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1.
PLoS One ; 18(10): e0291978, 2023.
Article in English | MEDLINE | ID: mdl-37788244

ABSTRACT

Motor stereotypies are common in children with autism spectrum disorder (ASD), intellectual disability, or sensory deprivation, as well as in typically developing children ("primary" stereotypies, pCMS). The precise pathophysiological mechanism for motor stereotypies is unknown, although genetic etiologies have been suggested. In this study, we perform whole-exome DNA sequencing in 129 parent-child trios with pCMS and 853 control trios (118 cases and 750 controls after quality control). We report an increased rate of de novo predicted-damaging DNA coding variants in pCMS versus controls, identifying KDM5B as a high-confidence risk gene and estimating 184 genes conferring risk. Genes harboring de novo damaging variants in pCMS probands show significant overlap with those in Tourette syndrome, ASD, and those in ASD probands with high versus low stereotypy scores. An exploratory analysis of these pCMS gene expression patterns finds clustering within the cortex and striatum during early mid-fetal development. Exploratory gene ontology and network analyses highlight functional convergence in calcium ion transport, demethylation, cell signaling, cell cycle and development. Continued sequencing of pCMS trios will identify additional risk genes and provide greater insights into biological mechanisms of stereotypies across diagnostic boundaries.


Subject(s)
Autism Spectrum Disorder , Tourette Syndrome , Humans , Autism Spectrum Disorder/genetics , DNA , Exome Sequencing , Mutation , Genetic Predisposition to Disease , Nuclear Proteins/genetics , Repressor Proteins/genetics , Jumonji Domain-Containing Histone Demethylases/genetics
2.
Cerebellum ; 21(3): 440-451, 2022 Jun.
Article in English | MEDLINE | ID: mdl-34390462

ABSTRACT

Recent studies suggest that the cerebellum may have a significant role in repetitive behaviors. In primary complex motor stereotypies, typically developing children have repetitive movements usually involving rhythmic flapping/waving arm/hand movements. Similarly, the deer mouse animal model exhibits inherited repetitive behaviors, with increased frequencies of spontaneous jumping and rearing. In this study, data from both children with motor stereotypies and deer mice were used to investigate the role of the cerebellum in repetitive behaviors. The 3.0-T MRI volumetric imaging of the cerebellum was obtained in 20 children with primary complex motor stereotypies and 20 healthy controls. In deer mice, cerebellar volume (n = 7/group) and cell counts (n = 9/group) were compared between high- and low-activity animals. Levels of cerebellar neurotransmitters were also determined via HPLC (n = 10/group). In children with stereotypies, (a) there were a statistically significant reduction (compared to controls) in the white matter volume of the posterior cerebellar lobule VI-VII that negatively correlated with motor control and (b) an 8% increase in the anterior vermis gray matter that positively correlated with motor Stereotypy Severity Scores (SSS). In deer mice, (a) there was a significant increase in the volume of the anterior vermal granular cell layer that was associated with higher activity and (b) dentate nucleus cell counts were higher in high activity animals. Similar increases in volume were observed in anterior vermis in children with stereotypies and a deer mouse model of repetitive behaviors. These preliminary findings support the need for further investigation of the cerebellum in repetitive behaviors.


Subject(s)
Peromyscus , Stereotyped Behavior , Animals , Cerebellum/diagnostic imaging , Cerebral Cortex , Child , Cognition , Humans
3.
Behav Brain Res ; 379: 112317, 2020 02 03.
Article in English | MEDLINE | ID: mdl-31676208

ABSTRACT

Deer mice provide a non-pharmacologically induced model for the study of repetitive behaviors. In captivity, these animals develop frequent jumping and rearing that resemble clinical symptoms of obsessive-compulsive behavior (OCB), autism spectrum disorder (ASD), complex motor stereotypies (CMS), and Tourette's syndrome (TS). In this study, we pursue the mechanism of repetitive behaviors by performing stereological analyses and liquid chromatography/ mass spectrometry (LC-MS/MS) measurements of glutamate (Glut), GABA, 3,4-dihydroxyphenylacetic acid (DOPAC), dopamine (DA), leu-enkephalin (leu-enk), and dynorphin-A (dyn-A) in frontal cortex (FC), prefrontal cortex (PFC), and basal ganglia. The only significant stereological alteration was a negative correlation between repetitive behaviors and the cell count in the ventromedial striatum (VMS). Neurochemical analyses demonstrated a significant negative correlation between repetitive behaviors and endogenous opioids (leu-enk and dyn-A) in the FC - the site of origin of habitual behaviors and cortical projections to striatal MSNs participating in direct and indirect pathways. The precise neurochemical process by which endogenous opioids influence synaptic neurotransmission is unknown. One postulated cortical mechanism, supported by our findings, is an opioid effect on cortical interneuron GABA release and a consequent effect on glutamatergic cortical pyramidal cells. Anatomical changes in the VMS could have a role in repetitive behaviors, recognizing that this region influences goal-directed and habitual behaviors.


