Catherine A. Ziats scite author profile

Phelan-McDermid syndrome (PMS) is a neurodevelopmental disorder characterized by varying degrees of intellectual disability, severely delayed language development and specific facial features, and is caused by a deletion within chromosome 22q13.3. SHANK3, which is located at the terminal end of this region, has been repeatedly implicated in other neurodevelopmental disorders and deletion of this gene specifically is thought to cause much of the neurologic symptoms characteristic of PMS. However, it is still unclear to what extent SHANK3 deletions contribute to the PMS phenotype, and what other genes nearby are causal to the neurologic disease. In an effort to better understand the functional landscape of the PMS region during normal neurodevelopment, we assessed RNA-sequencing (RNA-seq) expression data collected from post-mortem brain tissue from developmentally normal subjects over the course of prenatal to adolescent age and analyzed expression changes of 65 genes on 22q13. We found that the majority of genes within this region were expressed in the brain, with ATNX10, MLC1, MAPK8IP2, and SULT4A1 having the highest overall expression. Analysis of the temporal profiles of the highest expressed genes revealed a trend towards peak expression during the early post-natal period, followed by a drop in expression later in development. Spatial analysis revealed significant region specific differences in the expression of SHANK3, MAPK8IP2, and SULT4A1. Region specific expression over time revealed a consistently unique gene expression profile within the cerebellum, providing evidence for a distinct developmental program within this region. Exon-specific expression of SHANK3 showed higher expression within exons contributing to known brain specific functional isoforms. Overall, we provide an updated roadmap of the PMS region, implicating several genes and time periods as important during neurodevelopment, with the hope that this information can help us better understand the phenotypic heterogeneity of PMS.

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X‐linked intellectual disability: Phenotypic expression in carrier females

Ziats

Schwartz

Gécz

et al. 2019

Clinical Genetics

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To better understand the landscape of female phenotypic expression in X‐linked intellectual disability (XLID), we surveyed the literature for female carriers of XLID gene alterations (n = 1098) and combined this with experience evaluating XLID kindreds at the Greenwood Genetic Center (n = 341) and at the University of Adelaide (n = 157). One‐hundred forty‐four XLID genes were grouped into nine categories based on the level of female phenotypic expression, ranging from no expression to female only expression. For each gene, the clinical presentation, gene expression in blood, X‐inactivation (XI) pattern, biological pathway involved, and whether the gene escapes XI were noted. Among the XLID conditions, 88 (61.1%) exhibited female cognitive phenotypic expression only, while 56 (38.9%) had no female phenotypic expression (n = 45), phenotype expression with normal cognition in females (n = 8), or unknown status for female phenotypic expression (n = 3). In twenty‐four (16.6%) XLID genes, XI was consistently skewed in female carriers, in 54 (37.5%) XI showed variable skewing, and in 33 (22.9%) XI was consistently random. The XI pattern was unknown in 33 (22.9%) XLID conditions. Therefore, there is evidence of a female carrier phenotype in the majority of XLID conditions although how exactly XI patterns influence the female phenotype in XLID conditions remains unclear.

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Neurofibromatosis type 2 in Phelan-McDermid syndrome: Institutional experience and review of the literature

Ziats

Jain

McLarney

et al. 2020

European Journal of Medical Genetics

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Superficial abdominal reflex in syringomyelia: Associations with Chiari I malformation

Nadel

Ziats

Mossner

et al. 2022

Journal of Clinical Neuroscience

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