Your search keyword '"MAGEL2"' showing total 147 results

1. Hormonal Imbalances in Prader–Willi and Schaaf–Yang Syndromes Imply the Evolution of Specific Regulation of Hypothalamic Neuroendocrine Function in Mammals.

Author

Hoyos Sanchez, Maria Camila, Bayat, Tara, Gee, Rebecca R. Florke, and Fon Tacer, Klementina

Subjects

*PRADER-Willi syndrome, *COMPULSIVE behavior, *NEUROENDOCRINE system, *NON-coding RNA, *INTELLECTUAL disabilities, *HOMEOSTASIS, *MAMMAL evolution

Abstract

The hypothalamus regulates fundamental aspects of physiological homeostasis and behavior, including stress response, reproduction, growth, sleep, and feeding, several of which are affected in patients with Prader–Willi (PWS) and Schaaf–Yang syndrome (SYS). PWS is caused by paternal deletion, maternal uniparental disomy, or imprinting defects that lead to loss of expression of a maternally imprinted region of chromosome 15 encompassing non-coding RNAs and five protein-coding genes; SYS patients have a mutation in one of them, MAGEL2. Throughout life, PWS and SYS patients suffer from musculoskeletal deficiencies, intellectual disabilities, and hormonal abnormalities, which lead to compulsive behaviors like hyperphagia and temper outbursts. Management of PWS and SYS is mostly symptomatic and cures for these debilitating disorders do not exist, highlighting a clear, unmet medical need. Research over several decades into the molecular and cellular roles of PWS genes has uncovered that several impinge on the neuroendocrine system. In this review, we will discuss the expression and molecular functions of PWS genes, connecting them with hormonal imbalances in patients and animal models. Besides the observed hormonal imbalances, we will describe the recent findings about how the loss of individual genes, particularly MAGEL2, affects the molecular mechanisms of hormone secretion. These results suggest that MAGEL2 evolved as a mammalian-specific regulator of hypothalamic neuroendocrine function. [ABSTRACT FROM AUTHOR]

Published

2023

2. Report of two cases of Schaaf‐Yang syndrome: Same genotype and different phenotype.

Author

Rodriguez, Ana Maria, Schain, Katherine, Jayakar, Parul, Wright, Meredith S., Chowdhury, Shimul, and Salyakina, Daria

Subjects

*PHENOTYPES, *GENOTYPES, *NUCLEOTIDE sequencing, *WHOLE genome sequencing, *SYNDROMES

Abstract

Key Clinical Message: We report two, genotypically identical but phenotypically distinct cases of Schaaf‐Yang syndrome and propose the early use of Genome Sequencing in patients with nonspecific presentations to facilitate the early diagnosis of children with rare genetic diseases and improve overall health care outcomes. [ABSTRACT FROM AUTHOR]

Published

2023

3. Two new cases with novel pathogenic variants reflecting the clinical diversity of Schaaf‐Yang syndrome.

Author

Alavanda, Ceren, Arslan Ateş, Esra, Yavaş Abalı, Zehra, Geçkinli, Bilgen Bilge, Turan, Serap, and Arman, Ahmet

Subjects

*PRADER-Willi syndrome, *AUTISM spectrum disorders, *SYNDROMES, *EARLY death, *DEVELOPMENTAL delay

Abstract

Schaaf‐Yang syndrome (SHFYNG) is a rare pleiotropic disorder, characterized by hypotonia, joint contractures, autism spectrum disorders (ASD), and developmental delay/intellectual disability. Although it shares some common features with Prader‐Willi Syndrome, joint contractures, and ASD were more commonly detected in in this syndrome. Recently, it was shown that truncating variants in the paternal allele of the MAGEL2 gene cause SHFYNG. Here, we present two patients diagnosed with SHFYNG syndrome having two different novel truncating variants in the MAGEL2 gene, one paternally inherited and one de novo. One patient had obesity, brachydactyly and dysmorphic features, and the other patient presented with contractures, severe hypotonia and early death. This is the first report of Turkish SHFYNG syndrome cases presented to emphasize the phenotypic diversity of the syndrome. [ABSTRACT FROM AUTHOR]

Published

2023

4. Prader-Willi Syndrome

Author

Butler, Merlin G., Pfaff, Donald W., editor, Volkow, Nora D., editor, and Rubenstein, John L., editor

Published

2022

5. Cell-specific secretory granule sorting mechanisms: the role of MAGEL2 and retromer in hypothalamic regulated secretion

Author

Denis Štepihar, Rebecca R. Florke Gee, Maria Camila Hoyos Sanchez, and Klementina Fon Tacer

Subjects

secretory granule, MAGEL2, anterograde and retrograde protein sorting, retromer, neuroendocrine cells, WASH complex, Biology (General), QH301-705.5

Abstract

Intracellular protein trafficking and sorting are extremely arduous in endocrine and neuroendocrine cells, which synthesize and secrete on-demand substantial quantities of proteins. To ensure that neuroendocrine secretion operates correctly, each step in the secretion pathways is tightly regulated and coordinated both spatially and temporally. At the trans-Golgi network (TGN), intrinsic structural features of proteins and several sorting mechanisms and distinct signals direct newly synthesized proteins into proper membrane vesicles that enter either constitutive or regulated secretion pathways. Furthermore, this anterograde transport is counterbalanced by retrograde transport, which not only maintains membrane homeostasis but also recycles various proteins that function in the sorting of secretory cargo, formation of transport intermediates, or retrieval of resident proteins of secretory organelles. The retromer complex recycles proteins from the endocytic pathway back to the plasma membrane or TGN and was recently identified as a critical player in regulated secretion in the hypothalamus. Furthermore, melanoma antigen protein L2 (MAGEL2) was discovered to act as a tissue-specific regulator of the retromer-dependent endosomal protein recycling pathway and, by doing so, ensures proper secretory granule formation and maturation. MAGEL2 is a mammalian-specific and maternally imprinted gene implicated in Prader-Willi and Schaaf-Yang neurodevelopmental syndromes. In this review, we will briefly discuss the current understanding of the regulated secretion pathway, encompassing anterograde and retrograde traffic. Although our understanding of the retrograde trafficking and sorting in regulated secretion is not yet complete, we will review recent insights into the molecular role of MAGEL2 in hypothalamic neuroendocrine secretion and how its dysregulation contributes to the symptoms of Prader-Willi and Schaaf-Yang patients. Given that the activation of many secreted proteins occurs after they enter secretory granules, modulation of the sorting efficiency in a tissue-specific manner may represent an evolutionary adaptation to environmental cues.

Published

2023

6. Report of two cases of Schaaf‐Yang syndrome: Same genotype and different phenotype

Author

Ana Maria Rodriguez, Katherine Schain, Parul Jayakar, Meredith S. Wright, Shimul Chowdhury, and Daria Salyakina

Subjects

ICU, MAGEL2, phenotype–genotype association, rapid whole genome sequencing, Medicine, Medicine (General), R5-920

Abstract

Key Clinical Message We report two, genotypically identical but phenotypically distinct cases of Schaaf‐Yang syndrome and propose the early use of Genome Sequencing in patients with nonspecific presentations to facilitate the early diagnosis of children with rare genetic diseases and improve overall health care outcomes.

Published

2023

7. A Korean Child with Schaaf-Yang Syndrome Presented with Hearing Impairment: A Case Report

Author

Seung Hoon Lee, Seung Han Shin, Jung Min Ko, Boram Kim, Hyeon Sae Oh, Man Jin Kim, Seul Gi Park, Ee-Kyung Kim, and Han-Suk Kim

Subjects

schaaf-yang syndrome, magel2, respiratory distress, hearing impairment, Pediatrics, RJ1-570

Abstract

Schaaf-Yang syndrome (SYS) is a rare genomic imprinting disorder caused by truncating mutations in the paternally derived MAGE family member L2 (MAGEL2) allele. It is also responsible for Prader-Willi syndrome, characterized by neonatal hypotonia, developmental delay, intellectual disability, respiratory distress in early infancy, and arthrogryposis. More than 250 individuals with approximately 57 different molecular variants have been reported since 2013, but the phenotype-genotype association in SYS is not yet fully understood. Here, we describe the case of a Korean patient diagnosed with SYS harboring a mutation in the paternal allele of MAGEL2: c.2895G>A, resulting in a protein change of p.Trp965*. The patient’s phenotype included respiratory distress, arthrogryposis, hypotonia, and feeding difficulty in the early neonatal period. Mild renal dysfunction and hearing impairment were observed during infancy.

Published

2022

8. Preimplantation Genetic Testing (PGT) and Prenatal Diagnosis of Schaaf-Yang Syndrome: A Report of Three Families and a Research on Genotype–Phenotype Correlations.

Author

Xu, Naixin, Shi, Weihui, Cao, Xianling, Zhou, Xuanyou, Huang, Hefeng, Chen, Songchang, and Xu, Chenming

Subjects

*GENETIC testing, *PRENATAL diagnosis, *FAMILY research, *MICROSATELLITE repeats, *MOLECULAR diagnosis

Abstract

Schaaf-Yang Syndrome (SYS) is a genetic disorder caused by truncating pathogenic variants in the paternal allele of the maternally imprinted, paternally expressed gene MAGEL2 and is characterized by genital hypoplasia, neonatal hypotonia, developmental delay, intellectual disability, autism spectrum disorder (ASD), and other features. In this study, eleven SYS patients from three families were enrolled and comprehensive clinical features were gathered regarding each family. Whole-exome sequencing (WES) was performed for the definitive molecular diagnosis of the disease. Identified variants were validated using Sanger sequencing. Three couples underwent PGT for monogenic diseases (PGT-M) and/or a prenatal diagnosis. Haplotype analysis was performed to deduce the embryo's genotype by using the short tandem repeats (STRs) identified in each sample. The prenatal diagnosis results showed that the fetus in each case did not carry pathogenic variants, and all the babies of the three families were born at full term and were healthy. We also performed a review of SYS cases. In addition to the 11 patients in our study, a total of 127 SYS patients were included in 11 papers. We summarized all variant sites and clinical symptoms thus far, and conducted a genotype–phenotype correlation analysis. Our results also indicated that the variation in phenotypic severity may depend on the specific location of the truncating variant, suggestive of a genotype–phenotype association. [ABSTRACT FROM AUTHOR]

Published

2023

9. Magel2 truncation alters select behavioral and physiological outcomes in a rat model of Schaaf-Yang syndrome

Author

Derek L. Reznik, Mingxiao V. Yang, Pedro Albelda de la Haza, Antrix Jain, Melanie Spanjaard, Susanne Theiss, Christian P. Schaaf, Anna Malovannaya, Theresa V. Strong, Surabi Veeraragavan, and Rodney C. Samaco

Subjects

schaaf-yang syndrome, prader-willi syndrome, magel2, imprinting, rat model, Medicine, Pathology, RB1-214

Published

2023

10. Neuropeptide therapeutics to repress lateral septum neurons that disable sociability in an autism mouse model.

Author

Borie AM, Dromard Y, Chakraborty P, Fontanaud P, Andre EM, François A, Colson P, Muscatelli F, Guillon G, Desarménien MG, and Jeanneteau F

Subjects

Animals, Mice, Receptors, Oxytocin metabolism, Neuropeptides metabolism, Male, Vasopressins metabolism, Somatostatin metabolism, Septal Nuclei drug effects, Septal Nuclei metabolism, Signal Transduction drug effects, Mice, Inbred C57BL, Disease Models, Animal, Neurons metabolism, Neurons drug effects, Social Behavior, Autistic Disorder drug therapy, Autistic Disorder metabolism, Oxytocin pharmacology

Abstract

Confronting oxytocin and vasopressin deficits in autism spectrum disorders and rare syndromes brought promises and disappointments for the treatment of social disabilities. We searched downstream of oxytocin and vasopressin for targets alleviating social deficits in a mouse model of Prader-Willi syndrome and Schaaf-Yang syndrome, both associated with high prevalence of autism. We found a population of neurons in the lateral septum-activated on termination of social contacts-which oxytocin and vasopressin inhibit as per degree of peer affiliation. These are somatostatin neurons expressing oxytocin receptors coupled to GABA-B signaling, which are inhibited via GABA-A channels by vasopressin-excited GABA neurons. Loss of oxytocin or vasopressin signaling recapitulated the disease phenotype. By contrast, deactivation of somatostatin neurons or receptor signaling alleviated social deficits of disease models by increasing the duration of contacts with mates and strangers. These findings provide new insights into the treatment framework of social disabilities in neuropsychiatric disorders., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published

2024

11. Longitudinal analysis of electroencephalography pattern changes in an infant with Schaaf‐Yang syndrome and a novel mutation in melanoma antigen L2 (MAGEL2).

