Frontiers in Pediatrics (Aug 2022)

Phelan–McDermid Syndrome in Pediatric Patients With Novel Mutations: Genetic and Phenotypic Analyses

  • Liang Chen,
  • Zhi-ye Yao,
  • Xiangtao Wu,
  • Shao-ru He,
  • Yu-mei Liu,
  • Xue-yan Wang,
  • De-zhi Cao,
  • Xing-kun Yang,
  • Jian-bo Zhao,
  • Zi Ren,
  • Hong Li,
  • Zheng Pei,
  • Hong-ke Ding,
  • Zhi-chun Feng

DOI
https://doi.org/10.3389/fped.2022.888001
Journal volume & issue
Vol. 10

Abstract

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BackgroundPhelanrMcDermid syndrome (PMS) is an uncommon autosomal dominant inherited developmental disorder. The main characteristics are hypotonia, intellectual disability, autism spectrum disorder, autism-like behaviors and tiny facial deformities. Most cases are caused by the deletion of the 22q13 genomic region, including the deletion of SHANK3.MethodsGenetic and phenotype evaluations of ten Chinese pediatric patients were performed. The clinical phenotypes and genetic testing results were collected statistically. We analyzed the deletion of the 22q13 genomic region and small mutations in SHANK3 (GRCh37/hg19) and performed parental genotype verification to determine whether it was related to the parents or was a novel mutation.ResultsThe age of the patients diagnosed with PMS ranged from 0 to 12 years old. Nine of the pediatric patients experienced Intellectual Disability, language motion development delay and hypotonia as prominent clinical features. One subject had autism, two subjects had abnormal electroencephalogram discharge and one subject was aborted after fetal diagnosis. Three patients had a SHANK3 mutation or deletion. All but the aborted fetuses had intellectual disability. Among the ten patients, a deletion in the 22q13 region occurred in seven patients, with the smallest being 60.6 kb and the largest being >5.5 Mb. Three patients had heterozygous mutations in the SHANK3 gene.ConclusionAll ten patients had novel mutations, and three of these were missense or frameshift mutations. For the first time reported, it is predicted that the amino acid termination code may appear before protein synthesis. The novel mutations we discovered provide a reference for clinical research and the diagnosis of PMS.

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