Biallelic loss of function variant in the unfolded protein response gene PDIA6 is associated with asphyxiating thoracic dystrophy and neonatal-onset diabetes.

Protein disulfide isomerase A6 (PDIA6) is an unfolded protein response (UPR)-regulating protein. PDIA6 regulates the UPR sensing proteins, Inositol requiring enzyme 1, and EIF2AK3. Biallelic inactivation of the two genes in mice and humans resulted in embryonic lethality, diabetes, skeletal defects, and renal insufficiency. We recently showed that PDIA6 inactivation in mice caused embryonic and early lethality, diabetes and immunodeficiency. Here, we present a case with asphyxiating thoracic dystrophy (ATD) syndrome and infantile-onset diabetes. Whole exome sequencing revealed a homozygous frameshift variant in the PDIA6 gene. RNA expression was reduced in a gene dosage-dependent manner, supporting a loss-of-function effect of this variant. Phenotypic correlation with the mouse model recapitulated the growth defect and delay, early lethality, coagulation, diabetes, immunological, and polycystic kidney disease phenotypes. In general, the phenotype of the current patient is consistent with phenotypes associated with the disruption of PDIA6 and the sensors of UPR in mice and humans. This is the first study to associate ATD to the UPR gene, PDIA6. We recommend screening ATD cases with or without insulin-dependent diabetes for variants in PDIA6.

Common atrium/atrioventricular canal defect and postaxial polydactyly: A mild clinical subtype of Ellis-van Creveld syndrome caused by hypomorphic mutations in the EVC gene.

Clinical expression of Ellis-van Creveld syndrome (EvC) is variable and mild phenotypes have been described, including patients with mostly cardiac and limb involvement. Whether these cases are part of the EvC phenotypic spectrum or separate conditions is disputed. Herein, we describe a family with vertical transmission of atrioventricular canal defect (AVCD), common atrium, and postaxial polydactyly. Targeted sequencing of EVC, EVC2, WDR35, DYNC2LI1, and DYNC2H1 identified different compound heterozygosity in EVC genotypes in the two affected members, consisting of a nonsense (p.Arg622Ter) and a missense (p.Arg663Pro) variant in the father, and the same nonsense variant and a noncanonical splice-site in-frame change (c.1316-7A>G) in the daughter. Complementary DNA sequencing, immunoblot, and immunofluorescence experiments using patient-derived fibroblasts and Evc-/- mouse embryonic fibroblasts showed that p.Arg622Ter is a loss-of-function mutation, whereas p.Arg663Pro and the splice-site change c.1316-7A>G are hypomorphic variants resulting in proteins that retain, in part, the ability to complex with EVC2. Our molecular and functional data demonstrate that at least in some cases the condition characterized as "common atrium/AVCD with postaxial polydactyly" is a mild form of EvC due to hypomorphic EVC mutations, further supporting the occurrence of genotype-phenotype correlations in this syndrome.

Mutations in DYNC2H1, the cytoplasmic dynein 2, heavy chain 1 motor protein gene, cause short-rib polydactyly type I, Saldino-Noonan type.

The short-rib polydactyly syndromes (SRPS) are autosomal recessively inherited, genetically heterogeneous skeletal ciliopathies. SRPS phenotypes were historically categorized as types I-IV, with type I first delineated by Saldino and Noonan in 1972. Characteristic findings among all forms of SRP include short horizontal ribs, short limbs and polydactyly. The SRP type I phenotype is characterized by a very small thorax, extreme micromelia, very short, poorly mineralized long bones, and multiple organ system anomalies. To date, the molecular basis of this most severe type of SRP, also known as Saldino-Noonan syndrome, has not been determined. We identified three SRP cases that fit the original phenotypic description of SRP type I. In all three cases, exome sequence analysis revealed compound heterozygosity for mutations in DYNC2H1, which encodes the main component of the retrograde IFT A motor, cytoplasmic dynein 2 heavy chain 1. Thus SRP type I, II, III and asphyxiating thoracic dystrophy (ATD), which also result from DYNC2H1 mutations. Herein we describe the phenotypic features, radiographic findings, and molecular basis of SRP type I.