Author

Mizuno, Shinsuke, Yokoyama, Koji, Yokoyama, Atsushi, Nukata, Takayuki, Ikeda, Yuka, and Hara, Shigeto

Subjects

*ELECTROENCEPHALOGRAPHY, *PRADER-Willi syndrome, *INFANTS, *GENETIC disorders, *BRAIN waves, *MELANOMA, *ALPHA rhythm, *AUTISTIC children

Abstract

Background: Schaaf‐Yang syndrome (SYS) is a rare hereditary disease caused by truncating point mutations of the paternal allele of melanoma antigen L2 (MAGEL2), one of five protein‐coding genes within the Prader‐Willi syndrome (PWS) critical domain. SYS shares many clinical and molecular characteristics with PWS but has some distinct features, such as joint contractures and autism. Patients with PWS show abnormal electroencephalography (EEG) patterns. However, there are very few reports on EEG findings in patients with SYS. Methods: A SYS patient was included in this study. Detailed neurological examinations and EEG were performed from neonate to infant ages. Sanger sequencing was performed. Results: Our patient presented abnormal EEG findings and had diffuse brain dysfunction symptoms including a reduced level of consciousness, diminished spontaneous movements, hypotonia, feeding difficulties, and hypoventilation from early after birth. As she grew older and her background activity of EEG normalized, her neurodevelopmental symptoms remained but improved. Sanger sequencing of this patient revealed a novel, heterozygous c.2005C > T, truncating mutation in the MEGAL2 gene. Conclusions: We described an SYS‐associated, time‐dependent, EEG pattern in a patient with SYS. Our findings of longitudinal EEG changes in a patient with SYS revealed a specific pattern of how affected individuals develop brain function. [ABSTRACT FROM AUTHOR]

Published

2022

12. The Metabolic Efficacy of a Cannabidiolic Acid (CBDA) Derivative in Treating Diet- and Genetic-Induced Obesity.

Author

Ben-Cnaan, Elad, Permyakova, Anna, Azar, Shahar, Hirsch, Shira, Baraghithy, Saja, Hinden, Liad, and Tam, Joseph

Subjects

*WEIGHT loss, *GENETIC disorders, *OBESITY, *BODY weight, *PRADER-Willi syndrome, *HIGH-fat diet, *MICE

Abstract

Obesity is a global medical problem; its common form is known as diet-induced obesity (DIO); however, there are several rare genetic disorders, such as Prader–Willi syndrome (PWS), that are also associated with obesity (genetic-induced obesity, GIO). The currently available therapeutics for treating DIO and GIO are very limited, and they result in only a partial improvement. Cannabidiolic acid (CBDA), a constituent of Cannabis sativa, gradually decarboxylates to cannabidiol (CBD). Whereas the anti-obesity properties of CBD have been reasonably identified, our knowledge of the pharmacology of CBDA is more limited due to its instability. To stabilize CBDA, a new derivative, CBDA-O-methyl ester (HU-580, EPM301), was synthesized. The therapeutic potential of EPM301 in appetite reduction, weight loss, and metabolic improvements in DIO and GIO was tested in vivo. EPM301 (40 mg/kg/d, i.p.) successfully resulted in weight loss, increased ambulation, as well as improved glycemic and lipid profiles in DIO mice. Additionally, EPM301 ameliorated DIO-induced hepatic dysfunction and steatosis. Importantly, EPM301 (20 and 40 mg/kg/d, i.p.) effectively reduced body weight and hyperphagia in a high-fat diet-fed Magel2null mouse model for PWS. In addition, when given to standard-diet-fed Magel2null mice as a preventive treatment, EPM301 completely inhibited weight gain and adiposity. Lastly, EPM301 increased the oxidation of different nutrients in each strain. All together, EPM301 ameliorated obesity and its metabolic abnormalities in both DIO and GIO. These results support the idea to further promote this synthetic CBDA derivative toward clinical evaluation in humans. [ABSTRACT FROM AUTHOR]

Published

2022

13. Longitudinal analysis of electroencephalography pattern changes in an infant with Schaaf‐Yang syndrome and a novel mutation in melanoma antigen L2 (MAGEL2)

Author

Shinsuke Mizuno, Koji Yokoyama, Atsushi Yokoyama, Takayuki Nukata, Yuka Ikeda, and Shigeto Hara

Subjects

electroencephalography, MAGEL2, neurodevelopmental disorders, Schaaf‐Yang syndrome, Genetics, QH426-470

Abstract

Abstract Background Schaaf‐Yang syndrome (SYS) is a rare hereditary disease caused by truncating point mutations of the paternal allele of melanoma antigen L2 (MAGEL2), one of five protein‐coding genes within the Prader‐Willi syndrome (PWS) critical domain. SYS shares many clinical and molecular characteristics with PWS but has some distinct features, such as joint contractures and autism. Patients with PWS show abnormal electroencephalography (EEG) patterns. However, there are very few reports on EEG findings in patients with SYS. Methods A SYS patient was included in this study. Detailed neurological examinations and EEG were performed from neonate to infant ages. Sanger sequencing was performed. Results Our patient presented abnormal EEG findings and had diffuse brain dysfunction symptoms including a reduced level of consciousness, diminished spontaneous movements, hypotonia, feeding difficulties, and hypoventilation from early after birth. As she grew older and her background activity of EEG normalized, her neurodevelopmental symptoms remained but improved. Sanger sequencing of this patient revealed a novel, heterozygous c.2005C > T, truncating mutation in the MEGAL2 gene. Conclusions We described an SYS‐associated, time‐dependent, EEG pattern in a patient with SYS. Our findings of longitudinal EEG changes in a patient with SYS revealed a specific pattern of how affected individuals develop brain function.

Published

2022

14. The adult phenotype of Schaaf-Yang syndrome

Author

Felix Marbach, Magdeldin Elgizouli, Megan Rech, Jasmin Beygo, Florian Erger, Clara Velmans, Constance T. R. M. Stumpel, Alexander P. A. Stegmann, Stefanie Beck-Wödl, Gabriele Gillessen-Kaesbach, Bernhard Horsthemke, Christian P. Schaaf, and Alma Kuechler

Subjects

Schaaf-Yang syndrome, Prader–Willi syndrome, MAGEL2, Adult phenotype, Medicine

Abstract

Abstract Background MAGEL2-associated Schaaf-Yang syndrome (SHFYNG, OMIM #615547, ORPHA: 398069), which was identified in 2013, is a rare disorder caused by truncating variants of the paternal copy of MAGEL2, which is localized in the imprinted region on 15q11.2q13. The phenotype of SHFYNG in childhood partially overlaps with that of the well-established Prader–Willi syndrome (PWS, OMIM #176270). While larger numbers of younger individuals with SHFYNG have been recently published, the phenotype in adulthood is not well established. We recruited 7 adult individuals (aged 18 to 36) with molecularly confirmed SHFYNG and collected data regarding the clinical profile including eating habits, sleep, behavior, personal autonomy, psychiatric abnormalities and other medical conditions, as well as information about the respective phenotypes in childhood. Results Within our small cohort, we identified a range of common features, such as disturbed sleep, hypoactivity, social withdrawal and anxiety, but also noted considerable differences at the level of personal autonomy and skills. Behavioral problems were frequent, and a majority of individuals displayed weight gain and food-seeking behavior, along with mild intellectual disability or borderline intellectual function. Classical symptoms of SHFYNG in childhood were reported for most individuals. Conclusion Our findings indicate a high variability of the functional abilities and social participation of adults with SHFYNG. A high prevalence of obesity within our cohort was notable, and uncontrollable food intake was a major concern for some caregivers. The phenotypes of PWS and SHFYNG in adulthood might be more difficult to discern than the phenotypes in childhood. Molecular genetic testing for SHFYNG should therefore be considered in adults with the suspected diagnosis of PWS, if testing for PWS has been negative.

Published

2020

15. Patients with PWS and related syndromes display differentially methylated regions involved in neurodevelopmental and nutritional trajectory.

Author

Salles, Juliette, Eddiry, Sanaa, Lacassagne, Emmanuelle, Laurier, Virginie, Molinas, Catherine, Bieth, Éric, Franchitto, Nicolas, Salles, Jean-Pierre, and Tauber, Maithé

Subjects

*FRAMESHIFT mutation, *PRADER-Willi syndrome, *GENE silencing, *PHENOTYPES, *GENE expression, *SYSTEMS development

Abstract

Background: Prader–Willi syndrome is a rare genetic neurodevelopmental disorder caused by a paternal deficiency of maternally imprinted gene expression located in the chromosome 15q11–q13 region. Previous studies have demonstrated that several classes of neurodevelopmental disorders can be attributed to either over- or under-expression of specific genes that may lead to impairments in neuronal generation, differentiation, maturation and growth. Epigenetic changes that modify gene expression have been highlighted in these disorders. One recent study focused on epigenetic analysis and compared patients with PWS with patients with other imprinting disorders. No study, however, has yet focused on epigenetics in patients with PWS specifically by comparing the mutations associated with this syndrome. Objective: This study investigated the epigenetic modifications in patients with PWS and patients with PWS-related disorders caused by inactivation of two genes of the PWS chromosomal region, SNORD116 and MAGEL2. Our approach also aimed to compare the epigenetic modifications in PWS and PWS-related disorders. Methods: We compared genome-wide methylation analysis (GWAS) in seven blood samples from patients with PWS phenotype (five with deletions of the PWS locus, one with a microdeletion of SNORD116 and one with a frameshift mutation of MAGEL2 presenting with Schaaf–Yang syndrome), as well as two control patients. Controls were infants that had been studied for suspicion of genetic diseases that was not confirmed by the genetic analysis and the clinical follow-up. Results: The analysis identified 29,234 differentially methylated cytosines, corresponding to 5,308 differentially methylated regions (DMRs), which matched with 2,280 genes. The DMRs in patients with PWS were associated with neurodevelopmental pathways, endocrine dysfunction and social and addictive processes consistent with the key features of the PWS phenotype. In addition, the separate analysis for the SNORD116 and MAGEL2 deletions revealed that the DMRs associated with the SNORD116 microdeletion were found in genes implicated in metabolic pathways and nervous system development, whereas MAGEL2 mutations mostly concerned genes involved in macromolecule biosynthesis. Conclusion: The PWS is associated with epigenetic modifications with differences in SNORD116 and MAGEL2 mutations, which seem to be relevant to the different associated phenotypes. [ABSTRACT FROM AUTHOR]

Published

2021

16. Schaaf-Yang syndrome shows a Prader-Willi syndrome-like phenotype during infancy

Author

Yutaka Negishi, Daisuke Ieda, Ikumi Hori, Yasuyuki Nozaki, Takanori Yamagata, Hirofumi Komaki, Jun Tohyama, Keisuke Nagasaki, Hiroko Tada, and Shinji Saitoh

Subjects

MAGEL2, Schaaf-Yang syndrome, Genomic imprinting, Neurological deterioration, Medicine

Abstract

Abstract Background Schaaf-Yang syndrome (SYS) is a newly recognized imprinting related syndrome, which is caused by a truncating variant in maternally imprinted MAGEL2 located in 15q11-q13. Yet, precise pathomechanism remains to be solved. We sequenced MAGEL2 in patients suspected Prader-Willi syndrome (PWS) to delineate clinical presentation of SYS. We examined 105 patients with clinically suspected PWS but without a specific PWS genetic alteration. Sanger sequencing of the entire MAGEL2 gene and methylation-specific restriction enzyme treatment to detect the parent of origin were performed. Clinical presentation was retrospectively assessed in detail. Results Truncating variants in MAGEL2 were detected in six patients (5.7%), including a pair of siblings. All truncating variants in affected patients were on the paternally derived chromosome, while the healthy father of the affected siblings inherited the variant from his mother. Patients with MAGEL2 variants shared several features with PWS, such as neonatal hypotonia, poor suck, and obesity; however, there were also unique features, including arthrogryposis and a failure to acquire meaningful words. Additionally, an episode of neurological deterioration following febrile illness was confirmed in four of the six patients, which caused severe neurological sequalae. Conclusions SYS can be present in infants suspected with PWS but some unique features, such as arthrogryposis, can help discriminate between the two syndromes. An episode of neurological deterioration following febrile illness should be recognized as an important complication.

