molecule that could be delivered peripherally to activate a dormant copy of the gene throughout the brain, providing a potential treatment opportunity. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Parents' preferences for receiving and discussing prognostic genetic information regarding their children's neurodevelopmental condition: A qualitative study.

Author

Turbitt, Erin, Bourne, Meg, McEwen, Alison, and Amor, David J.

Subjects
*DESPAIR, *FRAGILE X syndrome, *PARENTS, *NEURAL development, *TECHNOLOGICAL innovations, *ANGELMAN syndrome
Abstract

Aim: To investigate parents' preferences and motivations for receiving and discussing prognostic genetic test results. Method: We used a cross‐sectional, interpretive description qualitative study design. We collected data through semi‐structured interviews with Australian parents, which we analysed using reflexive thematic analysis. Results: Parents (n = 32) had a child or children with a genetic neurodevelopmental condition, such as fragile X syndrome, DiGeorge (22q11.2 deletion) syndrome, or Angelman syndrome. Parents of mildly impacted or older children were tolerant to prognostic uncertainty. Parents found conversations about their child's prognosis emotional and preferred to discuss their child's potential strengths and challenges. While most were enthusiastic about prognostic tests and described many motivations for testing, the potential for prognostic information to contribute to a loss of hope and stigmatizing societal views were also discussed. Interpretation: Parents had mixed preferences and motivations for acquiring prognostic genetic information about their child, contrasting evidence in other contexts such as cancer where parents typically have minimal tolerance of uncertainty. Health professionals should consider strength‐based framing of prognostic information gained from current and emerging technologies when returning results to families. What this paper adds: Parents had varied views about receiving prognostic information on their children's neurodevelopmental condition.Some parents preferred prognostic uncertainty about their children's genetic neurodevelopmental condition. [ABSTRACT FROM AUTHOR]

Published
2024
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42. Enabling endpoint development for interventional clinical trials in individuals with Angelman syndrome: a prospective, longitudinal, observational clinical study (FREESIAS).

Author

Tjeertes, Jorrit, Bacino, Carlos, Bichell, Terry, Bustamante, Mariana, Crean, Rebecca, Jeste, Shafali, Komorowski, Robert, Krishnan, Michelle, Miller, Meghan, Nobbs, David, Ochoa-Lubinoff, Cesar, Parkerson, Kimberly, Rotenberg, Alexander, Sadhwani, Anjali, Shen, Mark, Squassante, Lisa, Tan, Wen-Hann, Vincenzi, Brenda, Wheeler, Anne, Hipp, Joerg, Berry-Kravis, Elizabeth, and Bird, Lynne

Subjects
Angelman syndrome, Clinical outcome assessments, Clinical trials, Digital health technology, EEG, Endpoint development, Natural history, Sleep, UBE3A, Humans, Angelman Syndrome, Prospective Studies, Pandemics, COVID-19, Electroencephalography
Abstract

BACKGROUND: Angelman syndrome (AS) is a rare neurodevelopmental disorder characterized by the absence of a functional UBE3A gene, which causes developmental, behavioral, and medical challenges. While currently untreatable, comprehensive data could help identify appropriate endpoints assessing meaningful improvements in clinical trials. Herein are reported the results from the FREESIAS study assessing the feasibility and utility of in-clinic and at-home measures of key AS symptoms. METHODS: Fifty-five individuals with AS (aged

Published
2023

43. Quantitative measures of motor development in Angelman syndrome

Author

Duis, Jessica, Skinner, Austin, Carson, Robert, Gouelle, Arnaud, Annoussamy, Melanie, Silverman, Jill L, Apkon, Susan, Servais, Laurent, and Carollo, James

Subjects
Biological Sciences, Biomedical and Clinical Sciences, Clinical Sciences, Genetics, Rare Diseases, Intellectual and Developmental Disabilities (IDD), Neurodegenerative, Brain Disorders, Rehabilitation, Physical Rehabilitation, Neurosciences, Clinical Research, Humans, Angelman Syndrome, Cross-Sectional Studies, Walking, Gait, Knee Joint, Biomechanical Phenomena, Angelman syndrome, gait, genetics, movement disorders, muscle spasticity, neurodevelopmental disabilities, outcome measures, Clinical sciences
Abstract

