Clinical and molecular spectrum of CHOPS syndrome

Raible, Sarah E.; Mehta, Daryush D.; Bettale, Chiara; Fiordaliso, Sarah K.; Kaur, Maninder; Medne, Līvija; Rio, Marlène; Haan, Eric; White, Susan; Cusmano‐Ozog, Kristina; Nishi, Eriko; Guo, Yiran; Wu, Honglin; Shi, Xiaojian; Zhao, Qing; Zhang, Xueqin; Liu, Qi; Lü, Aiping; Xi, He; Okamoto, Nobuhiko; Miyake, Noriko; Piccione, Joseph; Allen, Julian L.; Matsumoto, Naomichi; Pipan, Mary; Krantz, Ian D.; Izumi, Kosuke

doi:10.1002/ajmg.a.61174

Cited by 23 publications

(31 citation statements)

References 6 publications

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“…Consistent with this hypothesis, transiently transfected FLAG-tagged AFF3 A258S and AFF3 V260G proteins were more stable than wild-type FLAG-tagged AFF3 ( Figure 1E ). The previously reported AFF4 de novo variants p.(P253R), p.(T254A), p.(T254S), p.(A255T), p.(R258W) and p.(M260T) that also affect the degron motif (K P 253 T 254 A 255 YV R 258 P M 260 ) ( Figure 1A ) were similarly shown to reduce clearance of the ALF transcription factor by SIAH 16, 17 .…”

Section: Resultssupporting

confidence: 54%

“…All AFF3 variants described here and CHOPS syndrome-associated AFF4 de novo missense previously published 16, 17 map within the degron motif of the ALF domain. This highly conserved 9 amino acid sequence [xPxAxVxPx] ( Figure 1A-B ) mediates interaction with the SIAH E3 ubiquitin ligase and regulates their degradation 1 .…”

Section: Resultsmentioning

confidence: 76%

“…The sequences of the degron motif of AFF3 and AFF4 are shown above. The residues modified in the KINSSHIP probands described in this manuscript and individuals affected by CHOPS 16, 17 are highlighted in bold and numbered. The extent of the 500kb deletion previously described 35 is indicated here.…”

Section: Resultsmentioning

confidence: 99%

“…Six de novo missense variants in AFF4 were recently linked with CHOPS ( C ognitive impairment and coarse facies, H eart defects, O besity, P ulmonary problems, S hort stature and skeletal dysplasia) syndrome 16, 17 (OMIM#616368). They were suggested to act through reduced clearance of AFF4 by SIAH, a hypothesis supported by the fact that surviving adult Aff4 null mice have only azoospermia and no features of CHOPS syndrome.…”

Section: Introductionmentioning

confidence: 99%

“…Upregulation of AFF4 resulted in dysregulation of genes involved in skeletal development and anterior/posterior pattern formation such as MYC, JUN, TMEM100, ZNF711 and FAM13C 16 . These molecular changes were proposed to impair complex function and lead to cohesinopathies associated with the clinical phenotypes seen in the eleven reported individuals with CHOPS and in Cornelia de Lange syndrome (CdLS; OMIM #122470) 16, 17 .…”

Section: Introductionmentioning

confidence: 99%

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Variants in the degron ofAFF3cause a multi-system disorder with mesomelic dysplasia, horseshoe kidney and developmental and epileptic encephalopathy

Voisin

Schnur

Douzgou

et al. 2019

Preprint

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The ALF transcription factor paralogs,AFF1, AFF2, AFF3andAFF4, are components of the transcriptional super elongation complex that regulates expression of genes involved in neurogenesis and development. We describe a new autosomal dominant disorder associated withde novomissense variants in the degron of AFF3, a nine amino acid sequence important for its degradation. Consistent with a causative role ofAFF3variants, the mutated AFF3 proteins show reduced clearance. Ten affected individuals were identified, and present with a recognizable pattern of anomalies, which we named KINSSHIP syndrome (KI for horseshoeKIdney, NS forNievergelt/Savarirayan type of mesomelic dysplasia, S forSeizures, H forHypertrichosis, I forIntellectual disability and P forPulmonary involvement), partially overlapping theAFF4associated CHOPS syndrome. An eleventh individual with a microdeletion encompassing only the transactivation domain and degron motif ofAFF3exhibited overlapping clinical features. A zebrafish overexpression model that shows body axis anomalies provides further support for the pathological effect of increased amount of AFF3 protein.Whereas homozygousAff3knockout mice display skeletal anomalies, kidney defects, brain malformation and neurological anomalies, knock-in animals modeling the microdeletion and the missense variants identified in affected individuals presented with lower mesomelic limb deformities and early lethality, respectively.Transcriptome analyses as well as the partial phenotypic overlap of syndromes associated withAFF3andAFF4variants suggest that ALF transcription factors are not redundant in contrast to what was previously suggested