Published

2019

17. Inactivation of Magel2 suppresses oxytocin neurons through synaptic excitation-inhibition imbalance

Author

Tayfun Ates, Merve Oncul, Pelin Dilsiz, Iskalen Cansu Topcu, Cihan Civan Civas, Muhammed Ikbal Alp, Iltan Aklan, Edanur Ates Oz, Yavuz Yavuz, Bayram Yilmaz, Nilufer Sayar Atasoy, and Deniz Atasoy

Subjects

Prader Willi Syndrome, Autism, magel2, Oxytocin, AMPA, NMDA, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Prader-Willi and the related Schaaf-Yang Syndromes (PWS/SYS) are rare neurodevelopmental disorders characterized by overlapping phenotypes of high incidence of autism spectrum disorders (ASD) and neonatal feeding difficulties. Based on clinical and basic studies, oxytocin pathway defects are suggested to contribute disease pathogenesis but the mechanism has been poorly understood. Specifically, whether the impairment in oxytocin system is limited to neuropeptide levels and how the functional properties of broader oxytocin neuron circuits affected in PWS/SYS have not been addressed. Using cell type specific electrophysiology, we investigated basic synaptic and cell autonomous properties of oxytocin neurons in the absence of MAGEL2; a hypothalamus enriched ubiquitin ligase regulator that is inactivated in both syndromes. We observed significant suppression of overall ex vivo oxytocin neuron activity, which was largely contributed by altered synaptic input profile; with reduced excitatory and increased inhibitory currents. Our results suggest that dysregulation of oxytocin system goes beyond altered neuropeptide expression and synaptic excitation inhibition imbalance impairs overall oxytocin pathway function.

Published

2019

18. The adult phenotype of Schaaf-Yang syndrome.

Author

Marbach, Felix, Elgizouli, Magdeldin, Rech, Megan, Beygo, Jasmin, Erger, Florian, Velmans, Clara, Stumpel, Constance T. R. M., Stegmann, Alexander P. A., Beck-Wödl, Stefanie, Gillessen-Kaesbach, Gabriele, Horsthemke, Bernhard, Schaaf, Christian P., and Kuechler, Alma

Subjects

*AUTONOMY (Psychology), *PRADER-Willi syndrome, *FOOD habits, *PATERNAL age effect, *OVERWEIGHT children, *DISABILITIES, *PHENOTYPES, *CHILDREN with intellectual disabilities

Abstract

Background: MAGEL2-associated Schaaf-Yang syndrome (SHFYNG, OMIM #615547, ORPHA: 398069), which was identified in 2013, is a rare disorder caused by truncating variants of the paternal copy of MAGEL2, which is localized in the imprinted region on 15q11.2q13. The phenotype of SHFYNG in childhood partially overlaps with that of the well-established Prader-Willi syndrome (PWS, OMIM #176270). While larger numbers of younger individuals with SHFYNG have been recently published, the phenotype in adulthood is not well established. We recruited 7 adult individuals (aged 18 to 36) with molecularly confirmed SHFYNG and collected data regarding the clinical profile including eating habits, sleep, behavior, personal autonomy, psychiatric abnormalities and other medical conditions, as well as information about the respective phenotypes in childhood.Results: Within our small cohort, we identified a range of common features, such as disturbed sleep, hypoactivity, social withdrawal and anxiety, but also noted considerable differences at the level of personal autonomy and skills. Behavioral problems were frequent, and a majority of individuals displayed weight gain and food-seeking behavior, along with mild intellectual disability or borderline intellectual function. Classical symptoms of SHFYNG in childhood were reported for most individuals.Conclusion: Our findings indicate a high variability of the functional abilities and social participation of adults with SHFYNG. A high prevalence of obesity within our cohort was notable, and uncontrollable food intake was a major concern for some caregivers. The phenotypes of PWS and SHFYNG in adulthood might be more difficult to discern than the phenotypes in childhood. Molecular genetic testing for SHFYNG should therefore be considered in adults with the suspected diagnosis of PWS, if testing for PWS has been negative. [ABSTRACT FROM AUTHOR]

Published

2020

19. Neurocognitive and Neurobehavioral Phenotype of Youth with Schaaf-Yang Syndrome.

Author

Thomason, Molly Mishler, McCarthy, John, Goin-Kochel, Robin P., Dowell, Lauren R., Schaaf, Christian P., and Berry, Leandra N.

Subjects

*AUTISM, *CHILD psychopathology, *COGNITION, *NEUROLOGIC manifestations of general diseases, *PRADER-Willi syndrome, *PHENOTYPES

Abstract

Truncating variants of the MAGEL2 gene, one of the protein-coding genes within the Prader-Willi syndrome (PWS) critical region on chromosome 15q11, cause Schaaf-Yang syndrome (SYS)—a neurodevelopmental disorder that shares several clinical features with PWS. The current study sought to characterize the neurobehavioral phenotype of SYS in a sample of 9 patients with molecularly-confirmed SYS. Participants received an assessment of developmental/intellectual functioning, adaptive functioning, autism symptomatology, and behavioral/emotional functioning. Compared to individuals with PWS, patients with SYS manifested more severe cognitive deficits, no obsessions or compulsions, and increased rates of autism spectrum disorder. [ABSTRACT FROM AUTHOR]

Published

2020

20. Crisponi/cold‐induced sweating syndrome: Differential diagnosis, pathogenesis and treatment concepts.

Author

Buers, Insa, Persico, Ivana, Schöning, Lara, Nitschke, Yvonne, Di Rocco, Maja, Loi, Angela, Sahi, Puneet Kaur, Utine, Gulen Eda, Bayraktar‐Tanyeri, Bilge, Zampino, Giuseppe, Crisponi, Giangiorgio, Rutsch, Frank, and Crisponi, Laura

Subjects

*DIFFERENTIAL diagnosis, *SYNDROMES, *RETINITIS pigmentosa, *SUDDEN death, *DEVELOPMENTAL delay

Abstract

Crisponi/cold‐induced sweating syndrome (CS/CISS) is an autosomal recessive disease characterized by hyperthermia, camptodactyly, feeding and respiratory difficulties often leading to sudden death in the neonatal period. The affected individuals who survived the first critical years of life, develop cold‐induced sweating and scoliosis in early childhood. The disease is caused by variants in the CRLF1 or in the CLCF1 gene. Both proteins form a heterodimeric complex that acts on cells expressing the ciliary neurotrophic factor receptor (CNTFR). CS/CISS belongs to the family of "CNTFR‐related disorders" showing a similar clinical phenotype. Recently, variants in other genes, including KLHL7, NALCN, MAGEL2 and SCN2A, previously linked to other diseases, have been associated with a CS/CISS‐like phenotype. Therefore, retinitis pigmentosa and Bohring‐Optiz syndrome‐like (KLHL7), Congenital contractures of the limbs and face, hypotonia, and developmental delay syndrome (NALCN), Chitayat‐Hall/Schaaf‐Yang syndrome (MAGEL2), and early infantile epileptic encephalopathy‐11 syndrome (SCN2A) all share an overlapping phenotype with CS/CISS, especially in the neonatal period. This review aims to summarize the existing literature on CS/CISS, focusing on the current state of differential diagnosis, pathogenesis and treatment concepts in order to achieve an accurate and rapid diagnosis. This will improve patient management and enable specific treatments for the affected individuals. [ABSTRACT FROM AUTHOR]

Published

2020

21. Prader-Willi Syndrome

Author

Butler, Merlin G., Pfaff, Donald W., editor, and Volkow, Nora D., editor

Published

2016

22. Modelling Schaaf-Yang-Syndrome using neural progenitors derived from patient iPSCs

Author

Eschlböck, Alexander and Eschlböck, Alexander

Abstract

Masterarbeit Universität Innsbruck 2023

Published

2023

23. MAGEL2‐related disorders: A study and case series.

Author

Patak, Jameson, Gilfert, James, Byler, Melissa, Neerukonda, Vamsee, Thiffault, Isabelle, Cross, Laura, Amudhavalli, Shivarajan, Pacio‐Miguez, Marta, Palomares‐Bralo, Maria, Garcia‐Minaur, Sixto, Santos‐Simarro, Fernando, Powis, Zoe, Alcaraz, Wendy, Tang, Sha, Jurgens, Julie, Barry, Brenda, England, Eleina, Engle, Elizabeth, Hess, Jonathon, and Lebel, Robert R.

Subjects

*PRADER-Willi syndrome, *MISSENSE mutation, *META-analysis, *DISEASES, *CASE studies

Abstract

Pathogenic MAGEL2 variants result in the phenotypes of Chitayat‐Hall syndrome (CHS), Schaaf‐Yang syndrome (SYS) and Prader‐Willi syndrome (PWS). We present five patients with mutations in MAGEL2, including the first patient reported with a missense variant, adding to the limited literature. Further, we performed a systematic review of the CHS and SYS literature, assess the overlap between CHS, SYS and PWS, and analyze genotype‐phenotype correlations among them. We conclude that there is neither a clinical nor etiological difference between CHS and SYS, and propose that the two syndromes simply be referred to as MAGEL2‐related disorders. [ABSTRACT FROM AUTHOR]

Published

2019

24. Exome sequencing in Crisponi/cold‐induced sweating syndrome–like individuals reveals unpredicted alternative diagnoses.

Author

Angius, Andrea, Uva, Paolo, Oppo, Manuela, Buers, Insa, Persico, Ivana, Onano, Stefano, Cuccuru, Gianmauro, Van Allen, Margot I., Hulait, Gurdip, Aubertin, Gudrun, Muntoni, Francesco, Fry, Andrew E., Annerén, Göran, Stattin, Eva‐Lena, Palomares‐Bralo, María, Santos‐Simarro, Fernando, Cucca, Francesco, Crisponi, Giangiorgio, Rutsch, Frank, and Crisponi, Laura

Subjects

*SWEATING-sickness, *CRISPONI syndrome, *RARE diseases, *GENETIC disorders, *GENETIC mutation, *EXOMES, *DEVELOPMENTAL delay, *MUSCLE hypotonia

Abstract

Crisponi/cold‐induced sweating syndrome (CS/CISS) is a rare autosomal recessive disorder characterized by a complex phenotype (hyperthermia and feeding difficulties in the neonatal period, followed by scoliosis and paradoxical sweating induced by cold since early childhood) and a high neonatal lethality. CS/CISS is a genetically heterogeneous disorder caused by mutations in CRLF1 (CS/CISS1), CLCF1 (CS/CISS2) and KLHL7 (CS/CISS‐like). Here, a whole exome sequencing approach in individuals with CS/CISS‐like phenotype with unknown molecular defect revealed unpredicted alternative diagnoses. This approach identified putative pathogenic variations in NALCN, MAGEL2 and SCN2A. They were already found implicated in the pathogenesis of other syndromes, respectively the congenital contractures of the limbs and face, hypotonia, and developmental delay syndrome, the Schaaf‐Yang syndrome, and the early infantile epileptic encephalopathy‐11 syndrome. These results suggest a high neonatal phenotypic overlap among these disorders and will be very helpful for clinicians. Genetic analysis of these genes should be considered for those cases with a suspected CS/CISS during neonatal period who were tested as mutation negative in the known CS/CISS genes, because an expedited and corrected diagnosis can improve patient management and can provide a specific clinical follow‐up. Genetic analysis of NALCN, MAGEL2 and SCN2A should be considered for those cases with a suspected Crisponi/cold‐induced sweating syndrome (CS/CISS) during neonatal period who were tested as mutation negative in the known CS/CISS genes, because an expedited and corrected diagnosis can improve patient management and can provide a specific clinical follow‐up. [ABSTRACT FROM AUTHOR]

