Ursula Bellugi scite author profile

The rare, genetically based disorder, Williams syndrome (WMS), produces a constellation of distinctive cognitive, neuroanatomical, and electrophysiological features which we explore through the series of studies reported here. In this paper, we focus primarily on the cognitive characteristics of WMS and begin to forge links among these characteristics, the brain, and the genetic basis of the disorder. The distinctive cognitive profile of individuals with WMS includes relative strengths in language and facial processing and profound impairment in spatial cognition. The cognitive profile of abilities, including what is 'typical' for individuals with WMS is discussed, but we also highlight areas of variability across the group of individuals with WMS that we have studied. Although the overall cognitive abilities (IQs) of individuals with WMS are typically in the mild-to-moderate range of mental retardation, the peaks and valleys within different cognitive domains make this syndrome especially intriguing to study across levels. Understanding the brain basis (and ultimately the genetic basis) for higher cognitive functioning is the goal we have begun to undertake with this line of interdisciplinary research.

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II. Hypersociability in Williams Syndrome

Jones¹,

Bellugi²,

Lai³

et al. 2000

455

411

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Studies of abnormal populations provide a rare opportunity for examining relationships between cognition, genotype and brain neurobiology, permitting comparisons across these different levels of analysis. In our studies, we investigate individuals with a rare, genetically based disorder called Williams syndrome (WMS) to draw links among these levels. A critical component of such a cross-domain undertaking is the clear delineation of the phenotype of the disorder in question. Of special interest in this paper is a relatively unexplored unusual social phenotype in WMS that includes an overfriendly and engaging personality. Four studies measuring distinct aspects of hypersocial behavior in WMS are presented, each probing specific aspects in WMS infants, toddlers, school age children, and adults. The abnormal profile of excessively social behavior represents an important component of the phenotype that may distinguish WMS from other developmental disorders. Furthermore, the studies show that the profile is observed across a wide range of ages, and emerges consistently across multiple experimental paradigms. These studies of hypersocial behavior in WMS promise to provide the groundwork for crossdisciplinary analyses of gene-brain-behavior relationships.

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“Everybody in the world is my friend” hypersociability in young children with Williams syndrome

Doyle

Bellugi

Korenberg

et al. 2003

American J of Med Genetics Pt A

258

267

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Williams syndrome (WS) is a rare genetic disorder involving a characteristic cardiac defect, typical facial appearance, and an uneven profile of cognitive strengths and weaknesses. WS is caused by a hemizygous deletion in chromosome band 7q11.23, including the gene for elastin (ELN). Typically, individuals with WS seem driven to greet and interact with strangers. The goal of the present study was to investigate age-related changes in the expression of hypersociability in WS. Parents of 64 children with WS, 31 children with Down syndrome (DS), and 27 normal controls (NC) provided data concerning specific aspects of their children's social behavior using the Salk Institute Sociability Questionnaire (SISQ). Children ranged in age from 1 year, 1 month to 12 years, 10 months. Consistent with earlier findings, whole group analyses showed the WS group to be significantly higher on all aspects of sociability studied. Comparisons among the groups at different ages revealed that hypersociability is evident even among very young children with WS, and, significantly, children with WS exceed children with DS with respect to Global Sociability and Approach Strangers in every age group. The findings from children who have the typical deletion for WS are contrasted with data obtained from a young child with WS who has a smaller deletion and many physical features of WS, but who does not demonstrate hypersociability, providing intriguing clues to a genetic basis of social behavior in this syndrome. These data suggest the involvement of a genetic predisposition in the expression of hypersociability in WS.

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Abnormal Cortical Complexity and Thickness Profiles Mapped in Williams Syndrome

Thompson¹,

Lee²,

Dutton³

et al. 2005

J. Neurosci.

260

245

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We identified and mapped an anatomically localized failure of cortical maturation in Williams syndrome (WS), a genetic condition associated with deletion of ϳ20 contiguous genes on chromosome 7. Detailed three-dimensional (3D) maps of cortical thickness, based on magnetic resonance imaging (MRI) scans of 164 brain hemispheres, identified a delimited zone of right hemisphere perisylvian cortex that was thicker in WS than in matched controls, despite pervasive gray and white matter deficits and reduced total cerebral volumes. 3D cortical surface models were extracted from 82 T1-weighted brain MRI scans (256 ϫ 192 ϫ 124 volumes) of 42 subjects with genetically confirmed WS (mean Ϯ SD, 29.2 Ϯ 9.0 years of age; 19 males, 23 females) and 40 age-matched healthy controls (27.5 Ϯ 7.4 years of age; 16 males, 24 females). A cortical pattern-matching technique used 72 sulcal landmarks traced on each brain as anchors to align cortical thickness maps across subjects, build group average maps, and identify regions with altered cortical thickness in WS. Cortical models were remeshed in frequency space to compute their fractal dimension (surface complexity) for each hemisphere and lobe. Surface complexity was significantly increased in WS ( p Ͻ 0.0015 and p Ͻ 0.0014 for left and right hemispheres, respectively) and correlated with temporoparietal gyrification differences, classified via Steinmetz criteria. In WS, cortical thickness was increased by 5-10% in a circumscribed right hemisphere perisylvian and inferior temporal zone ( p Ͻ 0.002). Spatially extended cortical regions were identified with increased complexity and thickness; cortical thickness and complexity were also positively correlated in controls ( p Ͻ 0.03). These findings visualize cortical zones with altered anatomy in WS, which merit additional study with techniques to assess function and connectivity.

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Bridging cognition, the brain and molecular genetics: evidence from Williams syndrome

Bellugi¹,

Lichtenberger²,

Mills³

et al. 1999

Trends in Neurosciences

344

226

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Ursula Bellugi

I. The Neurocognitive Profile of Williams Syndrome: A Complex Pattern of Strengths and Weaknesses

II. Hypersociability in Williams Syndrome

“Everybody in the world is my friend” hypersociability in young children with Williams syndrome

Abnormal Cortical Complexity and Thickness Profiles Mapped in Williams Syndrome

Bridging cognition, the brain and molecular genetics: evidence from Williams syndrome

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