Expanding the mutation and clinical spectrum of Roberts syndrome

Thalidomide-induced limb malformations: an update and reevaluation

Historically, thalidomide-induced congenital malformations have served as an important example of the enhanced susceptibility of developing embryos to chemical perturbation. The compound produced a wide variety of congenital malformations in humans, which were initially detected by an association with a relatively rare limb defect labeled phocomelia. Although true phocomelia in the most severe form is a transverse defect with intercalary absence of limb regions, it is proposed that thalidomide produces a longitudinal limb phenotype in humans under usual circumstances that can become transverse in severe cases with a preferential sensitivity of forelimb over hindlimb, preaxial over postaxial, and left more impacted than the corresponding non-autopod limb bones on the right. The thalidomide-induced limb phenotype in humans is described and followed by a hierarchical comparison with various laboratory animal species. Mechanistic studies have been hampered by the fact that only non-human primates and rabbits have malformations that are anatomically similar to humans. Included in this review are unpublished data on limb malformations produced by thalidomide in rhesus monkeys from experiments performed more than 50 years ago. The critical period in gestation for the induction of phocomelia may initiate prior to the development of the embryonic limb bud, which contrasts with other chemical and physical agents that are known to produce this phenotype. The importance of toxicokinetic parameters is reviewed including dose, enantiomers, absorption, distribution, and both non-enzymatic and enzymatic biotransformations. The limb embryopathy mechanism that provides a partial explanation of the limb phenotype is that cereblon binds to thalidomide creating a protein complex that ubiquitinates protein substrates (CRL4CRBN) that are not targets for the complex in the absence of the thalidomide. One of these neosubstrates is SALL4 which when mutated causes a syndrome that phenocopies aspects of thalidomide embryopathy. Other candidate neosubstrates for the complex that have been found in non-human species may contribute to an understanding of the limb defect including PLZF, p63, and various zinc finger transcription factors. It is proposed that it is important to consider the species-specificity of the compound when considering potential mechanistic pathways and that some of the more traditional mechanisms for explaining the embryopathy, such as anti-angiogenesis and redox perturbation, may contribute to a full understanding of this teratogen.

Unique Roberts syndrome with bilateral congenital glaucoma: A case report

BACKGROUND

Congenital glaucoma associated with Roberts syndrome (RS) is an unusual and unique condition. No previous report describes this association. A multidisciplinary approach including molecular studies were conducted to reach the final diagnosis.

CASE SUMMARY

We present a rare case of a 1-wk-old male with RS associated with bilateral congenital glaucoma, left ectopic kidney, and left-hand rudimentary digits. A comprehensive approach was applied by which bilateral non-penetrating glaucoma surgery was performed with good control of intraocular pressure for more than 6 mo. Cytogenetic and molecular testing were conducted and revealed normal measurements.

CONCLUSION

This report described a case of a male baby with clinical features of RS but with a negative molecular analysis, presenting with left-hand rudimentary digits, bilateral congenital glaucoma, and left ectopic kidney. To the best of our knowledge, this is the first case reported with phocomelia, bilateral congenital glaucoma, and unilateral ectopic kidney.

Prenatal diagnosis of Roberts syndrome in a Chinese family based on ultrasound findings and whole exome sequencing: a case report

Background

Roberts syndrome (RBS) is a rare autosomal recessive disorder caused by variations in the ESCO2 gene; however, prenatal diagnosis of RBS has never been reported in Chinese families. Additionally, fetal-specific phenotypic characteristics associated with ESCO2 variants have not been reported.

Case presentation

A fetus in a healthy, nonconsanguineous Chinese family with multiple serious congenital malformations was diagnosed prenatally. Two consecutive fetuses in this family presented with tetraphocomelia, growth restriction, cleft lip and palate bilaterally, and other abnormalities. The main phenotypic characteristics of this case were strongly suspected to be associated with RBS. Finally, whole exome sequence analysis revealed the insertion of a homozygous base pair in exon 6 of the ESCO2 gene (NM_001017420.3, c.1111insA, NP_001017420.1, p.Thr371fs). Both of the couples were heterozygous carriers for this variant.

Conclusion

We are the first to report a prenatal case of RBS diagnosed in a Chinese family. Here, we have confirmed that the rare variant is a definite pathogenic variant, and we provide detailed phenotypic characteristics for the prenatal diagnosis of RBS due to this causative variant.

Juberg-Hayward syndrome is a cohesinopathy, caused by mutation in ESCO2

BACKGROUND

Juberg-Hayward syndrome (JHS; MIM 216100) is a rare autosomal recessive malformation syndrome, characterized by cleft lip/palate, microcephaly, ptosis, short stature, hypoplasia or aplasia of thumbs, and dislocation of radial head and fusion of humerus and radius leading to elbow restriction.

OBJECTIVE

To report for the first time the molecular aetiology of JHS.

PATIENT AND METHODS

Clinical and radiographic examination, whole exome sequencing, Sanger sequencing, mutant protein model construction, and in situ hybridization of Esco2 expression in mouse embryos were performed.

