Your search keyword '"Social deficits"' showing total 232 results

1. Targeting epigenetic enzymes for autism treatment.

Author

Yan, Zhen

Subjects

*HISTONE methyltransferases, *DEACETYLASES, *DEMETHYLASE, *ENZYME inhibitors, *AUTISM, *HISTONE deacetylase inhibitors

Abstract

Emerging preclinical autism research has shown the therapeutic promise of pharmacological inhibitors for epigenetic enzymes, such as histone deacetylases (HDAC), euchromatic histone methyltransferases (EHMT), and lysine-specific histone demethylase 1A (LSD1). These interventions restore gene expression, synaptic function, and behavioral performance in autism models, highlighting a new strategy for autism treatment. [ABSTRACT FROM AUTHOR]

Published

2024

2. The reciprocal associations between social deficits, social engagement, and inflammation: Longitudinal evidence comparing venous blood samples and dried blood spots and mapping the modifying role of phenotypic and genotypic depression.

Author

Gao, Qian, Bone, Jessica K., Finn, Saoirse, and Fancourt, Daisy

Subjects

*LONELINESS, *BLOOD sampling, *GENOTYPES, *INFLAMMATION, *MENTAL depression, *SOCIAL isolation

Abstract

• Loneliness is a risk factor for increasing chronic inflammation. • Social engagement may be a protective factor, reducing chronic inflammation. • There is a loop between inflammation and loneliness and social engagement. • Findings were similar in both dried blood spots and venous blood samples. • Phenotypic and genotypic depression could modify the loneliness inflammation loop. Social psychoneuroimmunology suggests an interplay between social deficits (loneliness and isolation) and chronic inflammation, but the direction of these relationships remains unclear. We estimated the reciprocal associations of social deficits and social engagement with levels of C-reactive protein (CRP), compared the consistency of the findings depending on the biological sampling method used, and examined the modifying role of phenotypic and genotypic depression. We used longitudinal nationally representative data from the US (Health and Retirement Study, 3 waves, 2006–16) and England (English Longitudinal Study of Ageing, 4 waves, 2004–18). Loneliness, social isolation, and social engagement were self-reported. CRP was measured using dried blood spots (US) and venous blood samples (England). Cross-lagged panel models were fitted and tested interactions with phenotypic depression (above-threshold depressive symptom scores) and genotypic depression (polygenic score for major depressive disorder). We included 15,066 participants (mean age = 66.1 years, SD = 9.8) in the US and 10,290 (66.9 years, SD = 10.5) in England. We found reciprocal associations between loneliness and CRP using dried blood spots and venous blood samples. Higher CRP predicted higher subsequent loneliness and higher loneliness predicted elevated CRP. Both phenotypic and genotypic depression modified this reciprocal association. There were also reciprocal associations for social engagement in venous blood samples: higher CRP predicted lower social engagement and greater social engagement predicted lower subsequent CRP. Associations between social isolation and CRP were inconsistent and unidirectional. Loneliness may increase chronic inflammation, whereas social engagement may reduce inflammation. As these relationships were reciprocal, there may be a loop between inflammation, loneliness, and social engagement. This loop was stronger in those with depression or at high genetic risk for major depressive disorder. This relationship for loneliness was present in both blood sampling methods despite contrasting methods of CRP measurement, indicating that the finding is not attributable to measurement bias in biomarkers. [ABSTRACT FROM AUTHOR]

Published

2024

3. Resolving neuroinflammatory and social deficits in ASD model mice: Dexmedetomidine downregulates NF-κB/IL-6 pathway via α2AR.

Author

Liang, Zheng-Kai, Xiong, Wei, Wang, Chen, Chen, Li, Zou, Xin, Mai, Jing-Wen, Dong, Bo, Guo, Chongqi, Xin, Wen-Jun, Luo, De-Xing, Xu, Ting, and Feng, Xia

Subjects

*DEXMEDETOMIDINE, *ADRENERGIC agonists, *AUTISM spectrum disorders, *NF-kappa B

Abstract

[Display omitted] • Administration of dexmedetomidine alleviates social deficits in BTBR mice. • Dexmedetomidine acts on the prelimbic cortex and influence social behavior. • Abnormal elevation of IL-6 in the prelimbic cortex impairs social communication. • Dexmedetomidine improves social deficits through NF-κb/IL-6 signal pathway. Autism spectrum disorder (ASD) is a neurodevelopmental disorder that severely affects individuals' daily life and social development. Unfortunately, there are currently no effective treatments for ASD. Dexmedetomidine (DEX) is a selective agonist of α2 adrenergic receptor (α2AR) and is widely used as a first-line medication for sedation and hypnosis in clinical practice. In recent years, there have been reports suggesting its potential positive effects on improving emotional and cognitive functions. However, whether dexmedetomidine has therapeutic effects on the core symptoms of ASD, namely social deficits and repetitive behaviors, remains to be investigated. In the present study, we employed various behavioral tests to assess the phenotypes of animals, including the three-chamber, self-grooming, marble burying, open field, and elevated plus maze. Additionally, electrophysiological recordings, western blotting, qPCR were mainly used to investigate and validate the potential mechanisms underlying the role of dexmedetomidine. We found that intraperitoneal injection of dexmedetomidine in ASD model mice-BTBR T+ Itpr3tf/J (BTBR) mice could adaptively improve their social deficits. Further, we observed a significant reduction in c-Fos positive signals and interleukin-6 (IL-6) expression level in the prelimbic cortex (PrL) of the BTBR mice treated with dexmedetomidine. Enhancing or inhibiting the action of IL-6 directly affects the social behavior of BTBR mice. Mechanistically, we have found that NF-κB p65 is a key pathway regulating IL-6 expression in the PrL region. In addition, we have confirmed that the α2AR acts as a receptor switch mediating the beneficial effects of dexmedetomidine in improving social deficits. This study provides the first evidence of the beneficial effects of dexmedetomidine on core symptoms of ASD and offers a theoretical basis and potential therapeutic approach for the clinical treatment of ASD. [ABSTRACT FROM AUTHOR]

Published

2024

4. The gut metabolite indole-3-propionic acid activates ERK1 to restore social function and hippocampal inhibitory synaptic transmission in a 16p11.2 microdeletion mouse model

Author

Jian Jiang, Dilong Wang, Youheng Jiang, Xiuyan Yang, Runfeng Sun, Jinlong Chang, Wenhui Zhu, Peijia Yao, Kun Song, Shuwen Chang, Hong Wang, Lei Zhou, Xue-Song Zhang, Huiliang Li, and Ningning Li

Subjects

Autism, Social deficits, Gut microbiota metabolite, Indole-3-propionic acid, Mapk3, GABA, Microbial ecology, QR100-130

Abstract

Abstract Background Microdeletion of the human chromosomal region 16p11.2 (16p11.2 $${}^{+/-}$$ + / - ) is a prevalent genetic factor associated with autism spectrum disorder (ASD) and other neurodevelopmental disorders. However its pathogenic mechanism remains unclear, and effective treatments for 16p11.2 $${}^{+/-}$$ + / - syndrome are lacking. Emerging evidence suggests that the gut microbiota and its metabolites are inextricably linked to host behavior through the gut-brain axis and are therefore implicated in ASD development. Despite this, the functional roles of microbial metabolites in the context of 16p11.2 $${}^{+/-}$$ + / - are yet to be elucidated. This study aims to investigate the therapeutic potential of indole-3-propionic acid (IPA), a gut microbiota metabolite, in addressing behavioral and neural deficits associated with 16p11.2 $${}^{+/-}$$ + / - , as well as the underlying molecular mechanisms. Results Mice with the 16p11.2 $${}^{+/-}$$ + / - showed dysbiosis of the gut microbiota and a significant decrease in IPA levels in feces and blood circulation. Further, these mice exhibited significant social and cognitive memory impairments, along with hyperactivation of hippocampal dentate gyrus neurons and reduced inhibitory synaptic transmission in this region. However, oral administration of IPA effectively mitigated the histological and electrophysiological alterations, thereby ameliorating the social and cognitive deficits of the mice. Remarkably, IPA treatment significantly increased the phosphorylation level of ERK1, a protein encoded by the Mapk3 gene in the 16p11.2 region, without affecting the transcription and translation of the Mapk3 gene. Conclusions Our study reveals that 16p11.2 $${}^{+/-}$$ + / - leads to a decline in gut metabolite IPA levels; however, IPA supplementation notably reverses the behavioral and neural phenotypes of 16p11.2 $${}^{+/-}$$ + / - mice. These findings provide new insights into the critical role of gut microbial metabolites in ASD pathogenesis and present a promising treatment strategy for social and cognitive memory deficit disorders, such as 16p11.2 microdeletion syndrome. Video Abstract

Published

2024

5. Cannabidiol is a behavioral modulator in BTBR mouse model of idiopathic autism.

Author

Shrader, Sarah H., Mellen, Nicholas, Jun Cai, Barnes, Gregory N., and Zhao-Hui Song

Subjects

LABORATORY mice, CANNABIDIOL, ATTENTION-deficit hyperactivity disorder, ANIMAL disease models, AUTISM spectrum disorders, ASPERGER'S syndrome

Abstract

Introduction: The prevalence of Autism Spectrum Disorder (ASD) has drastically risen over the last two decades and is currently estimated to affect 1 in 36 children in the U.S., according to the center for disease control (CDC). This heterogenous neurodevelopmental disorder is characterized by impaired social interactions, communication deficits, and repetitive behaviors plus restricted interest. Autistic individuals also commonly present with a myriad of comorbidities, such as attention deficit hyperactivity disorder, anxiety, and seizures. To date, a pharmacological intervention for the treatment of core autistic symptoms has not been identified. Cannabidiol (CBD), the major nonpsychoactive constituent of Cannabis sativa, is suggested to have multiple therapeutic applications, but its effect(s) on idiopathic autism is unknown. We hypothesized that CBD will effectively attenuate the autism-like behaviors and autism-associated comorbid behaviors in BTBR T+Itpr3tf/J (BTBR) mice, an established mouse model of idiopathic ASD. Methods: Male BTBR mice were injected intraperitoneally with either vehicle, 20 mg/kg CBD or 50 mg/kg CBD daily for two weeks beginning at postnatal day 21 ± 3. On the final treatment day, a battery of behavioral assays were used to evaluate the effects of CBD on the BTBR mice, as compared to age-matched, vehicle-treated C57BL/6 J mice. Results: High dose (50 mg/kg) CBD treatment attenuated the elevated repetitive self-grooming behavior and hyperlocomotion in BTBR mice. The social deficits exhibited by the control BTBR mice were rescued by the 20 mg/kg CBD treatment. Discussion: Our data indicate that different doses for CBD are needed for treating specific ASD-like behaviors. Together, our results suggest that CBD may be an effective drug to ameliorate repetitive/restricted behaviors, social deficits, and autism-associated hyperactivity. [ABSTRACT FROM AUTHOR]

Published

2024

6. The gut metabolite indole-3-propionic acid activates ERK1 to restore social function and hippocampal inhibitory synaptic transmission in a 16p11.2 microdeletion mouse model.