Short-rib polydactyly and Jeune syndromes are caused by mutations in WDR60.

Short-rib polydactyly syndromes (SRPS I-V) are a group of lethal congenital disorders characterized by shortening of the ribs and long bones, polydactyly, and a range of extraskeletal phenotypes. A number of other disorders in this grouping, including Jeune and Ellis-van Creveld syndromes, have an overlapping but generally milder phenotype. Collectively, these short-rib dysplasias (with or without polydactyly) share a common underlying defect in primary cilium function and form a subset of the ciliopathy disease spectrum. By using whole-exome capture and massive parallel sequencing of DNA from an affected Australian individual with SRPS type III, we detected two novel heterozygous mutations in WDR60, a relatively uncharacterized gene. These mutations segregated appropriately in the unaffected parents and another affected family member, confirming compound heterozygosity, and both were predicted to have a damaging effect on the protein. Analysis of an additional 54 skeletal ciliopathy exomes identified compound heterozygous mutations in WDR60 in a Spanish individual with Jeune syndrome of relatively mild presentation. Of note, these two families share one novel WDR60 missense mutation, although haplotype analysis suggested no shared ancestry. We further show that WDR60 localizes at the base of the primary cilium in wild-type human chondrocytes, and analysis of fibroblasts from affected individuals revealed a defect in ciliogenesis and aberrant accumulation of the GLI2 transcription factor at the centrosome or basal body in the absence of an obvious axoneme. These findings show that WDR60 mutations can cause skeletal ciliopathies and suggest a role for WDR60 in ciliogenesis.

Asphyxiating thoracic dysplasia: clinical and molecular review of 39 families.

BACKGROUND: Asphyxiating Thoracic Dysplasia (ATD) belongs to the short rib polydactyly group and is characterized by a narrow thorax, short long bones and trident acetabular roof. Other reported features include polydactyly, renal, liver and retinal involvement. To date, mutations in IFT80, DYNC2H1, TTC21B and WDR19 have been reported in ATD. The clinical and molecular heterogeneity leads to difficulties in the evaluation of the long-term prognosis. METHODS: We investigated 53 ATD cases (23 living cases and 30 fetuses) from 39 families. They benefited from a combined approach of deep phenotyping and IFT80 and DYNC2H1 molecular screening. RESULTS: Among the 23 postnatal cases, pulmonary insufficiency was noted in 60% of cases, with tracheotomy requirement in five cases. Renal and liver diseases occurred respectively in 17% and 22% of cases, whereas retinal alteration was present in 50% of cases aged more than 5 years. We identified DYNC2H1 mutations in 23 families (59%) and IFT80 mutations in two families (5%). However, in six families, only one heterozygote mutation in either IFT80 or DYNC2H1 was identified. Finally, the two genes were excluded in 14 families (36%). CONCLUSIONS: We conclude that DYNC2H1 is a major gene responsible for ATD, while IFT80 is rarely involved. The presence of only one mutation in six families and the exclusion of the two genes in 14 families support the involvement of other causal cilia genes. The long-term follow up emphasizes that the pulmonary prognosis is probably less pejorative and retinal involvement more frequent than previously thought.

Ultrasound diagnosis of recurring Jeune's syndrome: a case report.

Jeune's Syndrome or asphyxiating thoracic dystrophy (ATD) is a rare autosomal recessive skeletal dysplasia syndrome characterized by a small and narrow chest, short extremities, and often polydactyly associated with multiple organ manifestations. The severity of complications ranges from mild to lethal. This is a report of two cases of ATD diagnosed in successive pregnancies of a nonconsanguineous couple. The contribution of sonography in prenatal diagnosis of the syndrome is highlighted.

Clinical features and genetic analysis of a case series of skeletal ciliopathies in a prenatal setting.