Published

2019

25. Inactivation of Magel2 suppresses oxytocin neurons through synaptic excitation-inhibition imbalance.

Author

Ates, Tayfun, Oncul, Merve, Dilsiz, Pelin, Topcu, Iskalen Cansu, Civas, Cihan Civan, Alp, Muhammed Ikbal, Aklan, Iltan, Ates Oz, Edanur, Yavuz, Yavuz, Yilmaz, Bayram, Sayar Atasoy, Nilufer, and Atasoy, Deniz

Subjects

*OXYTOCIN, *NEURONS, *AUTISM spectrum disorders, *ELECTROPHYSIOLOGY, *UBIQUITIN ligases

Abstract

Abstract Prader-Willi and the related Schaaf-Yang Syndromes (PWS/SYS) are rare neurodevelopmental disorders characterized by overlapping phenotypes of high incidence of autism spectrum disorders (ASD) and neonatal feeding difficulties. Based on clinical and basic studies, oxytocin pathway defects are suggested to contribute disease pathogenesis but the mechanism has been poorly understood. Specifically, whether the impairment in oxytocin system is limited to neuropeptide levels and how the functional properties of broader oxytocin neuron circuits affected in PWS/SYS have not been addressed. Using cell type specific electrophysiology, we investigated basic synaptic and cell autonomous properties of oxytocin neurons in the absence of MAGEL2; a hypothalamus enriched ubiquitin ligase regulator that is inactivated in both syndromes. We observed significant suppression of overall ex vivo oxytocin neuron activity, which was largely contributed by altered synaptic input profile; with reduced excitatory and increased inhibitory currents. Our results suggest that dysregulation of oxytocin system goes beyond altered neuropeptide expression and synaptic excitation inhibition imbalance impairs overall oxytocin pathway function. Highlights • Loss of Prader-Willi syndrome gene- Magel2 suppresses activity of oxytocin neurons. • Magel2 deficient oxytocin neurons have normal basic membrane properties. • Loss of Magel2 alters excitatory/inhibitory synaptic balance onto oxytocin neurons. • Magel2 mutant oxytocin neurons have selective loss of AMPA but normal NMDA currents. [ABSTRACT FROM AUTHOR]

Published

2019

26. Magel2 Modulates Bone Remodeling and Mass in Prader‐Willi Syndrome by Affecting Oleoyl Serine Levels and Activity.

Author

Baraghithy, Saja, Smoum, Reem, Drori, Adi, Hadar, Rivka, Gammal, Asaad, Hirsch, Shira, Attar‐Namdar, Malka, Nemirovski, Alina, Gabet, Yankel, Langer, Yshaia, Pollak, Yehuda, Schaaf, Christian Patrick, Rech, Megan Elizabeth, Gross‐Tsur, Varda, Bab, Itai, Mechoulam, Raphael, and Tam, Joseph

Abstract

Among a multitude of hormonal and metabolic complications, individuals with Prader‐Willi syndrome (PWS) exhibit significant bone abnormalities, including decreased BMD, osteoporosis, and subsequent increased fracture risk. Here we show in mice that loss of Magel2, a maternally imprinted gene in the PWS critical region, results in reduced bone mass, density, and strength, corresponding to that observed in humans with PWS, as well as in individuals suffering from Schaaf‐Yang syndrome (SYS), a genetic disorder caused by a disruption of the MAGEL2 gene. The low bone mass phenotype in Magel2‐/‐ mice was attributed to reduced bone formation rate, increased osteoclastogenesis and osteoclast activity, and enhanced trans‐differentiation of osteoblasts to adipocytes. The absence of Magel2 in humans and mice resulted in reduction in the fatty acid amide bone homeostasis regulator, N‐oleoyl serine (OS), whose levels were positively linked with BMD in humans and mice as well as osteoblast activity. Attenuating the skeletal abnormalities in Magel2‐/‐ mice was achieved with chronic administration of a novel synthetic derivative of OS. Taken together, Magel2 plays a key role in modulating bone remodeling and mass in PWS by affecting OS levels and activity. The use of potent synthetic analogs of OS should be further tested clinically as bone therapeutics for treating bone loss. © 2018 American Society for Bone and Mineral Research. [ABSTRACT FROM AUTHOR]

Published

2019

27. Two new cases with novel pathogenic variants reflecting the clinical diversity of <scp>Schaaf‐Yang</scp> syndrome

Author

Ceren Alavanda, Esra Arslan Ateş, Zehra Yavaş Abalı, Bilgen Bilge Geçkinli, Serap Turan, Ahmet Arman, and ALAVANDA C., Arslan Ateş E., Yavaş Abalı Z., GEÇKİNLİ B. B., DEMİRCİOĞLU S., ARMAN A.

Subjects

GENETİK VE KALITIM, Life Sciences (LIFE), Molecular Biology and Genetics, Sağlık Bilimleri, MAGEL2, Tıbbi Genetik, Yaşam Bilimleri, Health Sciences, Genetics, Genetik, GENETICS & HEREDITY, Moleküler Biyoloji ve Genetik, Genetics (clinical), Internal Medicine Sciences, novel, Temel Bilimler, Life Sciences, Dahili Tıp Bilimleri, Tıp, MOLECULAR BIOLOGY & GENETICS, Schaaf-Yang syndrome, Yaşam Bilimleri (LIFE), Genetik (klinik), Medicine, Prader-Willi-like syndrome, SHFYNG, Natural Sciences, Medical Genetics

Abstract

Schaaf-Yang syndrome (SHFYNG) is a rare pleiotropic disorder, characterized by hypotonia, joint contractures, autism spectrum disorders (ASD), and developmental delay/intellectual disability. Although it shares some common features with Prader-Willi Syndrome, joint contractures, and ASD were more commonly detected in in this syndrome. Recently, it was shown that truncating variants in the paternal allele of the MAGEL2 gene cause SHFYNG. Here, we present two patients diagnosed with SHFYNG syndrome having two different novel truncating variants in the MAGEL2 gene, one paternally inherited and one de novo. One patient had obesity, brachydactyly and dysmorphic features, and the other patient presented with contractures, severe hypotonia and early death. This is the first report of Turkish SHFYNG syndrome cases presented to emphasize the phenotypic diversity of the syndrome.

Published

2023

28. Schaaf‐Yang syndrome overview: Report of 78 individuals.

Author

McCarthy, John, Lupo, Philip J., Kovar, Erin, Rech, Megan, Bostwick, Bret, Scott, Daryl, Kraft, Katerina, Roscioli, Tony, Charrow, Joel, Schrier Vergano, Samantha A., Lose, Edward, Smiegel, Robert, Lacassie, Yves, and Schaaf, Christian P.

Abstract

Schaaf‐Yang Syndrome (SYS) is a genetic disorder caused by truncating pathogenic variants in the paternal allele of the maternally imprinted, paternally expressed gene MAGEL2, located in the Prader‐Willi critical region 15q11‐15q13. SYS is a neurodevelopmental disorder that has clinical overlap with Prader‐Willi Syndrome in the initial stages of life but becomes increasingly distinct throughout childhood and adolescence. Here, we describe the phenotype of an international cohort of 78 patients with nonsense or frameshift mutations in MAGEL2. This cohort includes 43 individuals that have been reported previously, as well as 35 newly identified individuals with confirmed pathogenic genetic variants. We emphasize that intellectual disability/developmental delay, autism spectrum disorder, neonatal hypotonia, infantile feeding problems, and distal joint contractures are the most consistently shared features of patients with SYS. Our results also indicate that there is a marked prevalence of infantile respiratory distress, gastroesophageal reflux, chronic constipation, skeletal abnormalities, sleep apnea, and temperature instability. While there are many shared features, patients with SYS are characterized by a wide phenotypic spectrum, including a variable degree of intellectual disability, language development, and motor milestones. Our results indicate that the variation in phenotypic severity may depend on the specific location of the truncating mutation, suggestive of a genotype–phenotype association. This evidence may be useful in both prenatal and pediatric genetic counseling. [ABSTRACT FROM AUTHOR]

Published

2018

29. The role of obesity in the fatal outcome of Schaaf–Yang syndrome: Early onset morbid obesity in a patient with a MAGEL2 mutation.

Author

Kleinendorst, Lotte, Pi Castán, Graciela, Caro‐Llopis, Alfonso, Boon, Elles M. J., and van Haelst, Mieke M.

Abstract

Schaaf–Yang syndrome (SYS) was recently identified as a genetic condition resembling Prader–Willi syndrome. It is caused by mutations on the paternal allele of the MAGEL2 gene, a gene that has been mapped in the Prader–Willi critical region. Here, we present an infant with SYS who sadly died because of the combination of hypotonia, sleep apnea, and obesity. A heterozygous premature stop mutation in MAGEL2 was identified in the patient. The main factors reported in the mortality of SYS are lethal arthrogryposis multiplex congenita, fetal akinesia, and pulmonary problems. Our clinical report indicates that obesity and its complications are an important additional factor in the mortality associated with SYS. Therefore, we advise to strictly monitor weight and intensively treat overweight and obesity in SYS. [ABSTRACT FROM AUTHOR]

Published

2018

30. Chronic intestinal pseudo-obstruction syndrome and gastrointestinal malrotation in an infantwith schaaf-yang syndrome - Expanding the phenotypic spectrum.

Author

Bayat, Allan, Bayat, Michael, Lozoya, Ricardo, and Schaaf, Christian P.

Subjects

*GENETIC disorders, *BOWEL obstructions, *GASTROINTESTINAL diseases, *DIGESTIVE system diseases, *PHENOTYPES, *GENETICS

Abstract

Abstract We report a novel patient with the phenotypic characteristics of Schaaf-Yang syndrome. In addition, the patient has a severe chronic digestive malfunction, rendering him dependent on intermittent enteral supplementation. To our knowledge, this is the first report of Schaaf-Yang syndrome associated with severe chronic digestive malfunction manifesting with both a malrotation and signs of a chronic intestinal pseudo-obstruction. [ABSTRACT FROM AUTHOR]

Published

2018

31. Early‐onset epileptic encephalopathy and severe developmental delay in an association with de novo double mutations in NF1 and MAGEL2.

Author

Akamine, Satoshi, Sagata, Noriaki, Sakai, Yasunari, Kato, Takahiro A., Nakahara, Takeshi, Matsushita, Yuki, Togao, Osamu, Hiwatashi, Akio, Sanefuji, Masafumi, Ishizaki, Yoshito, Torisu, Hiroyuki, Saitsu, Hirotomo, Matsumoto, Naomichi, Hara, Toshiro, Sawa, Akira, Kano, Shinichi, Furue, Masutaka, Kanba, Shigenobu, Shaw, Chad A., and Ohga, Shouichi

Subjects

DEVELOPMENTAL delay, NEUROFIBROMATOSIS 1, SEQUENCE analysis

Abstract

Summary: Advance in the exome‐wide sequencing analysis contributes to identifying hundreds of genes that are associated with early‐onset epileptic encephalopathy and neurodevelopmental disorders. On the basis of massive sequencing data, functional interactions among different genes are suggested to explain the common molecular pathway underlying the pathogenic process of these disorders. However, the relevance of such interactions with the phenotypic severity or variety in an affected individual remains elusive. In this report, we present a 45‐year‐old woman with neurofibromatosis type 1 (NF1), infantile‐onset epileptic encephalopathy, and severe developmental delay. Whole‐exome sequencing identified de novo pathogenic mutations in NF1 and the Schaaf‐Yang syndrome‐associated gene, MAGEL2. Literature‐curated interaction data predicted that NF1 and MAGEL2 proteins were closely connected in this network via their common interacting proteins. Direct conversion of fibroblasts into neurons in vitro showed that neuronal cells from 9 patients with NF1 expressed significantly lower levels of MAGEL2 (54%, p = 0.0047) than those from healthy individuals. These data provide the first evidence that pathogenic mutations of NF1 deregulate the expression of other neurodevelopmental disease‐associated genes. De novo mutations in multiple genes may lead to severe developmental phenotypes through their cumulative effects or synergistic interactions. [ABSTRACT FROM AUTHOR]

Published

2018

32. Monogenik obezitenin nadir bir nedeni: Magel2 geninde yeni tanımlanmış mutasyon

Author

GÜRAN, TÜLAY and Güran T.