Author

Jiang, Jian, Wang, Dilong, Jiang, Youheng, Yang, Xiuyan, Sun, Runfeng, Chang, Jinlong, Zhu, Wenhui, Yao, Peijia, Song, Kun, Chang, Shuwen, Wang, Hong, Zhou, Lei, Zhang, Xue-Song, Li, Huiliang, and Li, Ningning

Subjects

GUT microbiome, SOCIAL skills, NEURAL transmission, LABORATORY mice, BLOOD circulation, ORAL drug administration, MICROBIAL metabolites

Abstract

Background: Microdeletion of the human chromosomal region 16p11.2 (16p11.2 + / - ) is a prevalent genetic factor associated with autism spectrum disorder (ASD) and other neurodevelopmental disorders. However its pathogenic mechanism remains unclear, and effective treatments for 16p11.2 + / - syndrome are lacking. Emerging evidence suggests that the gut microbiota and its metabolites are inextricably linked to host behavior through the gut-brain axis and are therefore implicated in ASD development. Despite this, the functional roles of microbial metabolites in the context of 16p11.2 + / - are yet to be elucidated. This study aims to investigate the therapeutic potential of indole-3-propionic acid (IPA), a gut microbiota metabolite, in addressing behavioral and neural deficits associated with 16p11.2 + / - , as well as the underlying molecular mechanisms. Results: Mice with the 16p11.2 + / - showed dysbiosis of the gut microbiota and a significant decrease in IPA levels in feces and blood circulation. Further, these mice exhibited significant social and cognitive memory impairments, along with hyperactivation of hippocampal dentate gyrus neurons and reduced inhibitory synaptic transmission in this region. However, oral administration of IPA effectively mitigated the histological and electrophysiological alterations, thereby ameliorating the social and cognitive deficits of the mice. Remarkably, IPA treatment significantly increased the phosphorylation level of ERK1, a protein encoded by the Mapk3 gene in the 16p11.2 region, without affecting the transcription and translation of the Mapk3 gene. Conclusions: Our study reveals that 16p11.2 + / - leads to a decline in gut metabolite IPA levels; however, IPA supplementation notably reverses the behavioral and neural phenotypes of 16p11.2 + / - mice. These findings provide new insights into the critical role of gut microbial metabolites in ASD pathogenesis and present a promising treatment strategy for social and cognitive memory deficit disorders, such as 16p11.2 microdeletion syndrome. 92Bbfs5rK2Gd_SbL4an2Cw Video Abstract [ABSTRACT FROM AUTHOR]

Published

2024

7. Intellectual Disability and Behavioral Deficits Linked to CYFIP1 Missense Variants Disrupting Actin Polymerization.

Author

Mariano, Vittoria, Kanellopoulos, Alexandros K., Ricci, Carlotta, Di Marino, Daniele, Borrie, Sarah C., Dupraz, Sebastian, Bradke, Frank, Achsel, Tilmann, Legius, Eric, Odent, Sylvie, Billuart, Pierre, Bienvenu, Thierry, and Bagni, Claudia

Subjects

*INTELLECTUAL disabilities, *MISSENSE mutation, *SINGLE nucleotide polymorphisms, *ACTIN, *AUTISM spectrum disorders

Abstract

15q11.2 deletions and duplications have been linked to autism spectrum disorder, schizophrenia, and intellectual disability. Recent evidence suggests that dysfunctional CYFIP1 (cytoplasmic FMR1 interacting protein 1) contributes to the clinical phenotypes observed in individuals with 15q11.2 deletion/duplication syndrome. CYFIP1 plays crucial roles in neuronal development and brain connectivity, promoting actin polymerization and regulating local protein synthesis. However, information about the impact of single nucleotide variants in CYFIP1 on neurodevelopmental disorders is limited. Here, we report a family with 2 probands exhibiting intellectual disability, autism spectrum disorder, spastic tetraparesis, and brain morphology defects and who carry biallelic missense point mutations in the CYFIP1 gene. We used skin fibroblasts from one of the probands, the parents, and typically developing individuals to investigate the effect of the variants on the functionality of CYFIP1. In addition, we generated Drosophila knockin mutants to address the effect of the variants in vivo and gain insight into the molecular mechanism that underlies the clinical phenotype. Our study revealed that the 2 missense variants are in protein domains responsible for maintaining the interaction within the wave regulatory complex. Molecular and cellular analyses in skin fibroblasts from one proband showed deficits in actin polymerization. The fly model for these mutations exhibited abnormal brain morphology and F-actin loss and recapitulated the core behavioral symptoms, such as deficits in social interaction and motor coordination. Our findings suggest that the 2 CYFIP1 variants contribute to the clinical phenotype in the probands that reflects deficits in actin-mediated brain development processes. [ABSTRACT FROM AUTHOR]

Published

2024

8. Cannabidiol is a behavioral modulator in BTBR mouse model of idiopathic autism

Author

Sarah H. Shrader, Nicholas Mellen, Jun Cai, Gregory N. Barnes, and Zhao-Hui Song

Subjects

cannabidiol, autism spectrum disorders, repetitive behaviors, social deficits, behavioral assays, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionThe prevalence of Autism Spectrum Disorder (ASD) has drastically risen over the last two decades and is currently estimated to affect 1 in 36 children in the U.S., according to the center for disease control (CDC). This heterogenous neurodevelopmental disorder is characterized by impaired social interactions, communication deficits, and repetitive behaviors plus restricted interest. Autistic individuals also commonly present with a myriad of comorbidities, such as attention deficit hyperactivity disorder, anxiety, and seizures. To date, a pharmacological intervention for the treatment of core autistic symptoms has not been identified. Cannabidiol (CBD), the major nonpsychoactive constituent of Cannabis sativa, is suggested to have multiple therapeutic applications, but its effect(s) on idiopathic autism is unknown. We hypothesized that CBD will effectively attenuate the autism-like behaviors and autism-associated comorbid behaviors in BTBR T+Itpr3tf/J (BTBR) mice, an established mouse model of idiopathic ASD.MethodsMale BTBR mice were injected intraperitoneally with either vehicle, 20 mg/kg CBD or 50 mg/kg CBD daily for two weeks beginning at postnatal day 21 ± 3. On the final treatment day, a battery of behavioral assays were used to evaluate the effects of CBD on the BTBR mice, as compared to age-matched, vehicle-treated C57BL/6 J mice.ResultsHigh dose (50 mg/kg) CBD treatment attenuated the elevated repetitive self-grooming behavior and hyperlocomotion in BTBR mice. The social deficits exhibited by the control BTBR mice were rescued by the 20 mg/kg CBD treatment.DiscussionOur data indicate that different doses for CBD are needed for treating specific ASD-like behaviors. Together, our results suggest that CBD may be an effective drug to ameliorate repetitive/restricted behaviors, social deficits, and autism-associated hyperactivity.

Published

2024

9. Spatial Disparities: An Approach to Reveal 'Hidden Areas' to Territorial Development in the Marrakech-Safi Region—Morocco

Author

Salhi, Salima, Boujrouf, Said, Gourfi, Abdelali, Koutsopoulos, Kostis C., Series Editor, Miguel González, Rafael De, Series Editor, Schmeinck, Daniela, Series Editor, De Lázaro Torres, María Luisa, editor, and De Miguel González, Rafael, editor

Published

2023

10. Social withdrawal and anxiety-like behavior have an impact on zebrafish adult neurogenesis.

Author

Perdikaris, Panagiotis, Prouska, Paulina, and Dermon, Catherine R.

Subjects

DEVELOPMENTAL neurobiology, ANXIETY, BRACHYDANIO, NEUROGENESIS, MOOD (Psychology), CELL populations

Abstract

Introduction: Accumulating evidence highlights the key role of adult neurogenesis events in environmental challenges, cognitive functions and mood regulation. Abnormal hippocampal neurogenesis has been implicated in anxiety-like behaviors and social impairments, but the possible mechanisms remain elusive. Methods: The present study questioned the contribution of altered excitation/inhibition as well as excessive neuroinflammation in regulating the neurogenic processes within the Social Decision-Making (SDM) network, using an adult zebrafish model displaying NMDA receptor hypofunction after sub-chronic MK-801 administration. For this, the alterations in cell proliferation and newborn cell densities were evaluated using quantitative 5-Bromo-2'-Deoxyuridine (BrdU) methodology. Results: In short-term survival experiments. MK-801-treated zebrafish displayed decreased cell proliferation pattern within distinct neurogenic zones of telencephalic and preoptic SDM nodes, in parallel to the social withdrawal and anxiety-like comorbidity. BrdU+ cells co-expressed the pro-inflammatory marker IL-1ß solely in MK-801-treated zebrafish, indicating a role of inflammation. Following the cessation of drug treatment, significant increases in the BrdU+ cell densities were accompanied by the normalization of the social and anxiety-like phenotype. Importantly, most labeled cells in neurogenic zones showed a radial glial phenotype while a population of newborn cells expressed the early neuronal marker TOAD or mGLuR5, the latter suggesting the possible involvement of metabotropic glutamate receptor 5 in neurogenic events. Discussion: Overall, our results indicate the role of radial glial cell proliferation in the overlapping pathologies of anxiety and social disorders, observed in many neuropsychiatric disorders and possibly represent potential novel targets for amelioration of these symptoms. [ABSTRACT FROM AUTHOR]

Published

2023

11. Social withdrawal and anxiety-like behavior have an impact on zebrafish adult neurogenesis

Author

Panagiotis Perdikaris, Paulina Prouska, and Catherine R. Dermon

Subjects

social deficits, NMDAR hypofunction, MK-801, cell proliferation, neurogenesis, mGLuR5, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionAccumulating evidence highlights the key role of adult neurogenesis events in environmental challenges, cognitive functions and mood regulation. Abnormal hippocampal neurogenesis has been implicated in anxiety-like behaviors and social impairments, but the possible mechanisms remain elusive.MethodsThe present study questioned the contribution of altered excitation/inhibition as well as excessive neuroinflammation in regulating the neurogenic processes within the Social Decision-Making (SDM) network, using an adult zebrafish model displaying NMDA receptor hypofunction after sub-chronic MK-801 administration. For this, the alterations in cell proliferation and newborn cell densities were evaluated using quantitative 5-Bromo-2′-Deoxyuridine (BrdU) methodology.ResultsIn short-term survival experiments. MK-801-treated zebrafish displayed decreased cell proliferation pattern within distinct neurogenic zones of telencephalic and preoptic SDM nodes, in parallel to the social withdrawal and anxiety-like comorbidity. BrdU+ cells co-expressed the pro-inflammatory marker IL-1β solely in MK-801-treated zebrafish, indicating a role of inflammation. Following the cessation of drug treatment, significant increases in the BrdU+ cell densities were accompanied by the normalization of the social and anxiety-like phenotype. Importantly, most labeled cells in neurogenic zones showed a radial glial phenotype while a population of newborn cells expressed the early neuronal marker TOAD or mGLuR5, the latter suggesting the possible involvement of metabotropic glutamate receptor 5 in neurogenic events.DiscussionOverall, our results indicate the role of radial glial cell proliferation in the overlapping pathologies of anxiety and social disorders, observed in many neuropsychiatric disorders and possibly represent potential novel targets for amelioration of these symptoms.

Published

2023

12. Altered GABAergic, glutamatergic and endocannabinoid signaling is accompanied by neuroinflammatory response in a zebrafish model of social withdrawal behavior.

Author

Perdikaris, Panagiotis and Dermon, Catherine R.