BACKGROUND: Short-rib polydactyly syndrome (SRPS) refers to a group of lethal skeletal dysplasias that can be difficult to differentiate between subtypes or from other non-lethal skeletal dysplasias such as Ellis-van Creveld syndrome and Jeune syndrome in a prenatal setting. We report the ultrasound and genetic findings of four unrelated fetuses with skeletal dysplasias. METHODS: Systemic prenatal ultrasound examination was performed in the second or third trimester. Genetic tests including GTG-banding, single nucleotide polymorphism (SNP) array and exome sequencing were performed with amniocytes or aborted fetal tissues. RESULTS: The major and common ultrasound anomalies for the four unrelated fetuses included short long bones of the limbs and narrow thorax. No chromosomal abnormalities and pathogenic copy number variations were detected. Exome sequencing revealed three novel variants in the DYNC2H1 gene, namely NM_001080463.2:c.6809G > A p.(Arg2270Gln), NM_001080463.2:3133C > T p.(Gln1045Ter), and NM_001080463.2:c.337C > T p.(Arg113Trp); one novel variant in the IFT172 gene, NM_015662.3:4540-5 T > A; and one novel variant in the WDR19 gene, NM_025132.4:c.2596G > C p.(Gly866Arg). The genotypes of DYNC2H1, IFT172 and WDR19 and the phenotypes of the fetuses give hints for the diagnosis of short-rib thoracic dysplasia (SRTD) with or without polydactyly 3, 10, and 5, respectively. CONCLUSION: Our findings expand the mutation spectrum of DYNC2H1, IFT172 and WDR19 associated with skeletal ciliopathies, and provide useful information for prenatal diagnosis and genetic counseling on rare skeletal disorders.

Ellis van creveld syndrome: Cardiac anomalies and anesthetic implications.

Ellis-Van Creveld syndrome (EVC), also known as mesoectodermal dysplasia, is a rare autosomal recessive disorder with a tetrad of clinical features, comprising dwarfism, polydactyly, ectodermal dysplasia with sparse hair, hypoplastic nails and enamel, hypodontia and conical teeth and congenital heart disease (CHD). We report an 18-year-old girl with short stature and polydactyly, who got admitted to our hospital with shortness of breath on exertion for the last 2 years. On echocardiography, a partial atrioventricular canal (AV canal) defect was diagnosed, which was repaired surgically. The patient had an uneventful perioperative period.

Late survival in Ellis-van Creveld syndrome - a case report.

Ellis-van Creveld syndrome (EVC) is an autosomal recessive disorder characterized by chondrodystrophy, polydactyly, ectodermal dysplasia, and cardiac anomalies. Acromelic shortening of upper and lower limbs, genu valgum, multiple frenula, deformed teeth, short ribs and narrow thorax and congenital heart diseases complete the picture. The patients with the syndrome rarely survive into adulthood. Here, we report a lady with EVC presenting for the first time in middle age.

Prenatal diagnosis of Jeune-like syndromes with two-dimensional and three-dimensional sonography.

The purpose of this article is to describe the use of three-dimensional sonography as an adjuvant to two-dimensional sonography facilitating an earlier and more definitive diagnosis of Jeune and Jeune-like syndromes in the second trimester. We report two cases in which three-dimensional sonography facilitated the diagnosis of these malformations. A diagnosis of Jeune syndrome was made in our first case. Our second case was found to be short-rib polydactyly syndrome Type IV. Three-dimensional skeletal survey visualized short ribs, short limbs, the presence of normal scapulae, and the absence of polydactyly in both cases. Three-dimensional sonography can assist two-dimensional sonography in providing a more accurate display of skeletal anomalies, limb abnormalities, and facial features.

RETINAL DYSTROPHY IN JEUNE SYNDROME: A MULTIMODAL IMAGING CHARACTERIZATION.