Subjects

MAGEL2, monogenik obezite, Health Sciences, Klinik Tıp (MED), Prader Willi Sendromu, Sağlık Bilimleri, Schaaf-Yang sendromu, Clinical Medicine (MED)

Abstract

{MAGEL2} geni kromozom 15q11.2 bölgesinde yer alır. Bu gendeki monoallelik patojenik varyantların sendromik obezite ve gelişimsel bozukluklarla karakterize Schaaf-Yang sendromuna (MIM#615547) yol açtığı gösterilmiştir. Bu sendrom, Prader-Willi sendromu (PWS) ile ortak klinik özellikleri ve aynı gen bölgesinde yer alması nedeniyle PWS-benzeri sendrom olarak da adlandırılmaktadır.

Published

2022

33. The Metabolic Efficacy of a Cannabidiolic Acid (CBDA) Derivative in Treating Diet- and Genetic-Induced Obesity

Author

Elad Ben-Cnaan, Anna Permyakova, Shahar Azar, Shira Hirsch, Saja Baraghithy, Liad Hinden, and Joseph Tam

Subjects

Mice, Knockout, Cannabinoids, Organic Chemistry, nutritional and metabolic diseases, Proteins, General Medicine, Diet, High-Fat, Catalysis, Computer Science Applications, CBDA, obesity, Magel2, PWS, hyperphagia, hepatic steatosis, dyslipidemia, Inorganic Chemistry, Mice, Antigens, Neoplasm, Weight Loss, Animals, Obesity, Physical and Theoretical Chemistry, Molecular Biology, Prader-Willi Syndrome, Spectroscopy

Abstract

Obesity is a global medical problem; its common form is known as diet-induced obesity (DIO); however, there are several rare genetic disorders, such as Prader–Willi syndrome (PWS), that are also associated with obesity (genetic-induced obesity, GIO). The currently available therapeutics for treating DIO and GIO are very limited, and they result in only a partial improvement. Cannabidiolic acid (CBDA), a constituent of Cannabis sativa, gradually decarboxylates to cannabidiol (CBD). Whereas the anti-obesity properties of CBD have been reasonably identified, our knowledge of the pharmacology of CBDA is more limited due to its instability. To stabilize CBDA, a new derivative, CBDA-O-methyl ester (HU-580, EPM301), was synthesized. The therapeutic potential of EPM301 in appetite reduction, weight loss, and metabolic improvements in DIO and GIO was tested in vivo. EPM301 (40 mg/kg/d, i.p.) successfully resulted in weight loss, increased ambulation, as well as improved glycemic and lipid profiles in DIO mice. Additionally, EPM301 ameliorated DIO-induced hepatic dysfunction and steatosis. Importantly, EPM301 (20 and 40 mg/kg/d, i.p.) effectively reduced body weight and hyperphagia in a high-fat diet-fed Magel2null mouse model for PWS. In addition, when given to standard-diet-fed Magel2null mice as a preventive treatment, EPM301 completely inhibited weight gain and adiposity. Lastly, EPM301 increased the oxidation of different nutrients in each strain. All together, EPM301 ameliorated obesity and its metabolic abnormalities in both DIO and GIO. These results support the idea to further promote this synthetic CBDA derivative toward clinical evaluation in humans.

Published

2022

34. Magel2 knockout mice manifest altered social phenotypes and a deficit in preference for social novelty.

Author

Fountain, M. D., Tao, H., Chen, C.‐A., Yin, J., and Schaaf, C. P.

Subjects

*OBESITY genetics, *PRADER-Willi syndrome, *PHENOTYPES, *NEURAL development, *DWARFISM

Abstract

MAGEL2 is one of five protein-coding, maternally imprinted, paternally expressed genes in the Prader-Willi syndrome (PWS)-critical domain on chromosome 15q11-q13. Truncating pathogenic variants of MAGEL2 cause Schaaf-Yang syndrome (SHFYNG) ( OMIM #615547), a neurodevelopmental disorder related to PWS. Affected individuals manifest a spectrum of neurocognitive and behavioral phenotypes, including intellectual disability and autism spectrum disorder ( ASD). Magel2 knockout mice carrying a maternally inherited, imprinted wild-type (WT) allele and a paternally inherited Magel2- lacZ knock-in allele, which abolishes endogenous Magel2 gene function, exhibit several features reminiscent of the human Prader-Willi phenotypes, including neonatal growth retardation, excessive weight gain after weaning and increased adiposity in adulthood. They were shown to have altered circadian rhythm, reduced motor activity and reduced fertility. An extensive assessment for autism-like behaviors in this mouse model was warranted, because of the high prevalence of ASD in human patients. The behavior of Magel2 knockout mice and their WT littermates were assayed via open field, elevated plus maze, tube, three-chamber and partition tests. Our studies confirm decreased horizontal activity of male and female mice and increased vertical activity of females, in the open field. Both sexes spent more time in the open arm of the elevated plus maze, suggestive of reductions in anxiety. Both sexes displayed a lack of preference for social novelty, via a lack of discrimination between known and novel partners in the partition test. The in-depth investigation of behavioral profiles caused by Magel2 loss-of-function helps to elucidate the etiology of behavioral phenotypes both for SHFYNG and PWS in general. [ABSTRACT FROM AUTHOR]

Published

2017

35. Cell-specific secretory granule sorting mechanisms: the role of MAGEL2 and retromer in hypothalamic regulated secretion.

Author

Štepihar D, Florke Gee RR, Hoyos Sanchez MC, and Fon Tacer K

Abstract

Intracellular protein trafficking and sorting are extremely arduous in endocrine and neuroendocrine cells, which synthesize and secrete on-demand substantial quantities of proteins. To ensure that neuroendocrine secretion operates correctly, each step in the secretion pathways is tightly regulated and coordinated both spatially and temporally. At the trans -Golgi network (TGN), intrinsic structural features of proteins and several sorting mechanisms and distinct signals direct newly synthesized proteins into proper membrane vesicles that enter either constitutive or regulated secretion pathways. Furthermore, this anterograde transport is counterbalanced by retrograde transport, which not only maintains membrane homeostasis but also recycles various proteins that function in the sorting of secretory cargo, formation of transport intermediates, or retrieval of resident proteins of secretory organelles. The retromer complex recycles proteins from the endocytic pathway back to the plasma membrane or TGN and was recently identified as a critical player in regulated secretion in the hypothalamus. Furthermore, melanoma antigen protein L2 (MAGEL2) was discovered to act as a tissue-specific regulator of the retromer-dependent endosomal protein recycling pathway and, by doing so, ensures proper secretory granule formation and maturation. MAGEL2 is a mammalian-specific and maternally imprinted gene implicated in Prader-Willi and Schaaf-Yang neurodevelopmental syndromes. In this review, we will briefly discuss the current understanding of the regulated secretion pathway, encompassing anterograde and retrograde traffic. Although our understanding of the retrograde trafficking and sorting in regulated secretion is not yet complete, we will review recent insights into the molecular role of MAGEL2 in hypothalamic neuroendocrine secretion and how its dysregulation contributes to the symptoms of Prader-Willi and Schaaf-Yang patients. Given that the activation of many secreted proteins occurs after they enter secretory granules, modulation of the sorting efficiency in a tissue-specific manner may represent an evolutionary adaptation to environmental cues., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Štepihar, Florke Gee, Hoyos Sanchez and Fon Tacer.)

Published

2023

36. Early onset critically ill infants with Schaaf-Yang syndrome: a retrospective study from the China neonatal genomes project and literature review.

Author

Huang Z, Lu W, Zhang P, Lu Y, Chen L, Kang W, Yang L, Li G, Zhu J, Wu B, Zhou W, and Wang H

Abstract

Background: Schaaf-Yang syndrome (SYS) is a recently identified rare neurodevelopmental disorder characterized by neonatal hypotonia, feeding difficulty, joint contractures, autism spectrum disorder and development delay/intellectual disability. It is mainly caused by truncating variants in maternally imprinted gene MAGEL2 within the Prader-Willi syndrome critical region 15q11-q13. Clinical diagnosis of SYS is difficult for clinicians due to its rarity and highly variable phenotypes, while unique inheritance patterns also complicate genetic diagnosis. To date, no published papers have analyzed the clinical consequences and molecular changes in Chinese patients., Methods: In this study, we retrospectively investigated the mutation spectrums and phenotypic features of 12 SYS infants. The data were from a cohort of critically ill infants from the China neonatal genomes project (CNGP), sponsored by Children's Hospital of Fudan University. We also reviewed relevant literature., Results: Six previously reported mutations and six novel pathogenic variations of MAGEL2 were identified in 12 unrelated infants. Neonatal respiratory problems were the major complaint for hospitalization, which occurred in 91.7% (11/12) cases. All babies displayed feeding difficulties and a poor suck postnatally, and neonatal dystonia was present in 11 of the cases; joint contractures and multiple congenital defects were also observed. Interestingly, we found that 42.5% (57/134) of the reported SYS patients, including ours carried variants in the c.1996 site, particularly the c.1996dupC variant. The mortality rate was 17.2% (23/134), with the median age of death between 24 gestational weeks in fetuses and 1-month-old in infants. Respiratory failure was the leading cause of death in live-born patients (58.8%, 10/17), especially during the neonatal period., Conclusions: Our findings expanded the genotype and phenotype spectrum of neonatal SYS patients. The results demonstrated that respiratory dysfunction was a typical characteristic among Chinese SYS neonates that should attract physicians' attention. The early identification of such disorders allows early intervention and can further provide genetic counseling as well as reproductive options for the affected families., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://atm.amegroups.com/article/view/10.21037/atm-22-4396/coif). The authors have no conflicts of interest to declare., (2023 Annals of Translational Medicine. All rights reserved.)

Published

2023

37. Targeting the endocannabinoid/CB1 receptor system for treating obesity in Prader–Willi syndrome.

Author

Knani, Ibrahim, Earley, Brian J., Udi, Shiran, Nemirovski, Alina, Hadar, Rivka, Gammal, Asaad, Cinar, Resat, Hirsch, Harry J., Pollak, Yehuda, Gross, Itai, Eldar-Geva, Talia, Reyes-Capo, Daniela P., Han, Joan C., Haqq, Andrea M., Gross-Tsur, Varda, Wevrick, Rachel, and Tam, Joseph

Abstract

Objective Extreme obesity is a core phenotypic feature of Prader–Willi syndrome (PWS). Among numerous metabolic regulators, the endocannabinoid (eCB) system is critically involved in controlling feeding, body weight, and energy metabolism, and a globally acting cannabinoid-1 receptor (CB 1 R) blockade reverses obesity both in animals and humans. The first-in-class CB 1 R antagonist rimonabant proved effective in inducing weight loss in adults with PWS. However, it is no longer available for clinical use because of its centrally mediated, neuropsychiatric, adverse effects. Methods We studied eCB ‘tone’ in individuals with PWS and in the Magel2 -null mouse model that recapitulates the major metabolic phenotypes of PWS and determined the efficacy of a peripherally restricted CB 1 R antagonist, JD5037 in treating obesity in these mice. Results Individuals with PWS had elevated circulating levels of 2-arachidonoylglycerol and its endogenous precursor and breakdown ligand, arachidonic acid. Increased hypothalamic eCB ‘tone’, manifested by increased eCBs and upregulated CB 1 R, was associated with increased fat mass, reduced energy expenditure, and decreased voluntary activity in Magel2 -null mice. Daily chronic treatment of obese Magel2 -null mice and their littermate wild-type controls with JD5037 (3 mg/kg/d for 28 days) reduced body weight, reversed hyperphagia, and improved metabolic parameters related to their obese phenotype. Conclusions Dysregulation of the eCB/CB 1 R system may contribute to hyperphagia and obesity in Magel2 -null mice and in individuals with PWS. Our results demonstrate that treatment with peripherally restricted CB 1 R antagonists may be an effective strategy for the management of severe obesity in PWS. [ABSTRACT FROM AUTHOR]