Subjects

SOCIAL anxiety, WITHDRAWAL (Psychology), BRACHYDANIO, NEURAL circuitry, AUTISM spectrum disorders, CANNABINOID receptors, NEURAL transmission, COMMUNICATIVE disorders

Abstract

Introduction: Deficits in social communication are in the core of clinical symptoms characterizing many neuropsychiatric disorders such as schizophrenia and autism spectrum disorder. The occurrence of anxiety-related behavior, a common co-morbid condition in individuals with impairments in social domain, suggests the presence of overlapping neurobiological mechanisms between these two pathologies. Dysregulated excitation/inhibition balance and excessive neuroinflammation, in specific neural circuits, are proposed as common etiological mechanisms implicated in both pathologies. Methods and Results: In the present study we evaluated changes in glutamatergic/GABAergic neurotransmission as well as the presence of neuroinflammation within the regions of the Social Decision-Making Network (SDMN) using a zebrafish model of NMDA receptor hypofunction, following sub-chronic MK-801 administration. MK-801-treated zebrafish are characterized by impaired social communication together with increased anxiety levels. At the molecular level, the behavioral phenotype was accompanied by increased mGluR5 and GAD67 but decreased PSD-95 protein expression levels in telencephalon and midbrain. In parallel, MK-801-treated zebrafish exhibited altered endocannabinoid signaling as indicated by the upregulation of cannabinoid receptor 1 (CB1R) in the telencephalon. Interestingly, glutamatergic dysfunction was positively correlated with social withdrawal behavior whereas defective GABAergic and endocannabinoid activity were positively associated with anxiety-like behavior. Moreover, neuronal and astrocytic IL-1ß expression was increased in regions of the SDMN, supporting the role of neuroinflammatory responses in the manifestation of MK-801 behavioral phenotype. Colocalization of interleukin-1ß (IL-1ß) with ß2-adrenergic receptors (ß2-ARs) underlies the possible influence of noradrenergic neurotransmission to increased IL-1ß expression in comorbidity between social deficits and elevated anxiety comorbidity. Discussion: Overall, our results indicate the contribution of altered excitatory and inhibitory synaptic transmission as well as excessive neuroinflammatory responses in the manifestation of social deficits and anxiety-like behavior of MK-801-treated fish, identifying possible novel targets for amelioration of these symptoms. [ABSTRACT FROM AUTHOR]

Published

2023

13. Understanding the Relationship between Distress Behaviour and Health Status of People with Autism Spectrum Disorder.

Author

Koceski, Antonio, Smith, Callum J., Syed, Yasir Ahmed, and Trajkovski, Vladimir

Subjects

RESEARCH, CONFIDENCE intervals, HEALTH status indicators, BEHAVIOR disorders, T-test (Statistics), PEARSON correlation (Statistics), AUTISM, QUESTIONNAIRES, DESCRIPTIVE statistics, RESEARCH funding, DATA analysis software, STATISTICAL correlation, PSYCHOLOGICAL distress

Abstract

Autism Spectrum Disorder (ASD) is associated with complex distress and challenging behaviours that have a negative impact on the everyday life of those with ASD, as well as their parents and carers. These challenging behaviours include negative emotional behaviours, motor behaviours, and changes in routines. Even though challenging behaviours occur in most subjects with ASD, the cause of these largely remains unknown. It has been implicated that these challenging behaviours are associated with a change in the health of those with ASD. More research needs to be conducted that can establish a direct association. Towards this goal, the present study aimed to explore whether health status had an impact on the distressing behaviour in the subjects diagnosed with ASD. We analysed the response from the parents/carers in a Macedonian population of those with ASD, to determine which challenging behaviours were most likely to be observed during a change in health. Based on a scoring system, the manifestation of challenging behaviour was evaluated and compared with the changes in health. Changes in appetite or dietary preferences, irritability and low mood, and loss of previously acquired skills had the greatest association with a change in health. These findings provide early insight into types of challenging behaviours that are directly associated with a change in health. Our results demonstrate a relationship between health status and challenging behaviour in the subject with autism, suggesting that caregivers may need to consider this when choosing strategies for managing challenging behaviour. [ABSTRACT FROM AUTHOR]

Published

2023

14. A Psychometrically Robust Screening Tool To Rapidly Identify Socially Impaired Monkeys In The General Population

Author

Talbot, Catherine F, Garner, Joseph P, Maness, Alyssa C, McCowan, Brenda, Capitanio, John P, and Parker, Karen J

Subjects

Psychology, Applied and Developmental Psychology, Pediatric, Intellectual and Developmental Disabilities (IDD), Mental Health, Behavioral and Social Science, Brain Disorders, Autism, Animals, Autism Spectrum Disorder, Female, Macaca mulatta, Male, Mass Screening, Psychometrics, Reproducibility of Results, Social Behavior, autism spectrum disorder, Social Responsiveness Scale, social behavior, rhesus macaque, social deficits, psychometrics, animal model, Clinical Sciences, Neurosciences, Developmental & Child Psychology, Applied and developmental psychology, Clinical and health psychology

Abstract

Naturally low-social rhesus macaques exhibit social impairments with direct relevance to autism spectrum disorder (ASD). To more efficiently identify low-social individuals in a large colony, we exploited, refined, and psychometrically assessed the macaque Social Responsiveness Scale (mSRS), an instrument previously derived from the human ASD screening tool. We performed quantitative social behavior assessments and mSRS ratings on a total of N = 349 rhesus macaques (Macaca mulatta) housed in large, outdoor corrals. In one cohort (N = 116), we conducted inter-rater and test-retest reliabilities, and in a second cohort (N = 233), we evaluated the convergent construct and predictive validity of the mSRS-Revised (mSRS-R). Only 17 of the original 36 items demonstrated inter-rater and test-retest reliability, resulting in the 17-item mSRS-R. The mSRS-R showed strong validity: mSRS-R scores robustly predicted monkeys' social behavior frequencies in home corrals. Monkeys that scored 1.5 standard deviations from the mean on nonsocial behavior likewise exhibited significantly more autistic-like traits, and mSRS-R scores predicted individuals' social classification (low-social vs. high-social) with 96% accuracy (likelihood ratio chi-square = 25.07; P

Published

2020

15. Involvement of oxytocin receptor deficiency in psychiatric disorders and behavioral abnormalities.

Author

Jinbao Wei, Huanrui Zheng, Guokai Li, Zichun Chen, Gengjing Fang, and Jianying Yan

Subjects

OXYTOCIN receptors, MENTAL illness, PEOPLE with mental illness, GENE expression, GENETIC polymorphisms, P16 gene

Abstract

Oxytocin and its target receptor (oxytocin receptor, OXTR) exert important roles in the regulation of complex social behaviors and cognition. The oxytocin/OXTR system in the brain could activate and transduce several intracellular signaling pathways to affect neuronal functions or responses and then mediate physiological activities. The persistence and outcome of the oxytocin activity in the brain are closely linked to the regulation, state, and expression ofOXTR. Increasing evidence has shown that genetic variations, epigeneticmodification states, and the expression of OXTR have been implicated in psychiatric disorders characterized by social deficits, especially in autism. Among these variations and modifications, OXTR gene methylation and polymorphism have been found in many patients with psychiatric disorders and have been considered to be associated with those psychiatric disorders, behavioral abnormalities, and individual differences in response to social stimuli or others. Given the significance of these newfindings, in this review, we focus on the progress of OXTR's functions, intrinsic mechanisms, and its correlations with psychiatric disorders or deficits in behaviors. We hope that this review can provide a deep insight into the study of OXTR-involved psychiatric disorders. [ABSTRACT FROM AUTHOR]

Published

2023

16. High-Fat Diet Exacerbates Autistic-Like Restricted Repetitive Behaviors and Social Abnormalities in CC2D1A Conditional Knockout Mice.

Author

Wang, Yu-Chiao, Chen, Chin-Hao, Yang, Cheng-Yi, Ling, Pin, and Hsu, Kuei-Sen

Abstract

Autism spectrum disorder (ASD) represents a heterogeneous group of neurodevelopmental disorders characterized by deficits in social communication, social interaction, and the presence of restricted repetitive behaviors. The cause of ASD involves complex interactions between genetic and environmental factors. Haploinsufficiency of the Coiled-coil and C2 domain containing 1A (Cc2d1a) gene is causally linked to ASD, and obesity has been associated with worse outcomes for ASD. High-fat diet (HFD) feeding leads to the development of obesity and metabolic dysfunction; however, the effect of HFD on pre-existing autistic-like phenotypes remains to be clarified. Here, we report that male Cc2d1a conditional knockout (cKO) mice fed with HFD, from weaning onwards and throughout the experimental period, show a marked aggravation in autistic-like phenotypes, manifested in increased restricted repetitive behaviors and impaired performance in the preference for social novelty, but not in sociability and cognitive impairments assessed using the object location memory, novel object recognition, and Morris water maze tests. HFD feeding also results in increased numbers of reactive microglia and astrocytes, and exacerbates reductions in dendritic complexity and spine density of hippocampal CA1 pyramidal neurons. Furthermore, we demonstrate that chronic treatment with minocycline, a semisynthetic tetracycline-derived antibiotic, rescues the observed behavioral and morphological deficits in Cc2d1a cKO mice fed with HFD. Collectively, these findings highlight an aggravating role of HFD in pre-existing autistic-like phenotypes and suggest that minocycline treatment can alleviate abnormal neuronal morphology and behavioral symptoms associated with ASD resulted from the interplay between genetic and environmental risk factors. [ABSTRACT FROM AUTHOR]

Published

2023

17. Altered GABAergic, glutamatergic and endocannabinoid signaling is accompanied by neuroinflammatory response in a zebrafish model of social withdrawal behavior

Author

Panagiotis Perdikaris and Catherine R. Dermon

Subjects

NMDAR hypofunction, social deficits, anxiety, endocannabinoid system, neuroinflammation, GABAergic, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

IntroductionDeficits in social communication are in the core of clinical symptoms characterizing many neuropsychiatric disorders such as schizophrenia and autism spectrum disorder. The occurrence of anxiety-related behavior, a common co-morbid condition in individuals with impairments in social domain, suggests the presence of overlapping neurobiological mechanisms between these two pathologies. Dysregulated excitation/inhibition balance and excessive neuroinflammation, in specific neural circuits, are proposed as common etiological mechanisms implicated in both pathologies.Methods and ResultsIn the present study we evaluated changes in glutamatergic/GABAergic neurotransmission as well as the presence of neuroinflammation within the regions of the Social Decision-Making Network (SDMN) using a zebrafish model of NMDA receptor hypofunction, following sub-chronic MK-801 administration. MK-801-treated zebrafish are characterized by impaired social communication together with increased anxiety levels. At the molecular level, the behavioral phenotype was accompanied by increased mGluR5 and GAD67 but decreased PSD-95 protein expression levels in telencephalon and midbrain. In parallel, MK-801-treated zebrafish exhibited altered endocannabinoid signaling as indicated by the upregulation of cannabinoid receptor 1 (CB1R) in the telencephalon. Interestingly, glutamatergic dysfunction was positively correlated with social withdrawal behavior whereas defective GABAergic and endocannabinoid activity were positively associated with anxiety-like behavior. Moreover, neuronal and astrocytic IL-1β expression was increased in regions of the SDMN, supporting the role of neuroinflammatory responses in the manifestation of MK-801 behavioral phenotype. Colocalization of interleukin-1β (IL-1β) with β2-adrenergic receptors (β2-ARs) underlies the possible influence of noradrenergic neurotransmission to increased IL-1β expression in comorbidity between social deficits and elevated anxiety comorbidity.DiscussionOverall, our results indicate the contribution of altered excitatory and inhibitory synaptic transmission as well as excessive neuroinflammatory responses in the manifestation of social deficits and anxiety-like behavior of MK-801-treated fish, identifying possible novel targets for amelioration of these symptoms.

Published

2023

18. Activation of basolateral amygdala to anterior cingulate cortex circuit alleviates MK-801 induced social and cognitive deficits of schizophrenia.

