BACKGROUND IFIH1 is a protein-coding gene.Disorders associated with IFIH1 include Aicardi-Goutières syndrome(AGS)type 7 and Singleton-Merten syndrome type 1.Related pathways include RIG-I/MDA5-mediated induction ...BACKGROUND IFIH1 is a protein-coding gene.Disorders associated with IFIH1 include Aicardi-Goutières syndrome(AGS)type 7 and Singleton-Merten syndrome type 1.Related pathways include RIG-I/MDA5-mediated induction of the interferon(IFN)-α/βpathway and the innate immune system.AGS type 7 is an autosomal dominant inflammatory disorder characterized by severe neurological impairment.In infancy,most patients present with psychomotor retardation,axial hypotonia,spasticity,and brain imaging changes Laboratory assessments showed increased IFN-αactivity with upregulation of IFN signaling and IFN-stimulated gene expression.Some patients develop normally in the early stage,and then have episodic neurological deficits.CASE SUMMARY The 5-year-old girl presented with postpartum height and weight growth retardation,language retardation,brain atrophy,convulsions,and growth hormone deficiency.DNA samples were obtained from peripheral blood from the child and her parents for whole-exome sequencing and test of genome-wide copy number variation.Heterozygous mutations in the IFIH1 gene were found.Physical examination at admission found that language development was delayed,the reaction to name calling was average,there was no communication with people,but there was eye contact,no social smile,and no autonomous language.However,the child had rich gesture language and body language,could understand instructions,had bad temper.When she wants to achieve something,she starts crying or shouting.Cardiopulmonary examination showed no obvious abnormality,and abdominal examination was normal.Bilateral muscle strength and muscle tone were symmetrical and slightly decreased.Physiological reflexes exist,but pathological reflexes were not elicited.CONCLUSION We reported the clinical characteristics of a Chinese child with a clinical diagnosis of AGS type 7,which expanded the mutational spectrum of the IFIH1 gene.展开更多
Aicardi-Goutières syndrome (AGS) is a rare inflammatory encephalopathy mimicking in utero acquired viral infection. Cardinal findings comprise leukodystrophy, basal ganglia calcifications and cerebral atrophy alo...Aicardi-Goutières syndrome (AGS) is a rare inflammatory encephalopathy mimicking in utero acquired viral infection. Cardinal findings comprise leukodystrophy, basal ganglia calcifications and cerebral atrophy along with cerebrospinal fluid lymphocytosis and elevated interferon-α. In the majority of cases AGS is inherited as an autosomal recessive trait and caused by mutations in six genes including RNASEH2A, RNASEH2B, RNASEH2C, TREX1, SAMHD1 and ADAR1, all of which encode enzymes acting on nucleic acid species. Most patients present with first neurological signs in early infancy and experience severe global developmental delay. Here, we report on the unusual divergent phenotype of two siblings who both carry the most frequent AGS causing p.A177T (c.529G > A) RNASEH2B mutation in the homozygous state. While one sibling showed a typical AGS presentation with early onset and severe statomotor and mental impairment, the older sibling was intellectually completely normal. She was only diagnosed because of mild spasticity of the legs and serological signs of autoimmunity. These findings highlight the phenotypic variability of AGS and suggest that AGS may be underdiagnosed among children with mild cerebral palsy.展开更多
文摘BACKGROUND IFIH1 is a protein-coding gene.Disorders associated with IFIH1 include Aicardi-Goutières syndrome(AGS)type 7 and Singleton-Merten syndrome type 1.Related pathways include RIG-I/MDA5-mediated induction of the interferon(IFN)-α/βpathway and the innate immune system.AGS type 7 is an autosomal dominant inflammatory disorder characterized by severe neurological impairment.In infancy,most patients present with psychomotor retardation,axial hypotonia,spasticity,and brain imaging changes Laboratory assessments showed increased IFN-αactivity with upregulation of IFN signaling and IFN-stimulated gene expression.Some patients develop normally in the early stage,and then have episodic neurological deficits.CASE SUMMARY The 5-year-old girl presented with postpartum height and weight growth retardation,language retardation,brain atrophy,convulsions,and growth hormone deficiency.DNA samples were obtained from peripheral blood from the child and her parents for whole-exome sequencing and test of genome-wide copy number variation.Heterozygous mutations in the IFIH1 gene were found.Physical examination at admission found that language development was delayed,the reaction to name calling was average,there was no communication with people,but there was eye contact,no social smile,and no autonomous language.However,the child had rich gesture language and body language,could understand instructions,had bad temper.When she wants to achieve something,she starts crying or shouting.Cardiopulmonary examination showed no obvious abnormality,and abdominal examination was normal.Bilateral muscle strength and muscle tone were symmetrical and slightly decreased.Physiological reflexes exist,but pathological reflexes were not elicited.CONCLUSION We reported the clinical characteristics of a Chinese child with a clinical diagnosis of AGS type 7,which expanded the mutational spectrum of the IFIH1 gene.
基金supported by the Deutsche Forschungsgemeinschaft(VT 421/2-1 to V.T.,LE 1074/4-1 to M.L.-K.)a MeDDrive grant of the Medical Faculty,TU Dresdensupport by the Deutsche Forschungsgemeinschaft and the Open Access Publication Funds of the TU Dresden
文摘Aicardi-Goutières syndrome (AGS) is a rare inflammatory encephalopathy mimicking in utero acquired viral infection. Cardinal findings comprise leukodystrophy, basal ganglia calcifications and cerebral atrophy along with cerebrospinal fluid lymphocytosis and elevated interferon-α. In the majority of cases AGS is inherited as an autosomal recessive trait and caused by mutations in six genes including RNASEH2A, RNASEH2B, RNASEH2C, TREX1, SAMHD1 and ADAR1, all of which encode enzymes acting on nucleic acid species. Most patients present with first neurological signs in early infancy and experience severe global developmental delay. Here, we report on the unusual divergent phenotype of two siblings who both carry the most frequent AGS causing p.A177T (c.529G > A) RNASEH2B mutation in the homozygous state. While one sibling showed a typical AGS presentation with early onset and severe statomotor and mental impairment, the older sibling was intellectually completely normal. She was only diagnosed because of mild spasticity of the legs and serological signs of autoimmunity. These findings highlight the phenotypic variability of AGS and suggest that AGS may be underdiagnosed among children with mild cerebral palsy.