PURPOSE: To report multimodal imaging findings in a patient affected by Jeune syndrome-associated retinal dystrophy. METHODS: Observational case report. RESULTS: An 18-year-old girl affected by Jeune syndrome was referred to our low vision unit. She presented with bilateral high myopia, reduced visual acuity, exotropia, and nystagmus. Fundus examination detected posterior myopic staphyloma and diffuse retinal dystrophy confirmed using a full-field electroretinogram as a cone-rod dystrophy. Spectral domain optical coherence tomography detected a thick anomalous hyperreflective band located beneath an irregular and disrupted external limiting membrane, showing the primary involvement of the photoreceptors outer segment with relative sparing of the retinal pigment epithelium, as confirmed by fundus autofluorescence. CONCLUSION: This is a case of Jeune syndrome with retinal abnormalities studied with fundus autofluorescence and optical coherence tomography. Retinal noninvasive multimodal imaging could provide significant insight in the retinal involvement of patients affected by Jeune syndrome and should have an essential role in the multidisciplinary diagnostic approach and follow-up.

Skeletal ciliopathies: a pattern recognition approach.

Ciliopathy encompasses a diverse group of autosomal recessive genetic disorders caused by mutations in genes coding for components of the primary cilia. Skeletal ciliopathy forms a subset of ciliopathies characterized by distinctive skeletal changes. Common skeletal ciliopathies include Jeune asphyxiating thoracic dysplasia, Ellis-van Creveld syndrome, Sensenbrenner syndrome, and short-rib polydactyly syndromes. These disorders share common clinical and radiological features. The clinical hallmarks comprise thoracic hypoplasia with respiratory failure, body disproportion with a normal trunk length and short limbs, and severely short digits occasionally accompanied by polydactyly. Reflecting the clinical features, the radiological hallmarks consist of a narrow thorax caused by extremely short ribs, normal or only mildly affected spine, shortening of the tubular bones, and severe brachydactyly with or without polydactyly. Other radiological clues include trident ilia/pelvis and cone-shaped epiphysis. Skeletal ciliopathies are commonly associated with extraskeletal anomalies, such as progressive renal degeneration, liver disease, retinopathy, cardiac anomalies, and cerebellar abnormalities. In this article, we discuss the radiological pattern recognition approach to skeletal ciliopathies. We also describe the clinical and genetic features of skeletal ciliopathies that the radiologists should know for them to play an appropriate role in multidisciplinary care and scientific advancement of these complicated disorders.

Ellis-van Creveld syndrome and Weyers acrodental dysostosis are caused by cilia-mediated diminished response to hedgehog ligands.

Ellis-van Creveld syndrome (EvC; OMIM 225500) is a recessive disorder comprising chondrodysplasia, polydactyly, nail dysplasia, orofacial abnormalities and, in a proportion of patients, cardiovascular malformations. Weyers acrodental dysostosis (Weyers; OMIM 193530) is an allelic dominant disorder comprising polydactyly, nail dysplasia, and orofacial abnormalities. EvC results from loss-of-function mutations in EVC or EVC2, the phenotype associated with the mutations in these two genes being indistinguishable. Three convincing causative mutations have been identified in patients with Weyers acrodental dysostosis, which are clustered in the last coding exon of EVC2 and lead to production of a truncated protein lacking the final 43 amino acids. Localization and function of EVC and EVC2 are inferred from studying the murine orthologs. Both Evc and Evc2 proteins localize to the basal bodies of primary cilia and analysis of an Ellis-van Creveld mouse model, which includes the limb shortening and tooth abnormalities of EvC patients, has demonstrated Hedgehog signaling defects in the absence of Evc. The loss of Evc2 has not been studied directly, but Hedgehog signaling is impaired when a mutant murine Evc2 Weyer variant is expressed in vitro. We conclude that the phenotypic abnormalities in EvC and Weyers syndrome result from tissue specific disruption of the response to Hh ligands.

Congenital heart diseases associated with identified syndromes and other extra-cardiac congenital malformations in children in Lagos.