Author

Xin Huang, Yaohao Li, Haiying Liu, Jinwei Xu, Zehua Tan, Haoyang Dong, Biqing Tian, Shengxi Wu, and Wenting Wang

Subjects

CINGULATE cortex, AMYGDALOID body, COGNITION disorders, SCHIZOPHRENIA, METHYL aspartate receptors, MENTAL illness

Abstract

Introduction: Schizophrenia is a severe psychiatric disorder with a high prevalence worldwide, however, its pathogenesis remains poorly understood. Methods and results: In this study, we used the non-competitive NMDA receptor antagonist MK-801 to induce schizophrenia-like behaviors and confirmed that mice exhibited stereotypic rotational behavior and hyperlocomotion, social interaction defects and cognitive dysfunction, similar to the clinical symptoms in patients. Here, the anterior cingulate cortex (ACC) and basolateral amygdala (BLA) were involved in the schizophrenialike behaviors induced by MK-801. Furthermore, we confirmed BLA sent glutamatergic projection to the ACC. Chemogenetic and optogenetic regulation of BLA-ACC projecting neurons affected social and cognitive deficits but not stereotypic rotational behavior in MK-801-treated mice. Discussion: Overall, our study revealed that the BLA-ACC circuit plays a major role and may be a potential target for treating schizophrenia-related symptoms. [ABSTRACT FROM AUTHOR]

Published

2022

19. Treatments for Social Interaction Impairment in Animal Models of Schizophrenia: A Critical Review and Meta-analysis.

Author

Hazani, Reut, Lavidor, Michal, and Weller, Aron

Subjects

BIOLOGICAL models, ONLINE information services, META-analysis, CONFIDENCE intervals, SCHIZOPHRENIA, ANIMAL experimentation, EFFECT sizes (Statistics), BEHAVIOR disorders, TREATMENT effectiveness, DESCRIPTIVE statistics, MEDLINE, SOCIAL disabilities, MICE, EVALUATION

Abstract

Background While pharmacological treatments for positive symptoms of schizophrenia are widely used, their beneficial effect on negative symptoms, particularly social impairment, is insufficiently studied. Therefore, there is an increasing interest in preclinical research of potentially beneficial treatments, with mixed results. The current review aims to evaluate the efficacy of available treatments for social deficits in different animal models of schizophrenia. Study Design A systematic literature search generated 145 outcomes for the measures "total time" and "number" of social interactions. Standardized mean differences (SMD) and 95% confidence interval (CI) were calculated, and heterogeneity was tested using Q statistics in a random-effect meta-analytic model. Given the vast heterogeneity in effect sizes, the animal model, treatment group, and sample size were all examined as potential moderators. Study Results The results showed that in almost all models, treatment significantly improved social deficit (total time: SMD = 1.24; number: SMD = 1.1). The moderator analyses discovered significant subgroup differences across models and treatment subgroups. Perinatal and adult pharmacological models showed the most substantial influence of treatments on social deficits, reflecting relative pharmacological validity. Furthermore, atypical antipsychotic drugs had the highest SMD within each model subgroup. Conclusions Our findings indicate that the improvement in social interaction behaviors is dependent on the animal model and treatment family used. Implications for the preclinical and clinical fields are discussed. [ABSTRACT FROM AUTHOR]

Published

2022

20. Experimental Studies Indicate That ST-2223, the Antagonist of Histamine H3 and Dopamine D2/D3 Receptors, Restores Social Deficits and Neurotransmission Dysregulation in Mouse Model of Autism.

Author

Eissa, Nermin, Venkatachalam, Karthikkumar, Jayaprakash, Petrilla, Yuvaraju, Priya, Falkenstein, Markus, Stark, Holger, and Sadek, Bassem

Subjects

*DOPAMINE antagonists, *DOPAMINE receptors, *ANTIHISTAMINES, *NEUROTRANSMITTER receptors, *LABORATORY mice, *AUTISM spectrum disorders, *AUTISM, *NEURAL transmission

Abstract

Altered regulation of neurotransmitters may lead to many pathophysiological changes in brain disorders including autism spectrum disorder (ASD). Given the fact that there are no FDA-approved effective treatments for the social deficits in ASD, the present study determined the effects of chronic systemic treatment of the novel multiple-active H3R/D2R/D3R receptor antagonist ST-2223 on ASD-related social deficits in a male Black and Tan Brachyury (BTBR) mice. ST-2223 (2.5, 5, and 10 mg/kg, i.p.) significantly and dose-dependently mitigated social deficits and disturbed anxiety levels of BTBR mice (p < 0.05) in comparison to the effects of aripiprazole (1 mg/kg, i.p.). Moreover, levels of monoaminergic neurotransmitters quantified by LC-MS/MS in four brain regions including the prefrontal cortex, cerebellum, striatum, and hippocampus unveiled significant elevation of histamine (HA) in the cerebellum and striatum; dopamine (DA) in the prefrontal cortex and striatum; as well as acetylcholine (ACh) in the prefrontal cortex, striatum, and hippocampus following ST-2223 (5 mg/kg) administration (all p < 0.05). These in vivo findings demonstrate the mitigating effects of a multiple-active H3R/D2R/D3R antagonist on social deficits of assessed BTBR mice, signifying its pharmacological potential to rescue core ASD-related behaviors and altered monoaminergic neurotransmitters. Further studies on neurochemical alterations in ASD are crucial to elucidate the early neurodevelopmental variations behind the core symptoms and heterogeneity of ASD, leading to new approaches for the future therapeutic management of ASD. [ABSTRACT FROM AUTHOR]

Published

2022

21. Understanding the Relationship between Distress Behaviour and Health Status of People with Autism Spectrum Disorder

Author

Antonio Koceski, Callum J. Smith, Yasir Ahmed Syed, and Vladimir Trajkovski

Subjects

Autism Spectrum Disorder, challenging behaviour, social deficits, diet, health status, Medicine

Abstract

Autism Spectrum Disorder (ASD) is associated with complex distress and challenging behaviours that have a negative impact on the everyday life of those with ASD, as well as their parents and carers. These challenging behaviours include negative emotional behaviours, motor behaviours, and changes in routines. Even though challenging behaviours occur in most subjects with ASD, the cause of these largely remains unknown. It has been implicated that these challenging behaviours are associated with a change in the health of those with ASD. More research needs to be conducted that can establish a direct association. Towards this goal, the present study aimed to explore whether health status had an impact on the distressing behaviour in the subjects diagnosed with ASD. We analysed the response from the parents/carers in a Macedonian population of those with ASD, to determine which challenging behaviours were most likely to be observed during a change in health. Based on a scoring system, the manifestation of challenging behaviour was evaluated and compared with the changes in health. Changes in appetite or dietary preferences, irritability and low mood, and loss of previously acquired skills had the greatest association with a change in health. These findings provide early insight into types of challenging behaviours that are directly associated with a change in health. Our results demonstrate a relationship between health status and challenging behaviour in the subject with autism, suggesting that caregivers may need to consider this when choosing strategies for managing challenging behaviour.

Published

2023

22. Prenatal Progestin Exposure-Mediated Oxytocin Suppression Contributes to Social Deficits in Mouse Offspring.

Author

Huang, Saijun, Zeng, Jiaying, Sun, Ruoyu, Yu, Hong, Zhang, Haimou, Su, Xi, and Yao, Paul

Subjects

AUTISM spectrum disorders, OXYTOCIN, ESTROGEN receptors, MICE, SOCIAL skills, ACUTE stress disorder

Abstract

Epidemiological studies have shown that maternal hormone exposure is associated with autism spectrum disorders (ASD). The hormone oxytocin (OXT) is a central nervous neuropeptide that plays an important role in social behaviors as well as ASD etiology, although the detailed mechanism remains largely unknown. In this study, we aim to investigate the potential role and contribution of OXT to prenatal progestin exposure-mediated mouse offspring. Our in vitro study in the hypothalamic neurons that isolated from paraventricular nuclei area of mice showed that transient progestin exposure causes persistent epigenetic changes on the OXT promoter, resulting in dissociation of estrogen receptor β (ERβ) and retinoic acid-related orphan receptor α (RORA) from the OXT promoter with subsequent persistent OXT suppression. Our in vivo study showed that prenatal exposure of medroxyprogesterone acetate (MPA) triggers social deficits in mouse offspring; prenatal OXT deficiency in OXT knockdown mouse partly mimics, while postnatal ERβ expression or postnatal OXT peptide injection partly ameliorates, prenatal MPA exposure-mediated social deficits, which include impaired social interaction and social abilities. On the other hand, OXT had no effect on prenatal MPA exposure-mediated anxiety-like behaviors. We conclude that prenatal MPA exposure-mediated oxytocin suppression contributes to social deficits in mouse offspring. [ABSTRACT FROM AUTHOR]

Published

2022

23. Conditional Pten knockout in parvalbumin- or somatostatin-positive neurons sufficiently leads to autism-related behavioral phenotypes

Author

Sangyep Shin, Andrea Santi, and Shiyong Huang

Subjects

Autism, Social deficits, Repetitive behaviors, Mouse model, Pten, Motor deficits, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Disrupted GABAergic neurons have been extensively described in brain tissues from individuals with autism spectrum disorder (ASD) and animal models for ASD. However, the contribution of these aberrant inhibitory neurons to autism-related behavioral phenotypes is not well understood. We examined ASD-related behaviors in mice with conditional Pten knockout in parvalbumin (PV)-expressing or somatostatin (Sst)-expressing neurons, two common subtypes of GABAergic neurons. We found that mice with deletion of Pten in either PV-neurons or Sst-neurons displayed social deficits, repetitive behaviors and impaired motor coordination/learning. In addition, mice with one copy of Pten deletion in PV-neurons exhibited hyperlocomotion in novel open fields and home cages. We also examined anxiety behaviors and found that mice with Pten deletion in Sst-neurons displayed anxiety-like behaviors, while mice with Pten deletion in PV-neurons exhibited anxiolytic-like behaviors. These behavioral assessments demonstrate that Pten knockout in the subtype of inhibitory neurons sufficiently gives rise to ASD-core behaviors, providing evidence that both PV- and Sst-neurons may play a critical role in ASD symptoms.

Published

2021

24. The mirror neuron system compensates for amygdala dysfunction - associated social deficits in individuals with higher autistic traits

Author

Lei Xu, Xiaoxiao Zheng, Shuxia Yao, Jialin Li, Meina Fu, Keshuang Li, Weihua Zhao, Hong Li, Benjamin Becker, and Keith M. Kendrick

Subjects

Autistic traits, Mirror neuron system, Amygdala, Social deficits, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

The amygdala is a core node in the social brain which exhibits structural and functional abnormalities in Autism spectrum disorder and there is evidence that the mirror neuron system (MNS) can functionally compensate for impaired emotion processing following amygdala lesions. In the current study, we employed an fMRI paradigm in 241 subjects investigating MNS and amygdala responses to observation, imagination and imitation of dynamic facial expressions and whether these differed in individuals with higher (n = 77) as opposed to lower (n = 79) autistic traits. Results indicated that individuals with higher compared to lower autistic traits showed worse recognition memory for fearful faces, smaller real-life social networks, and decreased left basolateral amygdala (BLA) responses to imitation. Additionally, functional connectivity between the left BLA and the left inferior frontal gyrus (IFG) as well as some other MNS regions was increased in individuals with higher autistic traits, especially during imitation of fearful expressions. The left BLA-IFG connectivity significantly moderated the autistic group differences on recognition memory for fearful faces, indicating that increased amygdala-MNS connectivity could diminish the social behavioral differences between higher and lower autistic trait groups. Overall, findings demonstrate decreased imitation-related amygdala activity in individuals with higher autistic traits in the context of increased amygdala-MNS connectivity which may functionally compensate for amygdala dysfunction and social deficits. Training targeting the MNS may capitalize on this compensatory mechanism for therapeutic benefits in Autism spectrum disorder.