Angelman Syndrome is a rare neurodevelopmental disorder characterized by developmental delay, lack of speech, seizures, intellectual disability, characteristic behavior, and movement disorders. Clinical gait analysis provides the opportunity for movement quantification to investigate an observed maladaptive change in gait pattern and offers an objective outcome of change. Pressure-sensor-based technology, inertial and activity monitoring, and instrumented gait analysis (IGA) were employed to define motor abnormalities in Angelman syndrome. Temporal-spatial gait parameters of persons with Angelman Syndrome (pwAS) show deficiencies in gait performance through walking speed, step length, step width, and walk ratio. pwAS walk with reduced step lengths, increased step width, and greater variability. Three-dimensional motion kinematics showed increased anterior pelvic tilt, hip flexion, and knee flexion. PwAS have a walk ratio more than two standard deviations below controls. Dynamic electromyography showed prolonged activation of knee extensors, which was associated with a decreased range of motion and the presence of hip flexion contractures. Use of multiple gait tracking modalities revealed that pwAS exhibit a change in gait pattern to a flexed knee gait pattern.  Cross-sectional studies of individuals with AS show a regression toward this maladaptive gait pattern over development in pwAS ages 4-11. PwAS unexpectedly did not have spasticity associated with change in gait pattern. Multiple quantitative measures of motor patterning may offer early biomarkers of gait decline consistent with critical periods of intervention, insight into appropriate management strategies, objective primary outcomes, and early indicators of adverse events.

Published
2023

45. Transcriptional reprogramming restores UBE3A brain-wide and rescues behavioral phenotypes in an Angelman syndrome mouse model

Author

O'Geen, Henriette, Beitnere, Ulrika, Garcia, Miranda S, Adhikari, Anna, Cameron, David L, Fenton, Timothy A, Copping, Nycole A, Deng, Peter, Lock, Samantha, Halmai, Julian ANM, Villegas, Isaac J, Liu, Jiajian, Wang, Danhui, Fink, Kyle D, Silverman, Jill L, and Segal, David J

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Clinical Sciences, Gene Therapy, Biotechnology, Intellectual and Developmental Disabilities (IDD), Pediatric, Brain Disorders, Genetics, Behavioral and Social Science, Rare Diseases, Orphan Drug, Neurosciences, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Neurological, Animals, Mice, Angelman Syndrome, Brain, Gene Expression Regulation, Transcription Factors, Phenotype, Ubiquitin-Protein Ligases, AAV therapy, AS, ATF, Angelman syndrome, UBE3A, artificial transcription factor, brain-wide delivery, epigenome editing, imprinting, zinc finger, Biological Sciences, Technology, Medical and Health Sciences, Clinical sciences, Medical biotechnology
Abstract

Angelman syndrome (AS) is a neurogenetic disorder caused by the loss of ubiquitin ligase E3A (UBE3A) gene expression in the brain. The UBE3A gene is paternally imprinted in brain neurons. Clinical features of AS are primarily due to the loss of maternally expressed UBE3A in the brain. A healthy copy of paternal UBE3A is present in the brain but is silenced by a long non-coding antisense transcript (UBE3A-ATS). Here, we demonstrate that an artificial transcription factor (ATF-S1K) can silence Ube3a-ATS in an adult mouse model of Angelman syndrome (AS) and restore endogenous physiological expression of paternal Ube3a. A single injection of adeno-associated virus (AAV) expressing ATF-S1K (AAV-S1K) into the tail vein enabled whole-brain transduction and restored UBE3A protein in neurons to ∼25% of wild-type protein. The ATF-S1K treatment was highly specific to the target site with no detectable inflammatory response 5 weeks after AAV-S1K administration. AAV-S1K treatment of AS mice showed behavioral rescue in exploratory locomotion, a task involving gross and fine motor abilities, similar to low ambulation and velocity in AS patients. The specificity and tolerability of a single injection of AAV-S1K therapy for AS demonstrate the use of ATFs as a promising translational approach for AS.