Published

2016

38. Secuenciación de exomas en trastornos del espectro autista, una entidad de especial dificultad diagnóstica

Author

Carracedo Álvarez, Ángel (dir.), Barros Angueira, Francisco, Universidade de Santiago de Compostela. Facultade de Medicina e Odontoloxía, Taibo Giménez, Eva, Carracedo Álvarez, Ángel (dir.), Barros Angueira, Francisco, Universidade de Santiago de Compostela. Facultade de Medicina e Odontoloxía, and Taibo Giménez, Eva

Abstract

Los Trastornos del Espectro Autista (TEA) son un grupo heterogéneo de entidades encuadradas en los trastornos de neurodesarrollo (TND) que se caracterizan por alteraciones en la comunicación e interacción social y patrones restringidos y repetitivos. Su etiología es multifactorial, de base predominantemente genética pero modificada por la interacción con el ambiente. La heredabilidad en estos trastornos se estima en torno a un 83%. Entre las variaciones genéticas implicadas hay variación común que contribuye a la enfermedad, pero también variaciones raras funcionales que explican un 40% de los casos. En estas se incluyen CNVs, deleciones y duplicaciones microeestructurales del genoma que explican menos del 10% de los casos, junto a una proporción mayoritaria de mutaciones puntuales. Estas últimas exigen el uso de paneles de genes o el análisis de exomas o genomas completos para su identificación. En este trabajo se analiza un caso clínico de TEA de especial dificultad diagnóstica que requiere el análisis masivo de exomas. La secuenciación del exoma se llevó a cabo con Secuenciación de Nueva Generación (NGS). Sobre las variantes identificadas se llevó a cabo un proceso de filtrado, priorización e interpretación de variantes en función de sus características. El análisis identificó una mutación de novo en el gen MAGEL2 que introduce un codón de parada en la secuencia del gen dando lugar a una proteína truncada. Esta mutación no ha sido descrita previamente, pero dadas sus características puede considerarse patogénica y permite justificar el fenotipo del paciente, Os Trastornos do Espectro Autista (TEA) son un grupo heteroxéneo de entidades encadradas nos Trastornos do Neurodesenvolvemento (TND) que se caracterizan por alteracións na comunicación e interacción sociais e patróns restrinxidos e repetitivos. A súa etioloxía é multifactorial, de base predominantemente xenética pero modificada pola interacción co ambiente. A heredabilidade nestes trastornos estímase en torno ao 83%. Entre as variacións xenéticas implicadas hai variación común que contribúe a enfermidade, pero tamén variacións raras funcionais que explican un 40% dos casos. Nestas inclúense CNVs, delecións e duplicacións microestructurais do xenoma que explican menos do 10% dos casos, xunto a unha proporción maioritaria de mutacións puntuais. Estas últimas esixen o uso de paneis de xens ou a análise de exomas ou xenomas completos para a súa identificación. Neste traballo analízase un caso clínico de TEA de especial dificultade diagnóstica que require da análise masiva de exomas. A secuenciación do exoma levouse a cabo con Secuenciación de Nova Xeración (NSG). Sobre as variantes identificadas levouse a cabo un proceso de filtrado, priorización e interpretación de variantes en función das súas características. A análise identificou unha mutación de novo no xen MAGEL2 que introduce un codón de parada na secuencia do xen dando lugar a unha proteína truncada. Esta mutación non foi descrita previamente, pero dadas as súas características pode considerarse patoxénica e permite xustificar o fenotipo do doente, Autism Spectrum Disorders (ASD) are a heterogeneous group of entities framed within the Neurodevelopmental Disorders (NDD) that are characterized by alterations in communication and social interaction and restricted and repetitive patterns. This disorders have a multifactorial etiology, with a predominantly genetic basis but modified by interaction with the environment. Heritability in these disorders is estimated at around 83%. Among the genetic variations involved there is common variation that contributes to the disease, but also rare functional variations that explain 40% of the cases. These include CNVs, deletions and microstructural duplications of the genome that explain less than 10% of cases, and a majority proportion of point mutations. The point mutations require the use of gene panels or the analysis of exomes or whole genomes for their identification. In this work we analyze a clinical case of ASD of special diagnostic difficulty that requires massive exome analysis. Exome sequencing was performed with Next Generation Sequencing (NGS). The variants identified were filtered, prioritized and interpreted according to their characteristics. The analysis identified a de novo mutation in the MAGEL2 gene that introduces a stop codon in the gene sequence resulting in a truncated protein. This mutation has not been previously described, but for its characteristics it can be considered pathogenic and allows to justify the patient's phenotype

Published

2021

39. Patients with PWS and related syndromes display differentially methylated regions involved in neurodevelopmental and nutritional trajectory

Author

Catherine Molinas, Maithé Tauber, Jean-Pierre Salles, Juliette Salles, Emmanuelle Lacassagne, Sanaa Eddiry, Nicolas Franchitto, Eric Bieth, Virginie Laurier, Benson-Rumiz, Alicia, Centre Hospitalier Universitaire de Toulouse (CHU Toulouse), Institut Toulousain des Maladies Infectieuses et Inflammatoires (Infinity), Université Toulouse III - Paul Sabatier (UT3), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Hôpital Marin d'Hendaye, Centre de Référence du Syndrome de Prader-Willi, Pôle Enfants [CHU Toulouse], and Centre Hospitalier Universitaire de Toulouse (CHU Toulouse)-Centre Hospitalier Universitaire de Toulouse (CHU Toulouse)

Subjects

Adult, Male, congenital, hereditary, and neonatal diseases and abnormalities, Gene Expression, Genome-wide association study, Biology, Genome-wide methylation analysis, Frameshift mutation, Epigenesis, Genetic, MAGEL2, Young Adult, Neurodevelopmental disorder, SNORD116, Genetics, medicine, Humans, Epigenetics, Child, Molecular Biology, Genetics (clinical), [SDV.MHEP] Life Sciences [q-bio]/Human health and pathology, Research, Age Factors, nutritional and metabolic diseases, Infant, Prader–Willi, DNA Methylation, medicine.disease, Human genetics, nervous system diseases, Nutrition Disorders, Differentially methylated regions, Neurodevelopmental Disorders, Chromosomal region, Female, Prader-Willi, Genomic imprinting, Prader-Willi Syndrome, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology, Developmental Biology, Genome-Wide Association Study

Abstract

Background Prader–Willi syndrome is a rare genetic neurodevelopmental disorder caused by a paternal deficiency of maternally imprinted gene expression located in the chromosome 15q11–q13 region. Previous studies have demonstrated that several classes of neurodevelopmental disorders can be attributed to either over- or under-expression of specific genes that may lead to impairments in neuronal generation, differentiation, maturation and growth. Epigenetic changes that modify gene expression have been highlighted in these disorders. One recent study focused on epigenetic analysis and compared patients with PWS with patients with other imprinting disorders. No study, however, has yet focused on epigenetics in patients with PWS specifically by comparing the mutations associated with this syndrome. Objective This study investigated the epigenetic modifications in patients with PWS and patients with PWS-related disorders caused by inactivation of two genes of the PWS chromosomal region, SNORD116 and MAGEL2. Our approach also aimed to compare the epigenetic modifications in PWS and PWS-related disorders. Methods We compared genome-wide methylation analysis (GWAS) in seven blood samples from patients with PWS phenotype (five with deletions of the PWS locus, one with a microdeletion of SNORD116 and one with a frameshift mutation of MAGEL2 presenting with Schaaf–Yang syndrome), as well as two control patients. Controls were infants that had been studied for suspicion of genetic diseases that was not confirmed by the genetic analysis and the clinical follow-up. Results The analysis identified 29,234 differentially methylated cytosines, corresponding to 5,308 differentially methylated regions (DMRs), which matched with 2,280 genes. The DMRs in patients with PWS were associated with neurodevelopmental pathways, endocrine dysfunction and social and addictive processes consistent with the key features of the PWS phenotype. In addition, the separate analysis for the SNORD116 and MAGEL2 deletions revealed that the DMRs associated with the SNORD116 microdeletion were found in genes implicated in metabolic pathways and nervous system development, whereas MAGEL2 mutations mostly concerned genes involved in macromolecule biosynthesis. Conclusion The PWS is associated with epigenetic modifications with differences in SNORD116 and MAGEL2 mutations, which seem to be relevant to the different associated phenotypes.

Published

2021

40. Linking oxytocin and arginine vasopressin signaling abnormalities to social behavior impairments in Prader-Willi syndrome.

Author

Oztan, Ozge, Zyga, Olena, Stafford, Diane E.J., and Parker, Karen J.

Subjects

*OXYTOCIN, *VASOPRESSIN, *PRADER-Willi syndrome, *NEUROPEPTIDES, *SOCIAL skills

Abstract

Prader-Willi syndrome (PWS) is a genetic neurodevelopmental disorder. Global hypothalamic dysfunction is a core feature of PWS and has been implicated as a driver of many of PWS's phenotypic characteristics (e.g., hyperphagia-induced obesity, hypogonadism, short stature). Although the two neuropeptides (i.e., oxytocin [OXT] and arginine vasopressin [AVP]) most implicated in mammalian prosocial functioning are of hypothalamic origin, and social functioning is markedly impaired in PWS, there has been little consideration of how dysregulation of these neuropeptide signaling pathways may contribute to PWS's social behavior impairments. The present article addresses this gap in knowledge by providing a comprehensive review of the preclinical and clinical PWS literature–spanning endogenous neuropeptide measurement to exogenous neuropeptide administration studies–to better understand the roles of OXT and AVP signaling in this population. The preponderance of evidence indicates that OXT and AVP signaling are indeed dysregulated in PWS, and that these neuropeptide pathways may provide promising targets for therapeutic intervention in a patient population that currently lacks a pharmacological strategy for its debilitating social behavior symptoms. • Prader-Willi syndrome has global hypothalamic dysfunction and social deficits. • Hypothalamic oxytocin and vasopressin signaling are critical for social function. • Oxytocin and vasopressin signaling are abnormal in Prader-Willi syndrome. • Oxytocin or vasopressin administration improves social function in animal models. • These pathways may be therapeutic targets for Prader-Willi syndrome social deficits. [ABSTRACT FROM AUTHOR]

Published

2022

41. Secuenciación de exomas en trastornos do espectro autista, unha entidade de especial dificultade diagnóstica

Author

Taibo Giménez, Eva, Carracedo Álvarez, Ángel (dir.), Barros Angueira, Francisco, and Universidade de Santiago de Compostela. Facultade de Medicina e Odontoloxía

Subjects

TEA, Diagnostic difficulty, Dificultad diagnóstica, Secuenciación de nova xeración, ASD, MAGEL2, Autism Spectrum Disorders, Massive exome sequencing, Trastornos del espectro autista, NGS, Secuenciación de nueva generación, Dificultade diagnóstica, Next-generation sequencing, Schaaf-Yang Syndrome, Secuenciación masiva de exomas, Síndrome de Schaaf-Yang, Trastornos do espectro autista