Published

2022

25. Prenatal Progestin Exposure-Mediated Oxytocin Suppression Contributes to Social Deficits in Mouse Offspring

Author

Saijun Huang, Jiaying Zeng, Ruoyu Sun, Hong Yu, Haimou Zhang, Xi Su, and Paul Yao

Subjects

autism spectrum disorders, oxytocin, oxidative stress, progestin, social deficits, Diseases of the endocrine glands. Clinical endocrinology, RC648-665

Abstract

Epidemiological studies have shown that maternal hormone exposure is associated with autism spectrum disorders (ASD). The hormone oxytocin (OXT) is a central nervous neuropeptide that plays an important role in social behaviors as well as ASD etiology, although the detailed mechanism remains largely unknown. In this study, we aim to investigate the potential role and contribution of OXT to prenatal progestin exposure-mediated mouse offspring. Our in vitro study in the hypothalamic neurons that isolated from paraventricular nuclei area of mice showed that transient progestin exposure causes persistent epigenetic changes on the OXT promoter, resulting in dissociation of estrogen receptor β (ERβ) and retinoic acid-related orphan receptor α (RORA) from the OXT promoter with subsequent persistent OXT suppression. Our in vivo study showed that prenatal exposure of medroxyprogesterone acetate (MPA) triggers social deficits in mouse offspring; prenatal OXT deficiency in OXT knockdown mouse partly mimics, while postnatal ERβ expression or postnatal OXT peptide injection partly ameliorates, prenatal MPA exposure-mediated social deficits, which include impaired social interaction and social abilities. On the other hand, OXT had no effect on prenatal MPA exposure-mediated anxiety-like behaviors. We conclude that prenatal MPA exposure-mediated oxytocin suppression contributes to social deficits in mouse offspring.

Published

2022

26. Examining Effectiveness and Predictors of Treatment Response of Pivotal Response Treatment in Autism: An Umbrella Review and a Meta-Analysis.

Author

Uljarević, Mirko, Billingham, Wesley, Cooper, Matthew N., Condron, Patrick, and Hardan, Antonio Y.

Subjects

TREATMENT effectiveness, AUTISM spectrum disorders, AUTISM, VERBAL behavior, COMMUNICATIVE competence

Abstract

The current study aimed to provide a comprehensive appraisal of the current evidence on the effectiveness of Pivotal Response Training (PRT) for individuals with autism spectrum disorder (ASD) and to explore predictors of treatment response. We conducted a systematic review of the following electronic databases and registers: PsycINFO, Medline, Embase, Cochrane Central Register of Controlled Trials, ERIC, Linguistics and Language Behavior Abstracts. Six systematic reviews were identified, two with meta-analytic component. Identified reviews varied widely in terms of their aims, outcomes, and designs which precluded a unified and consistent set of conclusions and recommendations. Ten RCTs were identified. Eight of identified RCTs reported at least one language and communication-related outcome. Statistically significant effects of PRT were identified across a majority of identified RCTs for a range of language and communication skills. However, evidence for positive treatment effects of PRT on outcome measures assessing other domains was less robust and/or specific. Overall, both previous systematic reviews and new meta-analysis of the RCTs suggest that PRT shows promise for improving language and communication. Only four RCTs examined the association between baseline child characteristics and treatment outcomes, however, no consistent pattern emerged. This review has identified several key methodological and design improvements that are needed to enable our field to fully capitalize on the potential of RCT designs and characterize detailed profiles of treatment responders. These findings are essential for informing the development of evidence-based guidelines for clinicians on what works for whom and why. [ABSTRACT FROM AUTHOR]

Published

2022

27. Examining Effectiveness and Predictors of Treatment Response of Pivotal Response Treatment in Autism: An Umbrella Review and a Meta-Analysis

Author

Mirko Uljarević, Wesley Billingham, Matthew N. Cooper, Patrick Condron, and Antonio Y. Hardan

Subjects

social deficits, language, children, umbrella review, randomized controlled trial, pivotal response treatment, Psychiatry, RC435-571

Abstract

The current study aimed to provide a comprehensive appraisal of the current evidence on the effectiveness of Pivotal Response Training (PRT) for individuals with autism spectrum disorder (ASD) and to explore predictors of treatment response. We conducted a systematic review of the following electronic databases and registers: PsycINFO, Medline, Embase, Cochrane Central Register of Controlled Trials, ERIC, Linguistics and Language Behavior Abstracts. Six systematic reviews were identified, two with meta-analytic component. Identified reviews varied widely in terms of their aims, outcomes, and designs which precluded a unified and consistent set of conclusions and recommendations. Ten RCTs were identified. Eight of identified RCTs reported at least one language and communication-related outcome. Statistically significant effects of PRT were identified across a majority of identified RCTs for a range of language and communication skills. However, evidence for positive treatment effects of PRT on outcome measures assessing other domains was less robust and/or specific. Overall, both previous systematic reviews and new meta-analysis of the RCTs suggest that PRT shows promise for improving language and communication. Only four RCTs examined the association between baseline child characteristics and treatment outcomes, however, no consistent pattern emerged. This review has identified several key methodological and design improvements that are needed to enable our field to fully capitalize on the potential of RCT designs and characterize detailed profiles of treatment responders. These findings are essential for informing the development of evidence-based guidelines for clinicians on what works for whom and why.

Published

2022

28. Review: Posed vs. Genuine Facial Emotion Recognition and Expression in Autism and Implications for Intervention

Author

Paula J. Webster, Shuo Wang, and Xin Li

Subjects

facial expression of emotion, emotion recognition, posed vs. genuine emotion, autism spectrum disorder, social deficits, Psychology, BF1-990

Abstract

Different styles of social interaction are one of the core characteristics of autism spectrum disorder (ASD). Social differences among individuals with ASD often include difficulty in discerning the emotions of neurotypical people based on their facial expressions. This review first covers the rich body of literature studying differences in facial emotion recognition (FER) in those with ASD, including behavioral studies and neurological findings. In particular, we highlight subtle emotion recognition and various factors related to inconsistent findings in behavioral studies of FER in ASD. Then, we discuss the dual problem of FER – namely facial emotion expression (FEE) or the production of facial expressions of emotion. Despite being less studied, social interaction involves both the ability to recognize emotions and to produce appropriate facial expressions. How others perceive facial expressions of emotion in those with ASD has remained an under-researched area. Finally, we propose a method for teaching FER [FER teaching hierarchy (FERTH)] based on recent research investigating FER in ASD, considering the use of posed vs. genuine emotions and static vs. dynamic stimuli. We also propose two possible teaching approaches: (1) a standard method of teaching progressively from simple drawings and cartoon characters to more complex audio-visual video clips of genuine human expressions of emotion with context clues or (2) teaching in a field of images that includes posed and genuine emotions to improve generalizability before progressing to more complex audio-visual stimuli. Lastly, we advocate for autism interventionists to use FER stimuli developed primarily for research purposes to facilitate the incorporation of well-controlled stimuli to teach FER and bridge the gap between intervention and research in this area.

Published

2021

29. Intranasal Oxytocin for Negative Symptoms of Schizophrenia: Systematic Review, Meta-Analysis, and Dose-Response Meta-Analysis of Randomized Controlled Trials.

Author

Sabe, Michel, Zhao, Nan, Crippa, Alessio, Strauss, Gregory P, and Kaiser, Stefan

Subjects

META-analysis, RANDOMIZED controlled trials, OXYTOCIN, INTRANASAL administration, CLINICAL trials, DOPAMINE receptors, SYMPTOMS

Abstract

Background Negative symptoms are a core aspect of psychopathology in schizophrenia. Currently available pharmacological agents have proven minimally efficacious for remediating negative symptoms. A promising treatment avenue is the intranasal administration of the neuropeptide oxytocin. However, there have been inconsistencies in effects of oxytocin on negative symptoms throughout the literature, and factors leading to inconsistent effects are unclear. Methods We conducted a systematic review and meta-analysis of randomized clinical trials to compare the effectiveness of oxytocin with placebo for the treatment of negative symptoms and determine moderators of treatment effect. Random effects meta-analyses and dose-response meta-analysis were performed on mean changes in negative symptoms. Results In an initial analysis of all 9 identified randomized clinical trials, intranasal oxytocin showed no significant effect on negative symptoms. For higher doses (>40–80 IU), a beneficial effect on negative symptoms was found with a moderate effect size, but this effect disappeared after exclusion of 1 outlier study. The dose-response meta-analysis predicted that higher doses of oxytocin may be more efficacious for negative symptoms. For positive symptoms, no beneficial effect of oxytocin was found in the main meta-analysis, but the dose-response meta-analysis suggested a potential advantage of higher doses. Conclusions The present results show no consistent beneficial effect of intranasal oxytocin for the treatment of negative and positive symptoms. The dose-response meta-analysis does not allow drawing any firm conclusions but suggests that high doses of intranasal oxytocin may be more efficacious. If future studies are conducted, an effort to reach adequate CNS concentrations for a sufficient duration is required. [ABSTRACT FROM AUTHOR]

Published

2021

30. Dysfunction in interpersonal neural synchronization as a mechanism for social impairment in autism spectrum disorder.

Author

Quiñones‐Camacho, Laura E., Fishburn, Frank A., Belardi, Katherine, Williams, Diane L., Huppert, Theodore J., and Perlman, Susan B.

Abstract

Social deficits in autism spectrum disorder (ASD) have been linked to atypical activation of the mentalizing network. This work, however, has been limited by a focus on the brain activity of a single person during computerized social tasks rather than exploring brain activity during in vivo interactions. The current study assessed neural synchronization during a conversation as a mechanism for social impairment in adults with ASD (n = 24) and matched controls (n = 26). Functional near‐infrared spectroscopy (fNIRS) data were collected from the prefrontal cortex (PFC) and tempoparietal junction (TPJ). Participants self‐reported on their social communication and videos of the interaction were coded for utterances and conversational turns. As expected, controls showed more neural synchrony than participants with ASD in the TPJ. Also as expected, controls showed less social communication impairment than participants with ASD. However, participants with ASD did not have fewer utterances compared with control subjects. Overall, less neural synchrony in the TPJ was associated with higher social impairment and marginally fewer utterances. Our findings advance our understanding of social difficulties in ASD by linking them to decreased neural synchronization of the TPJ. Lay Summary The coordination of brain responses is important for efficient social interactions. The current study explored the coordination of brain responses in neurotypical adults and adults with ASD to investigate if difficulties in social interactions are related to difficulties coordinating brain responses in ASD. We found that participants with ASD had more difficulties coordinating brain responses during a conversation with an interacting partner. Additionally, we found that the level of coordination in brain responses was linked to problems with social communication. [ABSTRACT FROM AUTHOR]

Published

2021

31. Review: Posed vs. Genuine Facial Emotion Recognition and Expression in Autism and Implications for Intervention.

Author

Webster, Paula J., Wang, Shuo, and Li, Xin

Subjects

AUTISM spectrum disorders, FACIAL expression & emotions (Psychology), EMOTION recognition, EMOTIONS, AUTISM, FACIAL expression