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Section: Resultssupporting

confidence: 54%

Section: Resultsmentioning

confidence: 76%

Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Variants in the degron ofAFF3cause a multi-system disorder with mesomelic dysplasia, horseshoe kidney and developmental and epileptic encephalopathy

Voisin

Schnur

Douzgou

et al. 2019

Preprint

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Syndromic and Nonsyndromic Obesity: Underlying Genetic Causes in Humans

Duis

Butler

2022

Advanced Biology

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cardiovascular disease, hypertension, cancers, orthopedic problems, and reduced fertility.Genetic factors can be classified as monogenic or caused by variants of single genes, polygenic involving several interacting genes, or syndromes accompanying obesity and recognized phenotypes. Neurological dysfunction or abnormal regulation of energy utilization, expenditure or storage via hormone production, transport or receptors impact overall energy homeostasis. [1,2] Furthermore, heritability estimates indicate that genetic factors may contribute to up to 70% of obesity, primarily affecting genetic pathways common in lipid metabolism, fat deposition or lipid transport, eating behavior, food selection and hormones, physical activity or energy expenditure based on studies from monozygotic twins reared apart and living in a different environment. [3] Heritability estimates do increase from infancy through adolescence. Over 10 000 references in the medical literature were identified when searching for obesity genes and syndromes with approximately 80 recorded obesityrelated syndromes. [1][2][3][4][5] The prevalence estimates for monogenic obesity syndromes range from about one in 550 to aprroximately one in 1 million. [5] Clinical findings identified in genetic obesity syndromes often overlap, as found in at least 52 related obesity syndromes displaying some form of intellectual disability while seven syndromes present with macrocephaly and seven syndromes with microcephaly. [5] Obesity syndromes may exhibit complex patterns of inheritance including autosomal dominant (e.g., Alstrom), autosomal recessive (e.g., Carpenter), X-linked (e.g., Borjeson-Forssman-Lehmann), errors in genomic imprinting (e.g., Prader-Willi), triallelic inheritance (e.g., Bardet-Biedel) or chromosome anomalies (e.g., 16p11.2 deletion). Hormonal Pathways and Genetic RegulationHormones and their role in appetite control and weight regulation are now an active area of research with clinical trials often focusing on hyperphagia and overeating, common in rare obesity-related disorders such as Prader-Willi syndrome. [6] Eating hormones are becoming increasingly recognized as playing a role in the central nervous system (CNS), particularly regions Growing evidence supports syndromic and nonsyndromic causes of obesity, including genome-wide association studies, candidate gene analysis, advanced genetic technology using next-generation sequencing (NGS), and identification of copy number variants. Identification of susceptibility genes impacts mechanistic understanding and informs precision medicine. The cause of obesity is heterogeneous with complex biological processes playing a role by controlling peptides involved in regulating appetite and food intake, cellular energy, and metabolism. Evidence for heritability shows genetic components contributing to 40%-70% of obesity. Monogenic causes and obesity-related syndromes are discussed and illustrated as well as biological pathways, gene interactions, and factors contributing to the obesity phenotype. Over 550...

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Clinical study and genetic analysis of Cornelia de Lange syndrome caused by a novel MAU2 gene variant in a Chinese boy

Peng,

Zhu,

et al. 2023

Molec Gen & Gen Med

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BackgroundCornelia de Lange syndrome (CdLS) is mainly characterized by specific facial features, growth retardation, and bone deformities. Seven genes reportedly cause CdLS. Recent research has reported that loss‐of‐function variants affecting MAU2, which encodes a regulator of the cohesin complex, can cause CdLS. Thus far, only one MAU2‐CdLS case has been reported worldwide.MethodsWe detected a novel variant in MAU2 gene, NM_015329, c.526C>T (p.Arg176Trp) in a Chinese patient with CdLS, constructed a plasmid for in vitro transcriptional and protein level analysis, and analyzed the interaction between the MAU2/NIPBL complex using molecular dynamics (MD).ResultsThe results showed that the level of the exogenous MAU2 mutant protein was significantly reduced compared with that of the exogenous wild‐type protein. However, MD analysis predicted an increased binding free energy between the MAU2 and NIPBL proteins that may impact the structural stability of the complex.ConclusionWe investigated a MAU2‐CdLS case in a Chinese family, which strengthens the association between MAU2 variants and CdLS phenotypes. We therefore propose that MAU2 be included in the CdLS gene screening list.

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Clinical and molecular spectrum of CHOPS syndrome

Cited by 23 publications

References 6 publications

Variants in the degron ofAFF3cause a multi-system disorder with mesomelic dysplasia, horseshoe kidney and developmental and epileptic encephalopathy

Variants in the degron ofAFF3cause a multi-system disorder with mesomelic dysplasia, horseshoe kidney and developmental and epileptic encephalopathy

Syndromic and Nonsyndromic Obesity: Underlying Genetic Causes in Humans

Clinical study and genetic analysis of Cornelia de Lange syndrome caused by a novel MAU2 gene variant in a Chinese boy

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