Clinical and genetic heterogeneity in Dubowitz syndrome: Implications for diagnosis, management and further research

Innes, A. Micheil; McInnes, Brenda; Dyment, David A.

doi:10.1002/ajmg.c.31661

Cited by 16 publications

(17 citation statements)

References 63 publications

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“…The combined set of 7 novel candidate genes (Supplemental Table S2), 16 genes offering an alternative diagnosis (Table 2), and 8 DubS genes from the literature (Innes et al, 2018) exhibited significant PPI enrichment: 29 observed edges, 12 expected, PPI enrichment p ‐value = 4.5e‐05. The network, shown in Figure 2, captures four clusters: the two smallest clusters connecting our novel candidate genes to genes previously implicated in DubS under a recessive model: CDK11B to PCNT and VPS13B to UBE3B (Dieks et al, 2014; Innes et al, 2018); a second cluster driven by the genes within the chromosome X deletion observed in one case (note HDHD1 is another name for PUDP ); and a large cluster capturing many genes underlying syndromes similar to DubS and one of our novel candidate genes, TOP2A . This set of 27 genes is significantly enriched in 37 GO:Biological Processes (Supplemental Table S3).…”

Section: Resultsmentioning

confidence: 99%

“…We hypothesized that the genes implicated by our analyses share biological pathways with each other and the genes underlying single gene disorders previously implicated in individuals diagnosed with DubS). The novel candidate genes, the genes driving alternative diagnoses among our cases and the genes implicated in the literature for individuals clinically diagnosed with DubS (Innes et al, 2018) were provided to STRING‐db (v11.0) (Szklarczyk et al, 2019) to assess for common pathways or interactions (Figure 1). This was performed by using human reference data, only the queried proteins, protein–protein interaction (PPI) data from known interactions (curated databases, experimentally determined), predicted interactions based on gene fusions and gene co‐occurrence, co‐expression, protein homology, and text mining; medium confidence (0.400) was the minimum required for interaction scores.…”

Section: Methodsmentioning

confidence: 99%

“…A recognizable pattern of facial dysmorphology includes a sloping forehead, ptosis, telecanthus, blepharophimosis, facial asymmetry, and micrognathia (Dubowitz, 1965; Grosse et al, 1971). Since its original description, a significant degree of phenotypic variability has been recognized to be part of DubS (Innes, McInnes, & Dyment, 2018; Stewart et al, 2014; Tsukahara & Opitz, 1996). In the absence of a laboratory diagnostic biomarker or pathognomonic feature, the phenotypic expansion associated with the syndrome has led to discussion regarding its existence as a single unifying diagnosis (Dyment et al, 2018; O'Donnell‐Luria et al, 2018).…”

Section: Introductionmentioning

confidence: 99%

“…The observation of affected siblings in some families has suggested a potential autosomal recessive disease trait; however, no single gene, group of related genes, or common pathway has been identified to explain DubS (Innes et al, 2018). Biallelic variants in LIG4 have been identified in two families with a clinical diagnosis of DubS (Gruhn et al, 2007; Stewart et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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Alternative genomic diagnoses for individuals with a clinical diagnosis of Dubowitz syndrome

Dyment¹,

O’Donnell-Luria²,

Agrawal³

et al. 2020

American J of Med Genetics Pt A

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Dubowitz syndrome (DubS) is considered a recognizable syndrome characterized by a distinctive facial appearance and deficits in growth and development. There have been over 200 individuals reported with Dubowitz or a “Dubowitz‐like” condition, although no single gene has been implicated as responsible for its cause. We have performed exome (ES) or genome sequencing (GS) for 31 individuals clinically diagnosed with DubS. After genome‐wide sequencing, rare variant filtering and computational and Mendelian genomic analyses, a presumptive molecular diagnosis was made in 13/27 (48%) families. The molecular diagnoses included biallelic variants in SKIV2L, SLC35C1, BRCA1, NSUN2; de novo variants in ARID1B, ARID1A, CREBBP, POGZ, TAF1, HDAC8, and copy‐number variation at1p36.11(ARID1A), 8q22.2(VPS13B), Xp22, and Xq13(HDAC8). Variants of unknown significance in known disease genes, and also in genes of uncertain significance, were observed in 7/27 (26%) additional families. Only one gene, HDAC8, could explain the phenotype in more than one family (N = 2). All but two of the genomic diagnoses were for genes discovered, or for conditions recognized, since the introduction of next‐generation sequencing. Overall, the DubS‐like clinical phenotype is associated with extensive locus heterogeneity and the molecular diagnoses made are for emerging clinical conditions sharing characteristic features that overlap the DubS phenotype.