Abstract

Different styles of social interaction are one of the core characteristics of autism spectrum disorder (ASD). Social differences among individuals with ASD often include difficulty in discerning the emotions of neurotypical people based on their facial expressions. This review first covers the rich body of literature studying differences in facial emotion recognition (FER) in those with ASD, including behavioral studies and neurological findings. In particular, we highlight subtle emotion recognition and various factors related to inconsistent findings in behavioral studies of FER in ASD. Then, we discuss the dual problem of FER – namely facial emotion expression (FEE) or the production of facial expressions of emotion. Despite being less studied, social interaction involves both the ability to recognize emotions and to produce appropriate facial expressions. How others perceive facial expressions of emotion in those with ASD has remained an under-researched area. Finally, we propose a method for teaching FER [FER teaching hierarchy (FERTH)] based on recent research investigating FER in ASD, considering the use of posed vs. genuine emotions and static vs. dynamic stimuli. We also propose two possible teaching approaches: (1) a standard method of teaching progressively from simple drawings and cartoon characters to more complex audio-visual video clips of genuine human expressions of emotion with context clues or (2) teaching in a field of images that includes posed and genuine emotions to improve generalizability before progressing to more complex audio-visual stimuli. Lastly, we advocate for autism interventionists to use FER stimuli developed primarily for research purposes to facilitate the incorporation of well-controlled stimuli to teach FER and bridge the gap between intervention and research in this area. [ABSTRACT FROM AUTHOR]

Published

2021

32. Mediation analysis of social deficits between self-criticism and aggression in adolescents.

Author

Zahra, Sayyeda Taskeen, Saleem, Sadia, and Khurshid, Halima

Subjects

*AGGRESSION (Psychology) in adolescence, *CRITICISM, *SELF-evaluation, *FACTOR analysis, *DESCRIPTIVE statistics, *SOCIAL skills, *STATISTICAL correlation, *DATA analysis software

Abstract

This research aims to determine the mediating role of social deficits in self-criticism and aggression using a sample of 695 adolescents (girls = 49%, boys = 51%), aged 12 to 19 years (M = 14.97, SD = 1.30) from an urbanized city of Pakistan. Interpersonal Difficulties Scale, Self-Criticism Scale, and Aggressive Behavior Scale were used in the present study. Results indicated a significant positive association of social deficits with self-criticism and aggression (p <.001). Furthermore, findings also suggested a significant positive association between self-criticism and aggression. Mediation analysis revealed that self-criticism partially mediated the relationship between social deficits and aggression. Findings are discussed in terms of the expression and manifestation of self-criticism, social deficits, and aggression in adolescents in collectivistic cultures. [ABSTRACT FROM AUTHOR]

Published

2021

33. Estrogen receptor β agonist ameliorates social deficits in a mouse model of autism

Author

ZHANG Ruiyu, LIU Tianyao, XIAO Rui, and FAN Xiaotang

Subjects

autism, estrogen receptor β agonist, social deficits, mice, Medicine (General), R5-920

Abstract

Objective To explore the therapeutic effect of estrogen receptor β agonist ly3201 on autism-like behaviors in BTBR mice. Methods Healthy neonatal (2 days old) C57BL/6J(C57) and BTBR littermate mice were both divided into 2 groups and subjected to intraperitoneal injections of estrogen receptor β agonist ly3201 at the dose of 1.6 mg/kg or normal saline of an equivalent volume. We measured the expression levels of estrogen receptor β in the cerebral cortex and hippocampus of the mice on day 14 after birth with immunohistochemistry and real-time PCR, and tested the mice for autism-like behaviors at 2 months of age. Results At 14 d after birth, the expression levels of estrogen receptor β in the cerebral cortex and hippocampus were significantly lower in BTBR mice than in C57 mice (P < 0.05), and treatment with ly3201 obviously enhanced estrogen receptor β expression in both BTBR and C57 mice (P < 0.01). In the three-chambered social test, BTBR mice with ly3201 treatment spent significantly longer time in the chamber with other mice than in the chamber with a new object (P < 0.05); they also spent significantly longer time for exploratory sniffing of other mice than of the new object (P < 0.05). In the male-female reciprocal social interaction test, compared with the saline-treated mice, BTBR mice with ly3201 treatment exhibited longer time of nose-to-nose sniffing (P < 0.05) and anogenital sniffing (P < 0.05) with a significantly reduced time for cage exploration (P < 0.05). Conclusion Estrogen receptor β agonist ly3201 activates the expression of endogenous estrogen receptor in the hippocampus and cortex to alleviate social deficits in BTBR mice.

Published

2019

34. Experimental Studies Indicate That ST-2223, the Antagonist of Histamine H3 and Dopamine D2/D3 Receptors, Restores Social Deficits and Neurotransmission Dysregulation in Mouse Model of Autism

Author

Nermin Eissa, Karthikkumar Venkatachalam, Petrilla Jayaprakash, Priya Yuvaraju, Markus Falkenstein, Holger Stark, and Bassem Sadek

Subjects

social deficits, neurotransmitters, histamine H3R antagonist, dopamine D2R/D3R antagonist, aripiprazole, autism, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Altered regulation of neurotransmitters may lead to many pathophysiological changes in brain disorders including autism spectrum disorder (ASD). Given the fact that there are no FDA-approved effective treatments for the social deficits in ASD, the present study determined the effects of chronic systemic treatment of the novel multiple-active H3R/D2R/D3R receptor antagonist ST-2223 on ASD-related social deficits in a male Black and Tan Brachyury (BTBR) mice. ST-2223 (2.5, 5, and 10 mg/kg, i.p.) significantly and dose-dependently mitigated social deficits and disturbed anxiety levels of BTBR mice (p < 0.05) in comparison to the effects of aripiprazole (1 mg/kg, i.p.). Moreover, levels of monoaminergic neurotransmitters quantified by LC-MS/MS in four brain regions including the prefrontal cortex, cerebellum, striatum, and hippocampus unveiled significant elevation of histamine (HA) in the cerebellum and striatum; dopamine (DA) in the prefrontal cortex and striatum; as well as acetylcholine (ACh) in the prefrontal cortex, striatum, and hippocampus following ST-2223 (5 mg/kg) administration (all p < 0.05). These in vivo findings demonstrate the mitigating effects of a multiple-active H3R/D2R/D3R antagonist on social deficits of assessed BTBR mice, signifying its pharmacological potential to rescue core ASD-related behaviors and altered monoaminergic neurotransmitters. Further studies on neurochemical alterations in ASD are crucial to elucidate the early neurodevelopmental variations behind the core symptoms and heterogeneity of ASD, leading to new approaches for the future therapeutic management of ASD.

Published

2022

35. Reduced Inter-hemispheric Resting State Functional Connectivity and Its Association With Social Deficits in Autism

Author

Shuxia Yao, Benjamin Becker, and Keith M. Kendrick

Subjects

autism spectrum disorder, resting state, inter-hemispheric functional connectivity, homotopic connectivity, corpus callosum, social deficits, Psychiatry, RC435-571

Abstract

Autism spectrum disorder (ASD) is an early onset developmental disorder which persists throughout life and is increasing in prevalence over the last few decades. Given its early onset and variable cognitive and emotional functional impairments, it is generally challenging to assess ASD individuals using task-based behavioral and functional MRI paradigms. Consequently, resting state functional MRI (rs-fMRI) has become a key approach for examining ASD-associated neural alterations and revealed functional alterations in large-scale brain networks relative to typically developing (TD) individuals, particularly those involved in social-cognitive and affective processes. Recent progress suggests that alterations in inter-hemispheric resting state functional connectivity (rsFC) between regions in the 2 brain hemispheres, particularly homotopic ones, may be of great importance. Here we have reviewed neuroimaging studies examining inter-hemispheric rsFC abnormities in ASD and its associations with symptom severity. As an index of inter-hemispheric functional connectivity, we have additionally reviewed previous studies on corpus callosum (CC) volumetric and fiber changes in ASD. There are converging findings on reduced inter-hemispheric (including homotopic) rsFC in large-scale brain networks particularly in posterior hubs of the default mode network, reduced volumes in the anterior and posterior CC, and on decreased FA and increased MD or RD across CC subregions. Associations between the strength of inter-hemispheric rsFC and social impairments in ASD together with their classification performance in distinguishing ASD subjects from TD controls across ages suggest that the strength of inter-hemispheric rsFC may be a more promising biomarker for assisting in ASD diagnosis than abnormalities in either brain wide rsFC or brain structure.

Published

2021

36. Anxiety Disorders

Author

Davis, Thompson E., III, Castagna, Peter, Shaheen, Georgia, Reuther, Erin Tarcza, and Matson, Johnny L., Series editor

Published

2017

37. Understanding the Social Nature of Autism: From Clinical Manifestations to Brain Mechanisms

Author

Volkmar, Fred R., van der Wyk, Brent, Matson, Johnny L., Series editor, and Leaf, Justin B., editor

Published

2017

38. Social Skills Training for Children and Adolescents with Autism Spectrum Disorder

Author

Radley, Keith C., O’Handley, Roderick D., Sabey, Christian V., and Matson, Johnny L., Series editor

Published

2017

39. Reduced Inter-hemispheric Resting State Functional Connectivity and Its Association With Social Deficits in Autism.

Author

Yao, Shuxia, Becker, Benjamin, and Kendrick, Keith M.

Subjects

FUNCTIONAL connectivity, AUTISM spectrum disorders, FUNCTIONAL magnetic resonance imaging, CORPUS callosum, AUTISM

Abstract

Autism spectrum disorder (ASD) is an early onset developmental disorder which persists throughout life and is increasing in prevalence over the last few decades. Given its early onset and variable cognitive and emotional functional impairments, it is generally challenging to assess ASD individuals using task-based behavioral and functional MRI paradigms. Consequently, resting state functional MRI (rs-fMRI) has become a key approach for examining ASD-associated neural alterations and revealed functional alterations in large-scale brain networks relative to typically developing (TD) individuals, particularly those involved in social-cognitive and affective processes. Recent progress suggests that alterations in inter-hemispheric resting state functional connectivity (rsFC) between regions in the 2 brain hemispheres, particularly homotopic ones, may be of great importance. Here we have reviewed neuroimaging studies examining inter-hemispheric rsFC abnormities in ASD and its associations with symptom severity. As an index of inter-hemispheric functional connectivity, we have additionally reviewed previous studies on corpus callosum (CC) volumetric and fiber changes in ASD. There are converging findings on reduced inter-hemispheric (including homotopic) rsFC in large-scale brain networks particularly in posterior hubs of the default mode network, reduced volumes in the anterior and posterior CC, and on decreased FA and increased MD or RD across CC subregions. Associations between the strength of inter-hemispheric rsFC and social impairments in ASD together with their classification performance in distinguishing ASD subjects from TD controls across ages suggest that the strength of inter-hemispheric rsFC may be a more promising biomarker for assisting in ASD diagnosis than abnormalities in either brain wide rsFC or brain structure. [ABSTRACT FROM AUTHOR]

Published

2021

40. Resveratrol Reverses Social Deficits and Metabolic Dysfunction of Mice Model for Negative Symptoms of Schizophrenia.

Author

Li, Ya-Nan, Yan, Zi-Chao, Zhang, Chao, Fu, Hong-Di, Jin, Xin, Cong, Hai-Lin, Shen, You-Qing, and Yu, Bing

Subjects

*RESVERATROL, *ANIMAL disease models, *NUCLEAR magnetic resonance spectroscopy, *LABORATORY mice, *METABOLIC disorders

