Description
Neuronal and Synaptic Dysfunction in Autism Spectrum Disorder and Intellectual Disability
Coordinators: Sala Carlo, Verpelli Chiara
Language: English
Subject for Neuronal and Synaptic Dysfunction in Autism Spectrum...:
Keywords
22q13 deletion; Absent speech; Adhesion molecule; ASD; Autism spectrum disorder; Autism spectrum disorders; Autism; Autoimmunity; Autozygosity mapping; Balanced translocation breakpoint mapping; Brain cortex; Brain; Candidate gene approach; CDFE; Chromosomal rearrangements; CNTNAP2; CNV; Cognition; Communication disorders; Copy number variations; Cortical development; Developmental delay; Disease management; Disease mechanisms; Disease modeling; Dravet syndrome; Drug screening; Dysplastic toenails; Epidemiology; Epilepsy; ERK; Excitatory synapse; Exome sequencing; FMR1; FMRP; Fragile X syndrome; Fragile X; Gene network; Genetic; Growth failure; Heritability; Human induced pluripotent stem cells; Human neurons; Hypotonia; Inhibitory synapse; Intellectual disabilities; Intellectual disability; Intellectual impairment; Learning; Linkage analysis; MAGUK; Malformations of cortical development (MCD)Neuronal migration disorders; MASC; Maternal immune activation; MeCP2; MECP2; mGluR1/5; Microglia; Molecular targeted therapy; Monoamines; Mouse behavior; Mouse models; Mutants; Mutation; Nav1.1; Nav1.2; Neurobiology; Neurodevelopment; Neurodevelopmental diseases; Neurodevelopmental disorder; Neuroimmunology; Neuroinflammation; Next-generation sequencing; Nonsyndromal XLID; NTD; Olfactory tests; Opioid; Oxytocin receptor; Oxytocin; Parvalbumin inhibitory neuron; PCDH19; PCP; Perinatal treatment; Phelan�McDermid; Positional mapping; Postsynaptic density; Presynapse; Protein synthesis; Proteomics; Protocadherin; Repetitive behaviors; Rett syndrome; Schizophrenia; SCN1A; SCN2A; Scribble; Seizures; Shank1; Shank2; Shank3; SHANK3; Small GTPase pathway; SNV; Social approach; Social behavior; Social communication; Social interaction; Sodium channel; Speech delay; Synapse formation; Synapse; Synaptopathy; Syndromal XLID; Tubulinopathies; Twin studies; Whole-genome sequencing; X-LID; X-Linked ASD; X-linked intellectual disability
394 p. · 21.4x27.6 cm · Hardback
Description
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Neuronal and Synaptic Dysfunction in Autism Spectrum Disorder and Intellectual Disability provides the latest information on Autism spectrum disorders (ASDs), the lifelong neurodevelopmental disorders that present in early childhood and affect how individuals communicate and relate to others and their surroundings.
In addition, three quarters of ASD patients also manifest severe intellectual disability. Though certain genes have been implicated, ASDs remain largely a mystery, and research looking into causes and cellular deficits are crucial for better understanding of neurodevelopmental disorders.
Despite the prevalence and insidious nature of this disorder, this book remains to be an extensive resource of information and background on the state of current research in the field.
The book serves as a reference for this purpose, and discusses the crucial role synaptic activity plays in proper brain function. In addition, the volume discusses the neurodevelopmental synaptopathies and serves as a resource for scientists and clinicians in all biomedical science specialties. This research has been crucial for recent studies that have provided a rationale for the development of pharmacological agents able to counteract functional synaptic anomalies and potentially ameliorate some ASD symptoms.