BACKGROUND: Congenital heart diseases are commonly associated with other extra cardiac congenital malformations. OBJECTIVE: To identify congenital heart diseases associated with identified syndromes and other extra cardiac congenital malformations in children in our hospital. METHODS: A prospective descriptive study done on children with congenital malformations referred to the Lagos University Teaching Hospital, Nigeria (LUTH) for echocardiographic evaluation. A thorough 2D assessment of the chambers, septa, heart vessels and concordance of the atrium and ventricle and the great vessels was made. Echo-cardiographic data obtained included M mode direct measurements of dimensions of left atrium, aortic root, right ventricular outflow tract, left ventricle in diastole/systole, wall thicknesses--right ventricular wall, interventricular septum, left ventricular posterior wall. Fractional shortening was derived from M mode data. Final diagnosis of the congenital heart disease was recorded. RESULTS: A total of 101 children with congenital malformations had echocardiography studies done as part of their clinical evaluation, 15 (14.9%) were neonates, 53 (52.5%) infants 25 (24.8%) were aged one to five years and 8 (7.9%) were above five years of age. Recognised syndromes were seen in 69 (68%) cases. Down syndrome with 54 children contributed 78.3% of those with known syndromes. Other identified syndromes and associations were Marfan's, Noonan's, Edwards, Prune Belly, Apert, Ellis-van Creveld syndrome and congenital rubella syndrome. Congenital heart diseases were detected in 73 (72.3%) patients while 28 (27.7%) had no heart defect. The commonest identified congenital heart disease was ventricular septal defect affecting 30 (29.7%) patients. CONCLUSION: Congenital heart diseases are common in children with congenital malformations. Down syndrome was the most common malformation and the congenital heart disease most associated with the congenital malformations was ventricular septal defect. This study emphasizes the need for cardiac assessment of children with congenital malformations.

Extending the spectrum of Ellis van Creveld syndrome: a large family with a mild mutation in the EVC gene.

BACKGROUND: Ellis-van Creveld (EvC) syndrome is characterized by short limbs, short ribs, postaxial polydactyly, dysplastic nails and teeth and is inherited in an autosomal recessive pattern. We report a family with complex septal cardiac defects, rhizomelic limb shortening, and polydactyly, without the typical lip, dental, and nail abnormalities of EvC. The phenotype was inherited in an autosomal recessive pattern, with one instance of pseudodominant inheritance. METHODS: Because of the phenotypic overlap with EvC, microsatellite markers were used to test for linkage to the EVC/EVC2 locus. The results did not exclude linkage, so samples were sequenced for mutations. RESULTS: We identified a c.1868T>C mutation in EVC, which predicts p.L623P, and was homozygous in affected individuals. CONCLUSION: We conclude that this EVC mutation is hypomorphic and that such mutations can cause a phenotype of cardiac and limb defects that is less severe than typical EvC. EVC mutation analysis should be considered in patients with cardiac and limb malformations, even if they do not manifest typical EvC syndrome.

The Role of Ellis-Van Creveld 2(EVC2) in Mice During Cranial Bone Development.

EvC syndrome is a type of autosomal-recessive chondrodysplasia. Previous case studies in patients suggest abnormal craniofacial development, in addition to dwarfism and tooth abnormalities. To investigate how craniofacial development is affected in EvC patients, surface models were generated from micro-CT scans of control mice, Evc2 global mutant mice and Evc2 neural crest-specific mutant mice. The anatomic landmarks were placed on the surface model to assess the morphological abnormalities in the Evc2 mutants. Through analyzing the linear and angular measurements between landmarks, we identified a smaller overall skull, shorter nasal bone, shorter frontal bone, and shorter cranial base in the Evc2 global mutants. By comparing neural crest-specific Evc2 mutants with control mice, we demonstrated that the abnormalities within the mid-facial regions are not accounted for by the Evc2 mutation within these regions. Additionally, we also identified disproportionate length to width ratios in the Evc2 mutants at all levels from anterior to posterior of the skull. Overall, this study demonstrates a more comprehensive analysis on the craniofacial morphological abnormalities in EvC syndrome and provides the developmental insight to appreciate the impact of Evc2 mutation within the neural crest cells on multiple aspects of skull deformities. Anat Rec, 2017. © 2017 Wiley Periodicals, Inc. Anat Rec, 301:46-55, 2018. © 2017 Wiley Periodicals, Inc.

Anesthetic Management of a Child With Jeune Syndrome for Tracheotomy: A Case Report.

