Townes-Brocks syndrome with craniosynostosis in two siblings

Townes-Brocks syndrome: genotype-phenotype correlations of SALL1 variants in our series and the literature

Townes-Brocks syndrome (TBS, MIM#107480) is an autosomal dominant disorder linked to SALL1 alterations and characterized by a clinical triad (anorectal, thumb, and external-ear malformations), along with variable features. Renal failure and deafness can occur at any age, making follow-up essential. Some genotype-phenotype correlations have been suggested but data are limited. We collected clinical and molecular data from 49 patients with a SALL1 (likely) pathogenic variant identified in our laboratory or through collaborations, and reviewed the 207 SALL1 related-TBS patients previously reported in the literature. We performed statistical analysis to study genotype-phenotype correlations based notably on the variant position in relation to the glutamine-rich region. In our series, 25% of individuals presented with the clinical triad compared to 49.7% in the literature. The deafness frequency was similar (65%). Renal failure was diagnosed in 39.6% of our patients compared to 29.3% in the literature. Developmental delay or intellectual disability affected 9% of patients. Of the 22 SALL1 variants in our series, 35% were located upstream of the glutamine-rich region, compared to 6.5% in the literature. Statistical analysis was performed on all patients, of which 26 and 200 carried a variant upstream and downstream of the glutamine-rich region, respectively. A significant increase in deafness, dysplastic ear, and thumb malformations and a significant decrease in renal failure were observed in the individuals carrying a variant located downstream of the region, but the patients were significantly younger. Future studies should aim to elucidate the complex pathophysiological mechanisms and prognosis of TBS, functionally and prospectively.

A novel heterozygous variant of the SALL1 gene with atypical Townes-Brocks syndrome phenotypes in Chinese family

Townes-Brocks syndrome (TBS) is an autosomal dominant disorder characterised by the triad of anorectal, thumb, and ear malformations. It may also be accompanied by defects in kidney, heart, eyes, hearing, and feet. TBS has been demonstrated to result from heterozygous variants in the SALL1 gene, which encodes zinc finger protein believed to function as a transcriptional repressor. The clinical characteristics of an atypical TBS phenotype patient from a Chinese family are described, with predominant manifestations including external ear dysplasia, unilateral renal hypoplasia with mild renal dysfunction, and hearing impairment. A novel heterozygous variant c.3060T>A (p.Tyr1020*) in exon 2 of the SALL1 gene was identified in this proband. Pyrosequencing of the complementary DNA of the proband revealed that the variant transcript accounted for 48% of the total transcripts in peripheral leukocytes, indicating that this variant transcript has not undergone nonsense-mediated mRNA decay. This variant c.3060T > A is located at the terminal end of exon 2, proximal to the 3' end of the SALL1 gene, and exerts a relatively minor impact on protein function. We suggest that the atypical TBS phenotype observed in the proband may be attributed to the truncated protein retaining partial SALL1 function.

A novel SALL1 C757T mutation in a Chinese family causes a rare disease --Townes-Brocks syndrome

BACKGROUND

Townes-Brocks syndrome (TBS) is a rare genetic disorder characterized by imperforate anus, dysplastic ears, thumb malformations, and other abnormalities. Previous studies have revealed that mutations in the SALL1 gene can disrupt normal development, resulting in the characteristic features of Townes-Brocks syndrome. Spalt-like transcription factors (SALLs) are highly conserved proteins that play important roles in various cellular processes, including embryonic development, cell differentiation, and cell survival. Over 400 different variants or mutations have been reported in the SALL1 gene in individuals with TBS. Most of these variants lead to the formation of premature termination codons (PTCs), also known as nonsense mutations. The majority of these PTCs occur in a specific region of the SALL1 gene called the "hotspot region", which is particularly susceptible to mutation.

METHODS

In this study, we conducted whole-exome sequencing on a three-generation Chinese family with anorectal malformations.

RESULTS

We identified a novel heterozygous mutation (chr16:51175376:c.757 C > T p.Gln253*) in the SALL1 gene. Molecular analysis revealed a heterozygous C to T transition at nucleotide position 757 in exon 2 of the SALL1 (NM_002968) gene. This mutation is predicted to result in the substitution of the Gln253 codon with a premature stop codon (p.Gln253*). The glutamine-rich domain forms a long alpha helix, enabling the mutant protein to interact with the wild-type SALL1 protein. This interaction may result in steric hindrance effects on the wild-type SALL1 protein.

CONCLUSIONS

Our findings have expanded the mutation database of the SALL1 gene, which is significant for genetic counseling and clinical surveillance in the affected family. Furthermore, our study enhances the understanding of Townes-Brocks syndrome and has the potential to improve its diagnosis and treatment.