Abstract

The negative symptoms of schizophrenia without effective therapeutic agents seriously affect the quality of life. Studies investigating the neurobiological mechanisms of the negative symptoms of schizophrenia failed to provide a unanimous conclusion, but generally accepted to be related to the prefrontal cortex (PFC). Resveratrol is a kind of natural plant polyphenol and has a potential role in negative symptoms treatment for its neuroprotective effects. To investigate the metabolic mechanism of the negative symptoms and the therapeutic effect of resveratrol on it, we analyzed the metabolic changes in the PFC of MK-801-induced schizophrenia model using ex vivo 1H nuclear magnetic resonance spectroscopy. And then, after chromic administration of resveratrol, we tested the social interaction behaviors of the schizophrenia model and analyzed the metabolic changes in the PFC. Our results showed that the levels of alanine (Ala), glutamate (Glu), tautine (Tau), glynine (Gly), choline (Cho), and valine (Val) are significantly decreased compared to control animals. The social deficits of MK-801-treated mice are improved after resveratrol administration. And the levels of Glu, Gly, and Cho were reversed after the treatment of resveratrol. In conclusion, our results suggest that the negative symptoms are associated with decreased concentration of Ala, Glu, Tau, Gly, Cho, Val in PFC and the social deficits could be recovered by resveratrol treatment, as well as the levels of Glu, Gly, and Cho in PFC. [ABSTRACT FROM AUTHOR]

Published

2021

41. Gut Bacteria Shared by Children and Their Mothers Associate with Developmental Level and Social Deficits in Autism Spectrum Disorder

Author

Yu Chen, Hui Fang, Chunyan Li, Guojun Wu, Ting Xu, Xin Yang, Liping Zhao, Xiaoyan Ke, and Chenhong Zhang

Subjects

autism spectrum disorder, gut microbiota, mother-child pair, developmental level, social deficits, Microbiology, QR1-502

Abstract

ABSTRACT The gut microbiota of autism spectrum disorder (ASD) children differs from that of children without ASD. The maternal gut microbiota impacts offspring gut microbiota. However, the relationship between the development of ASD and gut bacteria shared between children and their mothers remains elusive. Our study recruited 76 children with ASD and 47 age- and gender-matched children with typical development (TD), as well as the mothers of both groups, and investigated their gut microbiota using amplicon sequence variants (ASVs). The gut microbiota of ASD children was altered compared with that of children with TD, while no significant alterations were found in their mothers. We established 30 gut bacterial coabundance groups (CAGs) and found the relative abundances of CAG15 and CAG16 significantly decreased in ASD children. CAG15 showed a positive correlation with developmental level. The proportion of ASD children who shared either one of the two Lachnospiraceae ASVs from CAG15 with their mothers was significantly lower than that of children with TD. Moreover, we found that CAG12, CAG13, and CAG18 negatively correlated with the severity of social deficits in ASD children. ASD children who shared any one of the four (two Ruminococcaceae, one Lachnospiraceae, and one Collinsella) ASVs in CAG13 and CAG18 with their mothers showed a lower level of social deficits than ASD children that did not share those with their mothers. These data demonstrate that these shared gut bacteria in ASD children are associated with their developmental level and social deficits. This work provides a new direction toward understanding the role of the gut microbiota in the pathogenesis and development of ASD. (This study has been registered in the Chinese Clinical Trial Registry under number ChiCTR-RPC-16008139.) IMPORTANCE Gut microbiota may contribute to the pathogenesis and development of autism spectrum disorder. The maternal gut microbiota influences offspring gut microbial structure and composition. However, the relationship between the clinical symptoms of autism spectrum disorder and the gut bacteria shared between children and their mothers is not yet known. In our study, the gut microbiota of children with autism spectrum disorder differed from that of children with typical development, but there were no differences in the gut microbiota of their mothers. More importantly, gut bacteria shared between children with autism spectrum disorder and their mothers were related to developmental disabilities and social deficits. Thus, our study suggests that these shared gut bacteria may play an important role in the development of autism spectrum disorder. This provides a new direction for future studies aiming to explore the role of the gut microbiota in autism spectrum disorder.

Published

2020

42. Conditional Pten knockout in parvalbumin- or somatostatin-positive neurons sufficiently leads to autism-related behavioral phenotypes.

Author

Shin, Sangyep, Santi, Andrea, and Huang, Shiyong

Subjects

*GABAERGIC neurons, *INTERNEURONS, *AUTISM spectrum disorders, *BEHAVIORAL assessment, *NEURONS, *MOTOR ability, *CHILDREN with autism spectrum disorders

Abstract

Disrupted GABAergic neurons have been extensively described in brain tissues from individuals with autism spectrum disorder (ASD) and animal models for ASD. However, the contribution of these aberrant inhibitory neurons to autism-related behavioral phenotypes is not well understood. We examined ASD-related behaviors in mice with conditional Pten knockout in parvalbumin (PV)-expressing or somatostatin (Sst)-expressing neurons, two common subtypes of GABAergic neurons. We found that mice with deletion of Pten in either PV-neurons or Sst-neurons displayed social deficits, repetitive behaviors and impaired motor coordination/learning. In addition, mice with one copy of Pten deletion in PV-neurons exhibited hyperlocomotion in novel open fields and home cages. We also examined anxiety behaviors and found that mice with Pten deletion in Sst-neurons displayed anxiety-like behaviors, while mice with Pten deletion in PV-neurons exhibited anxiolytic-like behaviors. These behavioral assessments demonstrate that Pten knockout in the subtype of inhibitory neurons sufficiently gives rise to ASD-core behaviors, providing evidence that both PV- and Sst-neurons may play a critical role in ASD symptoms. [ABSTRACT FROM AUTHOR]

Published

2021

43. From Multisensory Assessment to Functional Interpretation of Social Behavioral Phenotype in Transgenic Mouse Models for Autism Spectrum Disorders

Author

Hiroyuki Arakawa

Subjects

autism, mouse models, social deficits, phenotyping, behavior validity, sociability, Psychiatry, RC435-571

Abstract

Autism spectrum disorder (ASD) is a common heterogeneous disorder, defined solely by the core behavioral characteristics, including impaired social interaction and restricted and repeated behavior. Although an increasing number of studies have been performed extensively, the neurobiological mechanisms underlying the core symptoms of ASD remain largely unknown. Transgenic mouse models provide a useful tool for evaluating genetic and neuronal mechanisms underlying ASD pathology, which are prerequisites for validating behavioral phenotypes that mimic the core symptoms of human ASD. The purpose of this review is to propose a better strategy for analyzing and interpreting social investigatory behaviors in transgenic mouse models of ASD. Mice are nocturnal, and employ multimodal processing mechanisms for social communicative behaviors, including those that involve olfactory and tactile senses. Most behavioral paradigms that have been developed for measuring a particular ASD-like behavior in mouse models, such as social recognition, preference, and discrimination tests, are based on the evaluation of distance-based investigatory behavior in response to social stimuli. This investigatory behavior in mice is regulated by multimodal processing involving with two different motives: first, an olfactory-based novelty assessment, and second, tactile-based social contact, in a temporally sequential manner. Accurate interpretation of investigatory behavior exhibited by test mice can be achieved by functional analysis of these multimodal, sequential behaviors, which will lead to a better understanding of the specific features of social deficits associated with ASD in transgenic mouse models, at high temporal and spatial resolutions.

Published

2020

44. Impairment of social behaviors in Arhgef10 knockout mice

Author

Dai-Hua Lu, Hsiao-Mei Liao, Chia-Hsiang Chen, Huang-Ju Tu, Houng-Chi Liou, Susan Shur-Fen Gau, and Wen-Mei Fu

Subjects

ARHGEF10, Autism spectrum disorder, Social deficits, Serotonin, Norepinephrine, Neurology. Diseases of the nervous system, RC346-429

Abstract

Abstract Background Impaired social interaction is one of the essential features of autism spectrum disorder (ASD). Our previous copy number variation (CNV) study discovered a novel deleted region associated with ASD. One of the genes included in the deleted region is ARHGEF10. A missense mutation of ARHGEF10 has been reported to be one of the contributing factors in several diseases of the central nervous system. However, the relationship between the loss of ARHGEF10 and the clinical symptoms of ASD is unclear. Methods We generated Arhgef10 knockout mice as a model of ASD and characterized the social behavior and the biochemical changes in the brains of the knockout mice. Results Compared with their wild-type littermates, the Arhgef10-depleted mice showed social interaction impairment, hyperactivity, and decreased depression-like and anxiety-like behavior. Behavioral measures of learning in the Morris water maze were not affected by Arhgef10 deficiency. Moreover, neurotransmitters including serotonin, norepinephrine, and dopamine were significantly increased in different brain regions of the Arhgef10 knockout mice. In addition, monoamine oxidase A (MAO-A) decreased in several brain regions. Conclusions These results suggest that ARHGEF10 is a candidate risk gene for ASD and that the Arhgef10 knockout model could be a tool for studying the mechanisms of neurotransmission in ASD. Trial registration Animal studies were approved by the Institutional Animal Care and Use Committee of National Taiwan University (IACUC 20150023). Registered 1 August 2015.

Published

2018

45. From Multisensory Assessment to Functional Interpretation of Social Behavioral Phenotype in Transgenic Mouse Models for Autism Spectrum Disorders.

Author

Arakawa, Hiroyuki

Subjects

AUTISM spectrum disorders, TRANSGENIC mice, SELF-injurious behavior, SOCIAL contact, SOCIAL interaction, SMELL

Abstract

Autism spectrum disorder (ASD) is a common heterogeneous disorder, defined solely by the core behavioral characteristics, including impaired social interaction and restricted and repeated behavior. Although an increasing number of studies have been performed extensively, the neurobiological mechanisms underlying the core symptoms of ASD remain largely unknown. Transgenic mouse models provide a useful tool for evaluating genetic and neuronal mechanisms underlying ASD pathology, which are prerequisites for validating behavioral phenotypes that mimic the core symptoms of human ASD. The purpose of this review is to propose a better strategy for analyzing and interpreting social investigatory behaviors in transgenic mouse models of ASD. Mice are nocturnal, and employ multimodal processing mechanisms for social communicative behaviors, including those that involve olfactory and tactile senses. Most behavioral paradigms that have been developed for measuring a particular ASD-like behavior in mouse models, such as social recognition, preference, and discrimination tests, are based on the evaluation of distance-based investigatory behavior in response to social stimuli. This investigatory behavior in mice is regulated by multimodal processing involving with two different motives: first, an olfactory-based novelty assessment, and second, tactile-based social contact, in a temporally sequential manner. Accurate interpretation of investigatory behavior exhibited by test mice can be achieved by functional analysis of these multimodal, sequential behaviors, which will lead to a better understanding of the specific features of social deficits associated with ASD in transgenic mouse models, at high temporal and spatial resolutions. [ABSTRACT FROM AUTHOR]

Published

2020

46. Overview of Early Intensive Behavioral Intervention for Children with Autism

Author

Lang, Russell, Hancock, Terry B., Singh, Nirbhay N., Singh, Nirbhay N., Series editor, Lang, Russell, editor, and Hancock, Terry B., editor

Published

2016

47. Parent-reported early symptoms of autism spectrum disorder in children without intellectual disability who were diagnosed at school age.