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Section: Resultsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Alternative genomic diagnoses for individuals with a clinical diagnosis of Dubowitz syndrome

Dyment¹,

O’Donnell-Luria²,

Agrawal³

et al. 2020

American J of Med Genetics Pt A

Self Cite

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“…This issue of Seminars leads off with Dubowitz syndrome (MIM 223370), a condition first reported in 1965 and now reported more than 200 times (Dubowitz, ). In their research article, Innes, McInnes, and Dyment review the literature and provide evidence that both clinical and molecular/causal heterogeneity is likely the primary explanation why a major gene has yet to be identified for this disorder (Innes, McInnes, & Dyment, ). The same phenomenon is likely underlying the complexity of other recognizable conditions not included in this issue, including Toriello‐Carey syndrome (Toriello, Colley, & Bamshad, ), Fryns syndrome (Bone et al, ; Thompson & Cole, ), PEHO syndrome (Chitre et al, ), and 3C syndrome (Elliott et al, ; Kolanczyk et al, ).…”

Section: Themes Of the Issuementioning

confidence: 91%

Unsolved recognizable patterns of human malformation: Challenges and opportunities

2018

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Due to the efforts of the clinical and scientific communities and boosted by recent advances in genetic technologies, we now understand the molecular mechanisms underlying most of the frequent and recognizable human malformation syndromes. However, some well‐established human malformation syndromes remain without a molecular diagnosis despite intensive investigation. This issue of Seminars mines the phenotypic entries in OMIM and estimates that of the documented 2,034 unsolved entries likely to represent a rare genetic disease, only 160 are well‐established and possibly amenable to investigation. This issue also reviews well‐characterized and extensively investigated human malformation syndromes and associations that remain unsolved, including the following: Dubowitz syndrome (MIM 223370%), Hallermann–Streiff syndrome (MIM 234100%), PHACE syndrome (MIM 606519), Oculocerebrocutaneous syndrome (MIM 164180), Aicardi syndrome (MIM 304050%), Gomez–Lopez–Hernandez syndrome and Rhombencephalosynapsis (MIM 601853%), VACTERL (MIM 192350%), and Nablus syndrome (MIM #608156). Possible explanations for their intractability to molecular diagnosis are explored, including genetic and phenotypic heterogeneity, mosaicism, epigenetics, gene–environment interactions, and other non‐Mendelian contributions. Finally, this issue of Seminars presents a path forward for these unsolved rare conditions and suggests a renewed focus on solving amendable OMIM disorders. It is clear that the way forward will require new technologies, global cooperation, and data sharing; these will also be necessary to help reach the vision of the International Rare Diseases Research Consortium (IRDiRC), that is to enable all people living with a rare disease to receive an accurate diagnosis, care and available therapy within 1 year of coming to medical attention.

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Expanding the genotypic and phenotypic spectrum in a diverse cohort of 104 individuals with Wiedemann‐Steiner syndrome

Sheppard

Campbell

Harr

et al. 2021

American J of Med Genetics Pt A

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Wiedemann‐Steiner syndrome (WSS) is an autosomal dominant disorder caused by monoallelic variants in KMT2A and characterized by intellectual disability and hypertrichosis. We performed a retrospective, multicenter, observational study of 104 individuals with WSS from five continents to characterize the clinical and molecular spectrum of WSS in diverse populations, to identify physical features that may be more prevalent in White versus Black Indigenous People of Color individuals, to delineate genotype–phenotype correlations, to define developmental milestones, to describe the syndrome through adulthood, and to examine clinicians' differential diagnoses. Sixty‐nine of the 82 variants (84%) observed in the study were not previously reported in the literature. Common clinical features identified in the cohort included: developmental delay or intellectual disability (97%), constipation (63.8%), failure to thrive (67.7%), feeding difficulties (66.3%), hypertrichosis cubiti (57%), short stature (57.8%), and vertebral anomalies (46.9%). The median ages at walking and first words were 20 months and 18 months, respectively. Hypotonia was associated with loss of function (LoF) variants, and seizures were associated with non‐LoF variants. This study identifies genotype–phenotype correlations as well as race‐facial feature associations in an ethnically diverse cohort, and accurately defines developmental trajectories, medical comorbidities, and long‐term outcomes in individuals with WSS.

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Clinical and genetic heterogeneity in Dubowitz syndrome: Implications for diagnosis, management and further research

Cited by 16 publications

References 63 publications

Alternative genomic diagnoses for individuals with a clinical diagnosis of Dubowitz syndrome

Alternative genomic diagnoses for individuals with a clinical diagnosis of Dubowitz syndrome

Unsolved recognizable patterns of human malformation: Challenges and opportunities

Expanding the genotypic and phenotypic spectrum in a diverse cohort of 104 individuals with Wiedemann‐Steiner syndrome

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