Subject(s)
Basal Ganglia/metabolism , Behavior, Animal/physiology , Frontal Lobe/metabolism , Goals , Habits , Opioid Peptides/metabolism , Animals , Female , Interneurons/metabolism , Male , Peromyscus , Prefrontal Cortex/metabolism , Ventral Striatum/metabolism , gamma-Aminobutyric Acid/metabolism
4.
Pediatr Neurol ; 85: 51-57, 2018 08.
Article in English | MEDLINE | ID: mdl-30049425

ABSTRACT

BACKGROUND: Complex motor stereotypies (CMS) typically begin before age three years and include rhythmic, repetitive, fixed movements that last for seconds to minutes and can be interrupted with distraction. OBJECTIVE: We evaluated the effectiveness of a home-based, parent-provided therapy accompanied by scheduled telephone calls with a therapist, in five- to seven-year old children with primary CMS. METHODS: Eligible families received an instructional digital versatile disk (DVD) written instructions, and scheduled telephone contacts with a therapist at baseline (DVD receipt), one, three, and eight weeks later. At each call, parents completed outcome measures and received feedback. Outcome scales Stereotypy Severity Scale (SSS) Motor and Impairment scales and a Stereotypy Linear Analogue Scale (SLAS) were also completed via the Iinternet (REDCap)-at screening, one and two months post-baseline call. At study conclusion, participants were divided into an intent-to-treat (ITT; had at least one call) or a lost-to-follow-up (LTF) group. RESULTS: Thirty-eight children (mean =  6 years ± 11 months) were enrolled. The LTF group (n = 14) had significantly higher scores than the ITT (n = 24) group on all attention-deficit/hyperactivity disorder ratings (P < 0.01), but not stereotypy severity. Primary outcome scores, acquired by telephone and REDCap, showed a significant reduction in SSS Motor and Impairment scores between the initial and the last completed evaluation (P ≤ 0.001). Calculated change ratios were SSS Motor -0.23/-0.30 (cal/REDCap); SSS Impairment -0.31/-0.32; and SLAS -0.54 (REDCap). Clinical improvement was further supported by results from a parent improvement scale and end of study questionnaires. CONCLUSIONS: Home-based, parent-administered behavioral therapy supplemented by telephone contact with a therapist is effective in reducing complex motor stereotypies in children.


Subject(s)
Behavior Therapy/methods , Patient Education as Topic , Stereotypic Movement Disorder/therapy , Telemedicine , Child , Child, Preschool , Feedback , Female , Follow-Up Studies , Humans , Male , Motion Pictures , Parents/education , Severity of Illness Index , Treatment Outcome
5.
Cereb Cortex ; 27(8): 3918-3929, 2017 08 01.
Article in English | MEDLINE | ID: mdl-27371763

ABSTRACT

Neuronal nitric oxide synthase is involved in diverse signaling cascades that regulate neuronal development and functions via S-Nitrosylation-mediated mechanism or the soluble guanylate cyclase (sGC)/cyclic guanosine monophosphate (cGMP) pathway activated by nitric oxide. Although it has been studied extensively in vitro and in invertebrate animals, effects on mammalian brain development and underlying mechanisms remain poorly understood. Here we report that genetic deletion of "Nos1" disrupts dendritic development, whereas pharmacological inhibition of the sGC/cGMP pathway does not alter dendritic growth during cerebral cortex development. Instead, nuclear distribution element-like (NDEL1), a protein that regulates dendritic development, is specifically S-nitrosylated at cysteine 203, thereby accelerating dendritic arborization. This post-translational modification is enhanced by N-methyl-D-aspartate receptor-mediated neuronal activity, the main regulator of dendritic formation. Notably, we found that disruption of S-Nitrosylation of NDEL1 mediates impaired dendritic maturation caused by developmental alcohol exposure, a model of developmental brain abnormalities resulting from maternal alcohol use. These results highlight S-Nitrosylation as a key activity-dependent mechanism underlying neonatal brain maturation and suggest that reduction of S-Nitrosylation of NDEL1 acts as a pathological factor mediating neurodevelopmental abnormalities caused by maternal alcohol exposure.


Subject(s)
Carrier Proteins/metabolism , Dendrites/metabolism , Fetal Alcohol Spectrum Disorders/metabolism , Prefrontal Cortex/metabolism , Pyramidal Cells/metabolism , Synaptic Transmission/physiology , Animals , Carrier Proteins/genetics , Dendrites/drug effects , Dendrites/pathology , Disease Models, Animal , Fetal Alcohol Spectrum Disorders/pathology , Humans , Mice, Inbred C57BL , Mice, Transgenic , Mutation , Nitric Oxide Synthase Type I/deficiency , Nitric Oxide Synthase Type I/genetics , Prefrontal Cortex/drug effects , Prefrontal Cortex/growth & development , Prefrontal Cortex/pathology , Pyramidal Cells/drug effects , Pyramidal Cells/pathology
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