Part 1. Autism spectrum disorders and Intellectual disability: Genetic and Non-Genetic Causes 1. Experimental tools for the identification of specific genes in autism spectrum disorders and intellectual disability - Yiping Shen and Xiaohong Gong 2. Genetic causes of autism spectrum disorders - Guillaume Huguet and Thomas Bourgeron 3. Genetics of X-linked intellectual disability - Luigi Boccuto and Charles E. Schwartz 4. Genetic causes of intellectual disability: the genes controlling cortical development - Yoann Saillour and Jamel Chelly 5. Immune Dysfunction in Autism Spectrum Disorder - Natalia V. Malkova and Elaine Y. Hsiao
Part 2. Function of Mutated Genes in Intellectual Disability (ID) and Autism 6. Synapse proteomes and disease: the MASC paradigm - Àlex Bayés and Seth GN Grant 7. The Function of MeCP2 and its Causality in Rett Syndrome - Janine Lamonica and Zhaolan Zhou 8. FMRP and the pathophysiology of fragile X syndrome - Stephanie A. Barnes, Sophie R. Thompson, Peter C. Kind and Emily K. Osterweil 9. X-linked ASDs and ID gene mutations - Edoardo Moretto, Maria Passafaro and Silvia Bassani 10. Shank3, Shank2, Shank1 mutations in ID and ASD - Chiara Verpelli and Michael J. Schmeisser 11. Mutations in synaptic adhesion molecules - Jaewon Ko, Caterina Montani, Carlo Sala and Eunjoon Kim 12. CNTNAP2 mutations in autism - Olga Peñagarikano 13. Planar cell polarity (PCP) gene mutations in Autism Spectrum Disorder, Intellectual Disabilities and Related Deletion/Duplication Syndromes - Nathalie Sans, Jérôme Ezan, Maité M. Moreau and Mireille Montcouquiol 14. Protocadherin mutations in neurodevelopmental disorders - Duyen Pham, Chuan Tan, Claire Homan, Lachlan Jolly and Jozef Gécz 15. Mutations of voltage-gated sodium channel genes SCN1A and SCN2A in epilepsy, intellectual disability, and autism - Kazuhiro Yamakawa 16. Oxytocin in the developing brain: relevance as disease-modifying treatment in autism spectrum disorders - Bice Chini, Marianna Leonzino and Valentina a Gigliucci
Part 3. Experimental Models, Clinicaland Pharmacological Aspects of Major ASDs and Intellectual Disability Syndromes 17. Mouse Behaviour and Models for Autism Spectrum Disorders - Maria Luisa Scattoni 18. The iPSC technology to study neurodevelopmental disorders - Alysson Renato Muotri 19. Rett syndrome: clinical aspects - Daniel Tarquinio and Alan K. Percy 20. Fragile-x syndrome - Elizabeth Berry-Kravis and Anne Hoffmann 21. Phelan-McDermid syndrome: clinical aspects - Katy Phelan, Luigi Boccuto and Sara Sarasua 22. Epilepsy associated with ASD and intellectual disability - Carla Marini
Graduate and undergraduate students in neuroscience and biomedical sciences, researchers new to the field, and post-doctoral fellows and clinicians seeking a resource on synaptic dysfunction in autism spectrum disorder
Dr. Chiara Verpelli is affiliated with the Neuroscience Institute at the National Research Council of Italy, and is also affiliated with Department of Biomedical Science and Translational Medicine at the University of Milano. With interests in chemical and pharmacological technology as well, she has co-authored multiple papers in high-impact international scientific journals. Her research focus is to understand the genes involved in synapse development and function, and more recently the use of patient-specific stem cells to study neurodevelopmental diseases including ASD and intellectual disability.
- Introduces the genetic and non-genetic causes of autism and associated intellectual disabilities
- Describes the genes implicated in autistic spectrum disorders and their function
- Considers major individual genetic causes of autism, Rett syndrome, Fragile X syndrome, and other autism spectrum disorders, as well as their classification as synaptopathies
- Presents a thorough discussion of the clinical aspects of multiple neurodevelopmental disorders and the experimental models that exist to study their pathophysiology in vitro and in vivo, including animal models and patient-derived stem cell culture