Author

Goodwin, Anthony, Matthews, Nicole L, and Smith, Christopher J

Subjects

*DIAGNOSIS of autism, *AGE distribution, *AUTISM, *INTERVIEWING, *MEDICAL records, *PARENT-child relationships, *PSYCHOLOGY of children with disabilities, *RITES & ceremonies, *SELF-evaluation, *SOCIAL skills, *PARENT attitudes, *EARLY diagnosis, *SYMPTOMS

Abstract

Despite efforts to detect autism spectrum disorder during toddlerhood, many children with autism spectrum disorder remain undiagnosed until school age. To identify characteristics of children whose autism spectrum disorder might not be diagnosed during toddlerhood, this study used archived Autism Diagnostic Interview-Revised records to examine the historical presentation of autism spectrum disorder symptoms in 48 school-age children with autism spectrum disorder. Children diagnosed after starting school (Late-Diagnosed; n = 24) were compared to age-matched children diagnosed before school age (Early-Diagnosed; n = 24). Symptom presentation was similar between groups, with the Late-Diagnosed group exhibiting only marginally fewer symptoms historically. The most commonly reported historical symptoms were negative symptoms, namely, deficits in social behaviors. Positive symptoms, such as unusual preoccupations, rituals, and mannerisms, were less commonly reported. These findings may aid earlier identification of autism spectrum disorder in children who would likely be diagnosed at school age. [ABSTRACT FROM AUTHOR]

Published

2019

48. Social and sensory deficits in Rett syndrome: neuroanatomical and behavioural analyses in a mouse model deficient for mecp2

Author

Martínez Rodríguez, Elena, Agustín-Pavón, Carmen, and Facultat de Ciències Biològiques

Subjects

UNESCO::CIENCIAS DE LA VIDA::Biología animal (Zoología) ::Anatomía animal, doublecortin, postanatal neurogenesis, pain expression, UNESCO::CIENCIAS DE LA VIDA::Neurociencias, UNESCO::CIENCIAS DE LA VIDA::Biología animal (Zoología) ::Comportamiento animal, UNESCO::CIENCIAS DE LA VIDA, social deficits, mecp2, pain, rett syndrome

Abstract

El síndrome de Rett es una enfermedad rara del neurodesarrollo que afecta a 1 de cada 10.000 niñas en todo el mundo, y que supone la segunda causa de discapacidad intelectual de origen genético en mujeres. No existe una cura eficaz, y el tratamiento médico es meramente sintomatológico. Sin embargo, esta condición es mucho menos estudiada que otras enfermedades raras que afectan principalmente a niños. Se sabe que el síndrome de Rett está causado principalmente por mutaciones en el gen MECP2, que se localiza en el cromosoma X, haciendo que los niños mueran durante el primer año de vida y las niñas desarrollen la sintomatología característica de Rett a los 6-18 meses de edad. Entre los síntomas se incluyen un estancamiento del desarrollo, la pérdida de habilidades comunicativas y motoras, aparición de déficits sociales, epilepsia y problemas respiratorios, entre otros. La relevancia del gen MECP2 radica en la proteína para la que codifica, y que porta su mismo nombre: la proteína MeCP2. Esta proteína es un regulador de la transcripción de numerosos genes, especialmente abundante en el sistema nervioso central, donde desempeña papeles fundamentales en la maduración neuronal, complejidad neurítica, sinaptogénesis y plasticidad sináptica, entre otros. En la presente tesis hemos decidido explorar algunas de las características menos estudiadas de este síndrome como son la neurogénesis postnatal, los déficits sociales y la nocicepción y expresión de dolor, en un modelo de ratón que mimetiza los principales síntomas de Rett. Primero, analizamos la supervivencia celular de las células que se generan en el cerebro postnatal del ratón en la zona subventricular, y que migran por medio de la corriente migratoria rostral hasta los bulbos. Gracias a un experimento con BrdU, apreciamos que la falta de MeCP2 no parece afectar a la supervivencia de estas células, al menos durante un periodo de tiempo de 12 días. Por otro lado, decidimos estudiar la población de neuronas inmaduras que expresan la proteína doblecortina en el sistema olfativo e hipocampo. Como resultado, pudimos observar que los ratones nulos para el gen mecp2, presentan un aparente déficit en la maduración neuronal, afectando a regiones específicas del sistema olfativo, como son la corteza piriforme o el estriado dorsal y ventral. Además, descubrimos una población de neuronas inmaduras en la capa I del tubérculo olfativo, que no había sido descrita en profundidad hasta el momento, y cuya maduración también se ve afectada por la falta de MeCP2. Además, pudimos apreciar que la manipulación ambiental a edades tempranas, como por ejemplo el estrés temprano inducido por separación materna, es capaz de afectar a esta población de neuronas inmaduras, promoviendo su maduración o incluso exacerbando los efectos del déficit de MeCP2 de forma distinta dependiendo del sexo, región y genotipo. Este descubrimiento abre las puertas a intervenciones no farmacológicas basadas en el enriquecimiento ambiental, con el fin de promover la maduración neuronal de las regiones afectadas en Rett, con el objetivo de aliviar los síntomas cognitivos. Por otro lado, estudiamos también el cerebro social de los ratones mutantes para Mecp2, y observamos que los ratones nulos para este gen, presentaban una disminución de la inervación vasopresinérgica dependiente de testosterona, afectando a núcleos cerebrales importantes para la modulación de comportamientos sociales y agresivos en machos. Considerando que los machos nulos para Mecp2 presentan testículos internos, hipotetizamos que éstos producen menores cantidades de testosterona, algo que concuerda con la menor producción de feromonas dependientes de testosterona encontrada en la orina de los mismos. Esto sugiere que los déficits en Mecp2 son capaces de afectar al sistema hormonal, que alterará a su vez la inervación vasopresinérgica y conductas normativas de estos machos. De acuerdo con esta teoría, registramos valores más altos de activación de la enzima óxido nítrico sintasa en los machos nulos para el gen Mecp2, que concuerdan con la menor agresividad mostrada por éstos mismos en los test de residente-intruso. También, pudimos observar una menor investigación por parte de los residentes nulos hacia los intrusos salvajes, sugiriendo una falta de interés hacia los mismos. Además, los ratones salvajes investigaban con mayor frecuencia a los ratones nulos que a los salvajes, apoyando la teoría de una menor producción de testosterona y feromonas masculinas. Por tanto, a la hora de estudiar enfermedades del neurodesarrollo tales como Rett y otras condiciones relacionadas con mutaciones en el gen MECP2, es importante considerar los posibles efectos en la señalización hormonal que puedan derivar en posibles déficits sociales. Finalmente, realizamos un estudio longitudinal con el fin de estudiar la nocicepción y expresión de dolor en ratones hembras heterocigotas para el gen Mecp2. En la literatura existe mucha controversia sobre la mayor o menor percepción de dolor tanto en niñas con Rett como en los modelos de ratón diseñados. Sin embargo, resulta crucial esclarecer si las niñas afectadas presentan una menor percepción del dolor o si, por el contrario, y debido a los déficits motores y comunicativos que presentan, son incapaces de expresar este dolor. Gracias al estudio longitudinal, pudimos apreciar que, con el progreso de la sintomatología y severidad de la misma, las hembras heterocigotas desarrollan sobrepeso y alteraciones en la forma de caminar, sugiriendo posibles alteraciones motoras. Todo ello se ve reflejado en los distintos resultados obtenidos en pruebas como el test de von Frey, donde las hembras en estadíos sintomáticos más tempranos muestran una hipersensibilidad al test, sugiriendo que su percepción del dolor se encuentra aumentada. Sin embargo, en estadíos más avanzados, en los que la sintomatología es más acuciada y severa, los resultados cambian hacia una hipotética hiposensibilidad. Sin embargo, los resultados del test de placa caliente, revelan que las hembras plenamente sintomáticas muestran hipersensibilidad al calor. Además, muchas de estas hembras heterocigotas, muestran conductas inusuales como forma de expresión de dolor, que no están presentes en las hembras salvajes. Todo ello, apoya la teoría de una hipersensibilidad enmascarada por los déficits motores y comunicativos, de forma que, las niñas afectadas podrían estar experimentando el mismo o incluso más dolor, pero viéndose incapaces de manifestarlo o expresándolo de forma distinta.

Published

2023

49. Dynamic functional connectivity analysis reveals decreased variability of the default‐mode network in developing autistic brain.

Author

He, Changchun, Chen, Yanchi, Jian, Taorong, Chen, Heng, Guo, Xiaonan, Wang, Jia, Wu, Lijie, Chen, Huafu, and Duan, Xujun

Abstract

Accumulating neuroimaging evidence suggests that abnormal functional connectivity of the default mode network (DMN) contributes to the social‐cognitive deficits of autism spectrum disorder (ASD). Although most previous studies relied on conventional functional connectivity methods, which assume that connectivity patterns remain constant over time, understanding the temporal dynamics of functional connectivity during rest may provide new insights into the dysfunction of the DMN in ASD. In this work, dynamic functional connectivity analysis based on sliding time window correlation was applied to the resting‐state functional magnetic resonance imaging data of 28 young children with ASD (age range: 3–7 years) and 29 matched typically developing controls (TD group). In addition, k‐means cluster analysis was performed to identify distinct temporal states based on the spatial similarity of each functional connectivity pattern. Compared with the TD group, young children with ASD showed decreased dynamic functional connectivity variance between the posterior cingulate cortex (PCC) and the right precentral gyrus, which is negatively correlated with social motivation and social relating. Cluster analysis revealed significant differences in functional connectivity patterns between the ASD and TD groups in discrete temporal states. Our findings reveal that atypical dynamic interactions between the PCC and sensorimotor cortex are associated with social deficits in ASD. Results also highlight the critical role of PCC in the social‐cognitive deficits of ASD and support the concept that understanding the dynamic neural interactions among brain regions can provide insights into functional abnormalities in ASD. Autism Research2018, 11: 1479–1493. © 2018 International Society for Autism Research, Wiley Periodicals, Inc. Lay Summary: Social cognitive dysfunction in autism spectrum disorder (ASD) is associated with dysfunction of the default mode network (DMN), a set of brain areas involved in various domains of social processing. We found that decreases in the dynamic functional connectivity variance between the posterior cingulate cortex and the sensorimotor cortex are associated with deficits in social motivation and social relating in young children with ASD. This result suggests that aberrations in the DMN and its dynamic interactions with other networks contribute to atypical integration of information with respect to self and others. [ABSTRACT FROM AUTHOR]

Published

2018

50. Environmental enrichment alleviates cognitive and behavioral impairments in EL mice.

Author

Suemaru, Katsuya, Yoshikawa, Misato, Aso, Hiroaki, and Watanabe, Masahiko

Subjects

*CHILDHOOD epilepsy, *COGNITION disorders, *BEHAVIOR disorders in children, *MENTAL illness, *LABORATORY mice, *THERAPEUTICS

Abstract

Epilepsy in children is occasionally associated with comorbidities, such as cognitive impairment, behavioral disturbances, and social deficits. These neurobehavioral comorbidities are closely related to environmental factors and the severity of the seizures. Previous studies show that environmental enrichment has a beneficial effect in animal models of temporal lobe epilepsy following systemic chemoconvulsant administration. However, the effect of environmental enrichment on behavioral impairments in the EL mouse, a genetic model of human idiopathic epilepsy, remains unknown. In the present study, we examined the effect of environmental enrichment on cognitive and behavioral impairments in this murine model. The EL mice, under standard laboratory conditions, exhibited impairments in spatial memory in the Morris water maze test, hyperactivity and impaired habituation in the open-field test, and a deficit in social novelty preference in the three-chamber social approach test, compared with control DDY mice, a genetically related nonepileptic strain. These impairments in EL mice were ameliorated by exposure to an enriched environment. These findings suggest that environmental enrichment effectively ameliorates cognitive and behavioral deficits in EL mice. [ABSTRACT FROM AUTHOR]

Published

2018