Abstract

Traballo Fin de Grao en Medicina. Curso 2020-2021 Los Trastornos del Espectro Autista (TEA) son un grupo heterogéneo de entidades encuadradas en los trastornos de neurodesarrollo (TND) que se caracterizan por alteraciones en la comunicación e interacción social y patrones restringidos y repetitivos. Su etiología es multifactorial, de base predominantemente genética pero modificada por la interacción con el ambiente. La heredabilidad en estos trastornos se estima en torno a un 83%. Entre las variaciones genéticas implicadas hay variación común que contribuye a la enfermedad, pero también variaciones raras funcionales que explican un 40% de los casos. En estas se incluyen CNVs, deleciones y duplicaciones microeestructurales del genoma que explican menos del 10% de los casos, junto a una proporción mayoritaria de mutaciones puntuales. Estas últimas exigen el uso de paneles de genes o el análisis de exomas o genomas completos para su identificación. En este trabajo se analiza un caso clínico de TEA de especial dificultad diagnóstica que requiere el análisis masivo de exomas. La secuenciación del exoma se llevó a cabo con Secuenciación de Nueva Generación (NGS). Sobre las variantes identificadas se llevó a cabo un proceso de filtrado, priorización e interpretación de variantes en función de sus características. El análisis identificó una mutación de novo en el gen MAGEL2 que introduce un codón de parada en la secuencia del gen dando lugar a una proteína truncada. Esta mutación no ha sido descrita previamente, pero dadas sus características puede considerarse patogénica y permite justificar el fenotipo del paciente Os Trastornos do Espectro Autista (TEA) son un grupo heteroxéneo de entidades encadradas nos Trastornos do Neurodesenvolvemento (TND) que se caracterizan por alteracións na comunicación e interacción sociais e patróns restrinxidos e repetitivos. A súa etioloxía é multifactorial, de base predominantemente xenética pero modificada pola interacción co ambiente. A heredabilidade nestes trastornos estímase en torno ao 83%. Entre as variacións xenéticas implicadas hai variación común que contribúe a enfermidade, pero tamén variacións raras funcionais que explican un 40% dos casos. Nestas inclúense CNVs, delecións e duplicacións microestructurais do xenoma que explican menos do 10% dos casos, xunto a unha proporción maioritaria de mutacións puntuais. Estas últimas esixen o uso de paneis de xens ou a análise de exomas ou xenomas completos para a súa identificación. Neste traballo analízase un caso clínico de TEA de especial dificultade diagnóstica que require da análise masiva de exomas. A secuenciación do exoma levouse a cabo con Secuenciación de Nova Xeración (NSG). Sobre as variantes identificadas levouse a cabo un proceso de filtrado, priorización e interpretación de variantes en función das súas características. A análise identificou unha mutación de novo no xen MAGEL2 que introduce un codón de parada na secuencia do xen dando lugar a unha proteína truncada. Esta mutación non foi descrita previamente, pero dadas as súas características pode considerarse patoxénica e permite xustificar o fenotipo do doente Autism Spectrum Disorders (ASD) are a heterogeneous group of entities framed within the Neurodevelopmental Disorders (NDD) that are characterized by alterations in communication and social interaction and restricted and repetitive patterns. This disorders have a multifactorial etiology, with a predominantly genetic basis but modified by interaction with the environment. Heritability in these disorders is estimated at around 83%. Among the genetic variations involved there is common variation that contributes to the disease, but also rare functional variations that explain 40% of the cases. These include CNVs, deletions and microstructural duplications of the genome that explain less than 10% of cases, and a majority proportion of point mutations. The point mutations require the use of gene panels or the analysis of exomes or whole genomes for their identification. In this work we analyze a clinical case of ASD of special diagnostic difficulty that requires massive exome analysis. Exome sequencing was performed with Next Generation Sequencing (NGS). The variants identified were filtered, prioritized and interpreted according to their characteristics. The analysis identified a de novo mutation in the MAGEL2 gene that introduces a stop codon in the gene sequence resulting in a truncated protein. This mutation has not been previously described, but for its characteristics it can be considered pathogenic and allows to justify the patient's phenotype

Published

2021

42. Magel2 truncation alters select behavioral and physiological outcomes in a rat model of Schaaf-Yang syndrome.

Author

Reznik DL, Yang MV, Albelda de la Haza P, Jain A, Spanjaard M, Theiss S, Schaaf CP, Malovannaya A, Strong TV, Veeraragavan S, and Samaco RC

Subjects

Humans, Rats, Mice, Animals, Proteins metabolism, Phenotype, Brain metabolism, Models, Biological, Antigens, Neoplasm genetics, Prader-Willi Syndrome genetics

Abstract

Previous studies in mice have utilized Magel2 gene deletion models to examine the consequences of its absence. We report the generation, molecular validation and phenotypic characterization of a novel rat model with a truncating Magel2 mutation modeling variants associated with Schaaf-Yang syndrome-causing mutations. Within the hypothalamus, a brain region in which human MAGEL2 is paternally expressed, we demonstrated, at the level of transcript and peptide detection, that rat Magel2 exhibits a paternal, parent-of-origin effect. In evaluations of behavioral features across several domains, juvenile Magel2 mutant rats displayed alterations in anxiety-like behavior and sociability measures. Moreover, the analysis of peripheral organ systems detected alterations in body composition, cardiac structure and function, and breathing irregularities in Magel2 mutant rats. Several of these findings are concordant with reported mouse phenotypes, indicating the conservation of MAGEL2 function across rodent species. Our comprehensive analysis revealing impairments across multiple domains demonstrates the tractability of this model system for the study of truncating MAGEL2 mutations., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2023. Published by The Company of Biologists Ltd.)

Published

2023

43. An Early Postnatal Oxytocin Treatment Prevents Social and Learning Deficits in Adult Mice Deficient for Magel2, a Gene Involved in Prader-Willi Syndrome and Autism.

Author

Meziane, Hamid, Schaller, Fabienne, Bauer, Sylvian, Villard, Claude, Matarazzo, Valery, Riet, Fabrice, Guillon, Gilles, Lafitte, Daniel, Desarmenien, Michel G., Tauber, Maithé, and Muscatelli, Françoise

Subjects

*PRADER-Willi syndrome, *OXYTOCIN, *LEARNING, *GENETICS of autism, *LABORATORY mice

Abstract

Background Mutations of MAGEL2 have been reported in patients presenting with autism, and loss of MAGEL2 is also associated with Prader-Willi syndrome, a neurodevelopmental genetic disorder. This study aimed to determine the behavioral phenotype of Magel2 -deficient adult mice, to characterize the central oxytocin (OT) system of these mutant mice, and to test the curative effect of a peripheral OT treatment just after birth. Methods We assessed the social and cognitive behavior of Magel2 -deficient mice, analyzed the OT system of mutant mice treated or not by a postnatal administration of OT, and determined the effect of this treatment on the brain. Results Magel2 inactivation induces a deficit in social recognition and social interaction and a reduced learning ability in adult male mice. In these mice, we reveal anatomical and functional modifications of the OT system and show that these defects change from birth to adulthood. Daily administration of OT in the first postnatal week was sufficient to prevent deficits in social behavior and learning abilities in adult mutant male mice. We show that this OT treatment partly restores a normal OT system. Thus, we report that an alteration of the OT system around birth has long-term consequences on behavior and on cognition. Importantly, an acute OT treatment of Magel2 -deficient pups has a curative effect. Conclusions Our study reveals that OT plays a crucial role in setting social behaviors during a period just after birth. An early OT treatment in this critical period could be a novel therapeutic approach for the treatment of neurodevelopmental disorders such as Prader-Willi syndrome and autism. [ABSTRACT FROM AUTHOR]

Published

2015

44. Oxytocin administration in neonates shapes hippocampal circuitry and restores social behavior in a mouse model of autism

Author

Bertoni, Alessandra, Schaller, Fabienne, Tyzio, Roman, Gaillard, Stephane, Santini, Francesca, Xolin, Marion, Diabira, Diabe, Vaidyanathan, Radhika, Matarazzo, Valery, Medina, Igor, Hammock, Elizabeth, Zhang, Jinwei, Chini, Bice, Gaiarsa, Jean-Luc, Muscatelli, Francoise, Institut de Neurobiologie de la Méditerranée [Aix-Marseille Université] (INMED - INSERM U1249), Institut National de la Santé et de la Recherche Médicale (INSERM)-Aix Marseille Université (AMU), Phenotype-expertise, Università degli Studi di Milano [Milano] (UNIMI), Florida State University [Tallahassee] (FSU), University of Exeter, National Research Council [Italy] (CNR), AMX-19-IET-007, ANR-14-CE13-0025,PRADOX,Mise en place post-natale du système ocytocinergique dans le cerveau et syndrome de Prader-Willi.(2014), Institut National de la Santé et de la Recherche Médicale (INSERM), Prader–Willi Research (FPWR), Fondation Jerôme LeJeune, Prader–Willi France, Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM), Università degli Studi di Milano = University of Milan (UNIMI), pellegrino, Christophe, and Appel à projets générique - Mise en place post-natale du système ocytocinergique dans le cerveau et syndrome de Prader-Willi. - - PRADOX2014 - ANR-14-CE13-0025 - Appel à projets générique - VALID

Subjects

Magel2, behavior, Excitation/Inhibition balance, [SDV]Life Sciences [q-bio], Diseases, neurodevelopmental disorder, Schaaf-Yang Syndrome, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], [SDV.NEU] Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], GABA-shift, Somatostatin, Prader-Willi Syndrome, hormones, hormone substitutes, and hormone antagonists, Neuroscience

Abstract

International audience; Oxytocin is an important regulator of the social brain. In some animal models of autism, notably in Magel2 tm1.1Mus -deficient mice, peripheral administration of oxytocin in infancy improves social behaviors until adulthood. However, neither the mechanisms responsible for social deficits nor the mechanisms by which such oxytocin administration has long-term effects are known. Here, we aimed to clarify these oxytocin-dependent mechanisms, focusing on social memory performance. Using in situ hybridization (RNAscope), we have established that Magel2 and oxytocin receptor are co-expressed in the dentate gyrus and CA2/CA3 hippocampal regions involved in the circuitry underlying social memory. Then, we have shown that Magel2 tm1.1Mus - deficient mice, evaluated in a three-chamber test, present a deficit in social memory. Next, in hippocampus, we conducted neuroanatomical and functional studies using immunostaining, oxytocin-binding experiments, ex vivo electrophysiological recordings, calcium imaging and biochemical studies. We demonstrated: an increase of the GABAergic activity of CA3-pyramidal cells associated with an increase in the quantity of oxytocin receptors and of somatostatin interneurons in both DG and CA2/CA3 regions. We also revealed a delay in the GABAergic development sequence in Magel2 tm1.1Mus -deficient pups, linked to phosphorylation modifications of KCC2. Above all, we demonstrated the positive effects of subcutaneous administration of oxytocin in the mutant neonates, restoring hippocampal alterations and social memory at adulthood. Although clinical trials are debated, this study highlights the mechanisms by which peripheral oxytocin administration in neonates impacts the brain and demonstrates the therapeutic value of oxytocin to treat infants with autism spectrum disorders.

Published

2021

45. Prader-Willi Syndrome and Schaaf-Yang Syndrome: Neurodevelopmental Diseases Intersecting at the MAGEL2 Gene

Author

Michael D. Fountain and Christian P. Schaaf

Subjects

Prader-Willi syndrome, Schaaf-Yang syndrome, MAGEL2, USP7, neurodevelopmental disorders, Medicine

Abstract

Prader-Willi syndrome (PWS) is a neurodevelopmental disorder characterized by neonatal hypotonia, developmental delay/intellectual disability, and characteristic feeding behaviors with failure to thrive during infancy; followed by hyperphagia and excessive weight gain later in childhood. Individuals with PWS also manifest complex behavioral phenotypes. Approximately 25% meet criteria for autism spectrum disorder (ASD). PWS is caused by the absence of paternally expressed, maternally silenced genes at chromosome 15q11-q13. MAGEL2 is one of five protein-coding genes in the PWS-critical domain. Truncating point mutations of the paternal allele of MAGEL2 cause Schaaf-Yang syndrome, which has significant phenotypic overlap with PWS, but is also clinically distinct; based on the presence of joint contractures, and a particularly high prevalence of autism spectrum disorder (up to 75% of affected individuals). The clinical and molecular overlap between PWS and Schaaf-Yang syndrome, but also their distinguishing features provide insight into the pathogenetic mechanisms underlying both disorders.