Jeune syndrome is a rare autosomal-recessive skeletal disorder. Anesthetic management of these patients is often difficult because of thoracic and lung hypoplasia. A 5-month-old boy with Jeune syndrome was scheduled to undergo a tracheotomy. Despite 5-minute preoxygenation with continuous positive airway pressure, the patient's oxygen saturation rapidly dropped during the induction of anesthesia. The continuous positive airway pressure should have been titrated to effective tidal volume during preoxygenation to recruit the patient's functional residual capacity and to prevent desaturation. During tracheotomy, volume-controlled ventilation with a high respiratory rate and sufficient inspiratory time effectively improved the patient's respiratory status.

[Clinical, radiological and auxologic long-term evolution of 8 children with asphyxiating thoracic dysplasia]. / Evolución clínica, radiológica y auxológica a largo plazo de 8 niños con displasia torácica asfixiante.

UNLABELLED: Asphyxiating thoracic dysplasia is an uncommon condition with multiple organ affectation and high neonatal mortality. It presents with short stature, short extremities, narrow thorax. With growth, there is respiratory improvement, but emergence of renal, hepatic, pancreatic and/or retinal impairment. OBJECTIVE: to describe the long-term evolution of 8 patients of a pediatric hospital. METHODS: we retrospectively evaluated age at diagnosis, sex, anthropometric variables, complications and radiology. RESULTS: male/female 6/2. Median age at diagnosis: 2.54 years. EVOLUTION: 8/8 respiratory compromise, 3/8 kidney, liver 2/8, 1/8 ophthalmologic, cardiac 1/8. Median height at diagnosis -1.76 DS, normal postnatal growth and body proportions. Radiology: 8/8 narrow chest and brachyphalangia in hands. 5/8 acetabular abnormalities. DISCUSSION: for surveillance it is recommended to monitor renal, liver and eye function. The pediatrician should suspect this entity in a newborn with narrow thorax and respiratory distress.

[Clinical case of Jeune syndrome].

The paper reports a clinical case of Jeune syndrome in a baby, in whom the diagnosis was established immediately after his birth. He was also diagnosed as having multiple congenital malformations, such as Dandy-Walker anomaly, hexadactyly of the left hand, cleft palate, choroidal colobomas in both eyes, and atrial septal defect and he also had interstitial nephritis and hepatitis.

Skeletal histopathology in fetuses with chondroectodermal dysplasia (Ellis-van Creveld syndrome).

Chondroectodermal dysplasia (CED) is an uncommon autosomal recessive disorder and one of the short rib polydactyly syndromes (SRPS). It is characterized by acromelic and mesomelic shortness of limbs, postaxial polydactyly, small chest, ectodermal dysplasia, and in many cases, congenital heart defects. Controversy exists over possible changes in the growth plate. With the advent of ultrasonographic examination, increasing numbers of fetuses with osteochondrodysplasias are examined by pathologists. Since histopathologic examination of the skeletal system is useful in defining various osteochondrodysplasias and it has not been described in the fetus with CED, we herein describe 3 cases of fetal CED with emphasis on skeletal histopathology. All 3 pregnancies were terminated at 22-23 weeks because of ultrasonographic demonstration of short limbs and growth retardation. Radiologically, each fetus had acromelic and mesomelic shortness of long bones with smooth round metaphyses, vertically short iliac bones, short ribs and normal vertebrae. These findings are similar to those described in the larger newborn infant with CED. Histopathologically, the cartilage of the long bones showed chondrocytic disorganization in the physeal growth zone. The findings are dissimilar to those of larger infants and older children in whom chondrocytic columnization has been seen in the central physis and disorganization in peripheral physis. Furthermore, a variable degree of chondrocytic disorganization was also seen in the central physeal growth zone of vertebrae in these fetuses. Other findings noted at fetopsy were: polydactyly in all 3 cases, congenital heart defect in 2 and an abnormal frenulum in one case. The foregoing phenotypic and radiographic manifestations and skeletal histopathology help separate CED from other SRPS.