RESULTS

Clinical findings of the patient consisted of repaired cleft lip/palate, microcephaly, ptosis, short stature, delayed bone age, hypoplastic fingers and thumbs, clinodactyly of the fifth fingers, and humeroradial synostosis leading to elbow restriction. Intelligence is normal. Whole exome sequencing of the whole family showed a novel homozygous base substitution c.1654C>T in ESCO2 of the proband. The sister was homozygous for the wildtype variant. Parents were heterozygous for the mutation. The mutation is predicted to cause premature stop codon p.Arg552Ter. Mutations in ESCO2, a gene involved in cohesin complex formation, are known to cause Roberts/SC phocomelia syndrome. Roberts/SC phocomelia syndrome and JHS share similar clinical findings, including autosomal recessive inheritance, short stature, cleft lip/palate, severe upper limb anomalies, and hypoplastic digits. Esco2 expression during the early development of lip, palate, eyelid, digits, upper limb, and lower limb and truncated protein model are consistent with the defect.

CONCLUSIONS

Our study showed that Roberts/SC phocomelia syndrome and JHS are allelic and distinct entities. This is the first report demonstrating that mutation in ESCO2 causes JHS, a cohesinopathy.

DNA damage induces Yap5-dependent transcription of ECO1/CTF7 in Saccharomyces cerevisiae

Yeast Eco1 (ESCO2 in humans) acetyltransferase converts chromatin-bound cohesins to a DNA tethering state, thereby establishing sister chromatid cohesion. Eco1 establishes cohesion during DNA replication, after which Eco1 is targeted for degradation by SCF E3 ubiquitin ligase. SCF E3 ligase, and sequential phosphorylations that promote Eco1 ubiquitination and degradation, remain active throughout the M phase. In this way, Eco1 protein levels are high during S phase, but remain low throughout the remaining cell cycle. In response to DNA damage during M phase, however, Eco1 activity increases-providing for a new wave of cohesion establishment (termed Damage-Induced Cohesion, or DIC) which is critical for efficient DNA repair. To date, little evidence exists as to the mechanism through which Eco1 activity increases during M phase in response to DNA damage. Possibilities include that either the kinases or E3 ligase, that target Eco1 for degradation, are inhibited in response to DNA damage. Our results reveal instead that the degradation machinery remains fully active during M phase, despite the presence of DNA damage. In testing alternate models through which Eco1 activity increases in response to DNA damage, the results reveal that DNA damage induces new transcription of ECO1 and at a rate that exceeds the rate of Eco1 turnover, providing for rapid accumulation of Eco1 protein. We further show that DNA damage induction of ECO1 transcription is in part regulated by Yap5-a stress-induced transcription factor. Given the role for mutated ESCO2 (homolog of ECO1) in human birth defects, this study highlights the complex nature through which mutation of ESCO2, and defects in ESCO2 regulation, may promote developmental abnormalities and contribute to various diseases including cancer.

Roberts Syndrome With a Bilateral Cleft Lip and Palate

ABSTRACT

Roberts syndrome (RBS) is a rare craniofacial anomaly associated with tetraphocomelia, growth and mental retardation, cardiac and renal abnormalities. The RBS is caused by homozygous mutation in the ESCO2 gene on chromosome 8p21. In this report, the authors describe a 5-year-old female infant with RBS and bilateral cleft lip and cleft palate, an extremely rare condition.

Phenotypic Overlap of Roberts and Baller-Gerold Syndromes in Two Patients With Craniosynostosis, Limb Reductions, and ESCO2 Mutations

Baller-Gerold (BGS, MIM#218600) and Roberts (RBS, MIM#268300) syndromes are rare autosomal recessive disorders caused, respectively, by biallelic alterations in RECQL4 (MIM^*603780) and ESCO2 (MIM^*609353) genes. Common features are severe growth retardation, limbs shortening and craniofacial abnormalities which may include craniosynostosis. We aimed at unveiling the genetic lesions underpinning the phenotype of two unrelated children with a presumptive BGS diagnosis: patient 1 is a Turkish girl with short stature, microcephaly, craniosynostosis, seizures, intellectual disability, midface hemangioma, bilateral radial and thumb aplasia, tibial hypoplasia, and pes equinovarus. Patient 2 is an Iranian girl born to consanguineous parents with craniosynostosis, micrognathism, bilateral radial aplasia, thumbs, and foot deformity in the context of developmental delay. Upon negative RECQL4 test, whole exome sequencing (WES) analysis performed on the two trios led to the identification of two different ESCO2 homozygous inactivating variants: a previously described c.1131+1G>A transition in patient 1 and an unreported deletion, c.417del, in patient 2, thus turning the diagnosis into Roberts syndrome. The occurrence of a Baller-Gerold phenotype in two unrelated patients that were ultimately diagnosed with RBS demonstrates the strength of WES in redefining the nosological landscape of rare congenital malformation syndromes, a premise to yield optimized patients management and family counseling.

Thalidomide promotes degradation of SALL4, a transcription factor implicated in Duane Radial Ray syndrome

In historical attempts to treat morning sickness, use of the drug thalidomide led to the birth of thousands of children with severe birth defects. Despite their teratogenicity, thalidomide and related IMiD drugs are now a mainstay of cancer treatment; however, the molecular basis underlying the pleiotropic biology and characteristic birth defects remains unknown. Here we show that IMiDs disrupt a broad transcriptional network through induced degradation of several C₂H₂ zinc finger transcription factors, including SALL4, a member of the spalt-like family of developmental transcription factors. Strikingly, heterozygous loss of function mutations in SALL4 result in a human developmental condition that phenocopies thalidomide-induced birth defects such as absence of thumbs, phocomelia, defects in ear and eye development, and congenital heart disease. We find that thalidomide induces degradation of SALL4 exclusively in humans, primates, and rabbits, but not in rodents or fish, providing a mechanistic link for the species-specific pathogenesis of thalidomide syndrome.