Published

2016

46. Diagnosis of Schaaf-Yang syndrome in Korean children with developmental delay and hypotonia

Author

Yena Lee, Arum Oh, Go Hun Seo, Mi-Sun Yum, Beom Hee Lee, Tae-Sung Ko, In Hee Choi, Gu-Hwan Kim, Changwon Keum, Taeho Kim, Sun Hee Heo, Hyunji Ahn, and Jeongmin Choi

Subjects

Male, Pediatrics, medicine.medical_specialty, medicine.medical_treatment, Developmental Disabilities, Respiratory difficulty, Observational Study, MAGEL2, 03 medical and health sciences, 0302 clinical medicine, SCHAAF-YANG SYNDROME, Intellectual disability, Republic of Korea, Exome Sequencing, medicine, Humans, Clinical severity, 030212 general & internal medicine, Mechanical ventilation, Generalized hypotonia, business.industry, Sleep apnea, Infant, Proteins, General Medicine, medicine.disease, Hypotonia, genomic imprinting, Schaaf-Yang syndrome, 030220 oncology & carcinogenesis, Child, Preschool, Muscle Hypotonia, Female, medicine.symptom, business, Prader-Willi Syndrome, Research Article

Abstract

Schaaf-Yang syndrome (SYS) is a recently identified disorder caused by a loss-of-function mutation in a maternally imprinted gene, MAGEL2, at 15q11.2q13. Due to its extreme rarity and wide range of clinical severity, clinical suspicion is difficult for a physician. In the current study, its frequency among the Korean pediatric patients with developmental delay (DD) or intellectual disability (ID) was assessed. As the first report of Korean patients with SYS, our study aims to increase the awareness of this condition among the physicians taking care of the pediatric patients with DD/ID and hypotonia. The patients diagnosed with SYS by whole-exome sequencing (WES) among the 460 Korean pediatric patients with DD/ID were included, and their clinical and molecular features were reviewed. Four patients (0.9%) were diagnosed with SYS. Profound DD (4 patients), multiple anomalies including joint contractures and facial dysmorphism (4 patients), generalized hypotonia (3 patients), and severe respiratory difficulty requiring mechanical ventilation (3 patients) were noted in most cases, similar to those in previous reports. Sleep apnea (2 patients), autistic features (2 patients), a high grade of gastroesophageal reflux (1 patient), and seizures (1 patient) were found as well. A total of 3 different truncating MAGEL2 mutations were identified. A previously-reported mutation, to be the most common one, c.1996dupC, was found in 2 patients. The other 2 mutations, c.2217delC and c.3449_3450delTT were novel mutations. As MAGEL2 is maternally imprinted, 2 patients had inherited the MAGEL2 mutation from their respective healthy fathers. SYS is an extremely rare cause of DD/ID. However, hypotonia, joint contractures, profound DD/ID and facial dysmorphism are the suggestive clinical features for SYS. As a maternally imprinted disorder, it should be reminded that SYS may be inherited in form of a mutation from a healthy father.

Published

2020

47. Promoter characterization and functional association with placenta of porcine MAGEL2.

Author

Caode Jiang, Yongsheng Yang, Chenchen Huang, and Whitelaw, Bruce

Subjects

*PROMOTERS (Genetics), *PLACENTA diseases, *POLYMERASE chain reaction, *GENETIC transcription, *SWINE diseases, *BIOLOGICAL assay, *GENETICS

Abstract

MAGEL2 (melanoma antigen-like gene 2) is essential for circadian function, metabolism and reproduction in mammals. This study was conducted to investigate transcriptional regulation and functional importance in the placenta of porcine MAGEL2. Quantitative real-time PCR showed that MAGEL2 was highly expressed in porcine hypothalamus, pituitary and placenta (P<0.05). The gene was down-regulated in Meishan but up-regulated in Duroc placentas from 25days post-coitum (dpc) to 105dpc (P<0.01). Dual luciferase assay demonstrated that the region -151/+110 had the highest promoter activity. Of the g. -712C>G and g. -708T>C polymorphisms in MAGEL2 promoter, -712C and -708T were observed to be predominant in Large White, Landrace and Duroc populations, while -712G and -708C were predominant in Meishan and Rongchang populations. Moreover, -712C>G and -708T>C had significant effects on MAGEL2 transcription (P<0.05) and placental efficiency (P<0.01). In conclusion, -151/+110 harbors the basal promoter of porcine MAGEL2. The region upstream the basal promoter contains repressive cis-elements. And, MAGEL2 is essential in porcine placenta. [ABSTRACT FROM AUTHOR]

Published

2014

48. Phenotypic spectrum and genetic analysis in the fatal cases of Schaaf-Yang syndrome

Author

Chen, Xuefei, Ma, Xiaolu, and Zou, Chaochun

Subjects

Heart Defects, Congenital, Male, Contracture, Developmental Disabilities, MAGEL2, Craniofacial Abnormalities, Feeding and Eating Disorders, Fatal Outcome, respiratory distress, Finger Joint, Exome Sequencing, Humans, Abnormalities, Multiple, Clinical Case Report, Genetic Testing, Child, Palliative Care, Infant, Newborn, Infant, Proteins, Syndrome, congenital heart disease, Muscular Atrophy, Schaaf-Yang syndrome, Muscle Hypotonia, Female, Respiratory Insufficiency, Research Article

Abstract

Rationale: Schaaf-Yang syndrome, a rare imprinted hereditary disease caused by MAGEL2 variants, manifests as developmental delay/intellectual disability, neonatal hypotonia, feeding difficulties, contractures, and autism spectrum disorder. Patient concerns: Patient 1 and 2 were infant girls presenting facial dysmorphisms, contractures of interphalangeal joints, neonatal hypotonia, feeding difficulties, congenital heart diseases, and respiratory complications. Besides, Patient 2 presented with delayed psychomotor development. Diagnosis: Whole-exome sequencing was performed and heterozygous mutations of the MAGEL2 gene were detected in the patients. They were diagnosed as Schaaf-Yang syndrome. Interventions: The patients received supportive treatment including mechanical ventilation, parenteral nutrition and gastric tube feeding. Outcomes: Whole-exome sequencing revealed de novo heterozygous c.1996dupC pathogenic mutations in the MAGEL2 gene in the 2 patients. They died due to respiratory failure at the age of 20 days and 98 days, respectively. Lessons: Our results indicate that MAGEL2 variants can cause congenital heart disease and fatal respiratory complications, broadening the phenotypic spectrum and adding to the fatal cases of Schaaf-Yang syndrome. We highly suggest that the MAGEL2 gene should be added to gene-panels or gene-filters in next-generation sequencing-based diagnostics, which is of great significance for early diagnosis and early intervention of Schaaf-Yang syndrome patients.

Published

2020

49. Crisponi/cold-induced sweating syndrome: Differential diagnosis, pathogenesis and treatment concepts

Author

Gülen Eda Utine, Laura Crisponi, Insa Buers, Lara Schöning, Giangiorgio Crisponi, Bilge Bayraktar-Tanyeri, Yvonne Nitschke, Puneet Kaur Sahi, Maja Di Rocco, Angela Loi, Giuseppe Zampino, Frank Rutsch, and Ivana Persico

Subjects

0301 basic medicine, Disease, 030105 genetics & heredity, Crisponi syndrome, Bioinformatics, Sudden death, Diagnosis, Differential, MAGEL2, 03 medical and health sciences, Camptodactyly, Craniosynostoses, Death, Sudden, Intellectual Disability, Retinitis pigmentosa, Genetics, medicine, Humans, Hyperhidrosis, Receptors, Cytokine, Genetics (clinical), NALCN, business.industry, Differential diagnosis, pathogenesis and treatment concepts-, CLINICAL GENETICS, cilt.97, ss.209-221, 2020 [Buers I., Persico I., Schoening L., Nitschke Y., Di Rocco M., Loi A., Sahi P. K. , ÜTİNE G. E. , Bayraktar-Tanyeri B., Zampino G., et al., -Crisponi/cold-induced sweating syndrome], Facies, medicine.disease, Hypotonia, Cold-induced sweating, 030104 developmental biology, Scoliosis, Settore MED/38 - PEDIATRIA GENERALE E SPECIALISTICA, Cytokines, Ciliary neurotrophic factor receptor, Trismus, CLCF1, KLHL7, CRLF1, SCN2A, Differential diagnosis, medicine.symptom, KLHL7, business, Hand Deformities, Congenital, CLCF1, Retinitis Pigmentosa, Ciliary Neurotrophic Factor Receptor alpha Subunit

Abstract

Crisponi/cold-induced sweating syndrome (CS/CISS) is an autosomal recessive disease characterized by hyperthermia, camptodactyly, feeding and respiratory difficulties often leading to sudden death in the neonatal period. The affected individuals who survived the first critical years of life, develop cold-induced sweating and scoliosis in early childhood. The disease is caused by variants in the CRLF1 or in the CLCF1 gene. Both proteins form a heterodimeric complex that acts on cells expressing the ciliary neurotrophic factor receptor (CNTFR). CS/CISS belongs to the family of "CNTFR-related disorders" showing a similar clinical phenotype. Recently, variants in other genes, including KLHL7, NALCN, MAGEL2 and SCN2A, previously linked to other diseases, have been associated with a CS/CISS-like phenotype. Therefore, retinitis pigmentosa and Bohring-Optiz syndrome-like (KLHL7), Congenital contractures of the limbs and face, hypotonia, and developmental delay syndrome (NALCN), Chitayat-Hall/Schaaf-Yang syndrome (MAGEL2), and early infantile epileptic encephalopathy-11 syndrome (SCN2A) all share an overlapping phenotype with CS/CISS, especially in the neonatal period. This review aims to summarize the existing literature on CS/CISS, focusing on the current state of differential diagnosis, pathogenesis and treatment concepts in order to achieve an accurate and rapid diagnosis. This will improve patient management and enable specific treatments for the affected individuals.

Published

2020

50. The adult phenotype of Schaaf-Yang syndrome

Author

Bernhard Horsthemke, Alexander P.A. Stegmann, Christian P. Schaaf, Alma Kuechler, Constance T. R. M. Stumpel, Magdeldin Elgizouli, Gabriele Gillessen-Kaesbach, Felix Marbach, Jasmin Beygo, Megan E. Rech, Florian Erger, Clara Velmans, Stefanie Beck-Wödl, University of Zurich, Kuechler, Alma, Klinische Genetica, MUMC+: DA KG Polikliniek (9), RS: GROW - R4 - Reproductive and Perinatal Medicine, and MUMC+: DA KG Lab Centraal Lab (9)

Subjects

Adult, 2716 Genetics (clinical), 10039 Institute of Medical Genetics, Prader–Willi syndrome, Medizin, lcsh:Medicine, 610 Medicine & health, Adult phenotype, MAGEL2, Intellectual Disability, Intellectual disability, medicine, 2736 Pharmacology (medical), Humans, Pharmacology (medical), Genetics (clinical), Arthrogryposis, Research, lcsh:R, Proteins, General Medicine, medicine.disease, Obesity, Phenotype, Human genetics, Schaaf-Yang syndrome, Cohort, 570 Life sciences, biology, Anxiety, PRADER-WILLI-SYNDROME, ComputingMethodologies_GENERAL, medicine.symptom, Hypoactivity, Weight gain, Prader-Willi Syndrome, Clinical psychology

Abstract

Background MAGEL2-associated Schaaf-Yang syndrome (SHFYNG, OMIM #615547, ORPHA: 398069), which was identified in 2013, is a rare disorder caused by truncating variants of the paternal copy of MAGEL2, which is localized in the imprinted region on 15q11.2q13. The phenotype of SHFYNG in childhood partially overlaps with that of the well-established Prader–Willi syndrome (PWS, OMIM #176270). While larger numbers of younger individuals with SHFYNG have been recently published, the phenotype in adulthood is not well established. We recruited 7 adult individuals (aged 18 to 36) with molecularly confirmed SHFYNG and collected data regarding the clinical profile including eating habits, sleep, behavior, personal autonomy, psychiatric abnormalities and other medical conditions, as well as information about the respective phenotypes in childhood. Results Within our small cohort, we identified a range of common features, such as disturbed sleep, hypoactivity, social withdrawal and anxiety, but also noted considerable differences at the level of personal autonomy and skills. Behavioral problems were frequent, and a majority of individuals displayed weight gain and food-seeking behavior, along with mild intellectual disability or borderline intellectual function. Classical symptoms of SHFYNG in childhood were reported for most individuals. Conclusion Our findings indicate a high variability of the functional abilities and social participation of adults with SHFYNG. A high prevalence of obesity within our cohort was notable, and uncontrollable food intake was a major concern for some caregivers. The phenotypes of PWS and SHFYNG in adulthood might be more difficult to discern than the phenotypes in childhood. Molecular genetic testing for SHFYNG should therefore be considered in adults with the suspected diagnosis of PWS, if testing for PWS has been negative.

Published

2020