Published
2023

47. Understanding reliability of the observer-reported communication ability measure within Angelman syndrome through the lens of generalizability theory

Author

Dandan Chen, Christina K. Zigler, Li Lin, Nicole Lucas, Molly McFatrich, Jennifer Panagoulias, Allyson Berent, and Bryce B. Reeve

Subjects
Angelman syndrome, Reliability, Generalizability theory, Communication, Caregivers, Public aspects of medicine, RA1-1270
Abstract

Abstract Aims Caregivers rate improved communication ability as one of the most desired outcomes for successful interventions for individuals with Angelman syndrome (AS). When measuring communication ability in clinical trials, the reliability of such measures is critical for detecting significant changes over time. This study examined the reliability of the Observed-Reported Communication Ability (ORCA) measure completed by caregivers of individuals with AS. Methods The ORCA measure was completed by 249 caregivers with 170 caregivers completing the ORCA measure again after 5–12 days. Generalizability theory was used to examine the following sources of measurement error in ORCA scores: concepts, subdomains, assessment points, and the interactions among those facets and the object of measurement: communication ability. Three generalizability studies were conducted to understand the reliability of the ORCA measure for different measurement designs. Decision studies were carried out to demonstrate the optimization of measurement procedures of the ORCA measure. Results G and Phi coefficients of the original measurement design exceeded the 0.80 threshold considered sufficiently reliable to make relative and absolute decisions about the communication ability of individuals with AS based on their caregivers’ observed scores. The optimization procedures indicated that increasing the number of communication concepts and/or assessment points leads to more reliable estimates of communication. Conclusion The ORCA measure was able to reliably distinguish different levels of communication ability among individuals with AS. Multiple assessment points and or more concepts would provide more precise estimates of an individual’s communication ability but at the cost of survey fatigue.

Published
2024
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48. Sleep disturbance in Angelman syndrome patients

Author

Song Qu, Junyi Wang, Xingying Guan, Cui Song, and Yanyan Wang

Subjects
Angelman syndrome, Sleep disturbance, Imprinting disorder, Medicine
Abstract

Abstract Angelman syndrome (AS) is a neurodevelopmental disorder caused by abnormal expression of the maternal ubiquitin protein ligase E3A gene (UBE3A). As one of the most challenging symptoms and important focuses of new treatment, sleep disturbance is reported to occur in 70–80% of patients with AS and has a serious impact on the lives of patients and their families. Although clinical studies and animal model studies have provided some clues, recent research into sleep disorders in the context of AS is still very limited. It is generally accepted that there is an interaction between neurodevelopment and sleep; however, there is no recognized mechanism for sleep disorders in AS patients. Accordingly, there are no aetiologically specific clinical treatments for AS-related sleep disorders. The most common approaches involve ameliorating symptoms through methods such as behavioural therapy and symptomatic pharmacotherapy. In recent years, preclinical and clinical studies on the targeted treatment of AS have emerged. Although precision therapy for restoring the UBE3A level and the function of its signalling pathways is inevitably hindered by many remaining obstacles, this approach has the potential to address AS-related sleep disturbance.

Published
2024
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49. Colin Farrell: 'I Just Think He's Magic'.

Author

JORDAN, JULIE

Subjects
*YOUNG adults, *LEARNING curve, *ANGELMAN syndrome, *PARENTS, *MOTHERS, *BEACHES
Abstract

Colin Farrell, the actor, has opened up about his son James, who has Angelman syndrome, a rare genetic disorder causing severe developmental and neurological disabilities. Farrell is starting a foundation to support individuals with Angelman syndrome and other intellectual disabilities. The foundation aims to address the chronic underfunding and resource shortages in the Home and Community-Based Waiver system, which provides long-term support for individuals with disabilities. Farrell hopes to ensure that every person living with an intellectual disability has an enriched and meaningful existence within their own communities. [Extracted from the article]

Published
2024

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