Introduction

Townes–Brocks syndrome (TBS) is an autosomal dominant disorder characterized by first and second arch defects including auricular, renal, finger and anal anomalies.1 TBS is caused by mutations in SALL1, a gene related to the developmental regulator gene sal of Drosophila melanogaster.2 Most mutations are located between the glutamine-rich domain and the first double zinc finger domain within exon 2.3 Occasional abnormalities include foot anomalies, deafness, mental retardation, microcephaly, microtia, cardiac defect and hypothyroidism.1, 4, 5 Wide phenotypic variations are known even within a family with the same SALL1 mutations.6

Here, we report three generations of a family with TBS showing significant phenotypic variations.

Clinical report

Family report

The proband (III-1) was a four-year-old Japanese girl. She was born at 41 weeks gestation after an uneventful pregnancy to a 29-year-old gravida 0, para 0 mother. Her birth weight was 3030 g (−0.2 s.d.), height was 49.7 cm (+0.4 s.d.) and head circumference was 32.5 cm. She had bilateral preauricular tags, bilateral preaxial polydactyly, syndactyly of the right toe, second and fourth overlapping third of the toe on the left and anteriorly placed and stenosed anus. She also had mild bilateral sensorineural hearing loss. Ultrasonographic studies showed ventricular septal defect and small right kidney. The patient was diagnosed with TBS based on her clinical findings and her dominant familial history.

Her mother (II-1), maternal uncle (II-2), grandfather (I-1) and great aunt (I-3) were also affected (Figure 1). Her mother had right preaxial polydactyly, anterior placement of the anus, small right kidney and mild sensorineural hearing loss. The uncle had right preaxial polydactyly, imperforate anus and mild hearing loss. The grandfather and great aunt had only unilateral preaxial polydactyly and deafness. Great aunt had renal failure due to chronic glomerulonephritis, was treated hemodialysis from age 37 and died of pancreas cancer at age 57.

Figure 1
figure 1

A family pedigree. Arrow indicates the proband. Clinical phenotypes are represented by symbols. Genetic analysis was performed in the proband (III-1) and her mother (II-2). Information for renal involvement was not available in the grandfather (I-1) and uncle (II-3).

Molecular studies

All coding regions of exons 2 and 3 were amplified by polymerase chain reaction using primers designed based on the genome data and were directly sequenced. The sequence demonstrated that the proband (III-1) and mother (II-2) were heterozygotes for novel c.1326delC (p.Ser442fs) mutation.

Discussion

We report a family with TBS demonstrating wide variations in phenotype. Wide phenotypic variations even within a family are clinical features of TBS. Kosaki et al. (2007) reported two sisters carrying a heterozygous 1256T>A (L419X) mutation of SALL1, one with a TWS phenotype and the other showing features of Goldenhar syndrome-like phenotype (epibulbar dermoid, bilateral microtia with atretic ear canals).6 The clinical presentation of TBS can overlap with Goldenhar syndrome, Okihiro syndrome, branchiootorenal syndrome and VACTERL association. The information of other family members and SALL1 mutation analysis helped us to confirm the diagnosis.

To date, >50 variants of SALL1 mutations have been reported.2, 3, 6, 7, 8, 9 Most mutations are located between the glutamine-rich domain and the first double zinc finger domain within exon 2, a hot spot, as reported earlier.2, 3 The proband and mother both demonstrated a novel deletion mutation, c.1326delC, which is also positioned within the hot spot in SALL1. Most SALL1 mutations result in premature termination codons that had been predicted to trigger nonsense-mediated decay of mutant mRNA and cause haploinsufficiency. However, a mouse carrying a Sall1-null allele does not mimic the human TBS and a mouse carrying a Sall1 mutant allele that produces a truncated protein and presents clinical features of TBS.10 Kiefer et al. (2003) demonstrated that truncated Sall1 mediates interaction with all Sall family members and could interfere with the normal function of all Sall proteins.10 Furniss et al. (2007) reported a heterozygous 995delC mutation in exon 2 of SALL1 escaped nonsense-mediated decay and produced a truncated protein acting in a dominant-negative manner.11 Nonsense-mediated decay efficiency varies between individuals and is tissue specific, which may contribute to phenotypic variation in the patients carrying the same mutations.

The severity of phenotypes or numbers of involved organs in our family increased with each succeeding; that is, anticipation-like phenomenon. As shown in Figure 1, the grandfather (I-1) and great aunt (I-3) only demonstrated unilateral preaxial polydactyly and deafness. In addition to polydactyly and hearing disturbance, her mother (II-2) demonstrated anal and renal anomalies, and her uncle (II-3) had anal anomaly. Information for renal involvement was not available in the grandfather (I-1) and uncle (II-3). In this family, the proband (III-1) showed the most severe symptoms including congenital heart disease. An increase in the clinical severity has been observed in a number of families with TBS, frequently in patients that inherited the disease from their mothers.3, 6, 8, 9, 12, 13 Anticipation is common in trinucleotide repeat disorders such as Huntington’s disease and myotonic dystrophy where a dynamic mutation in DNA occurs. However, increased severity in TBS cannot be explained genetically, as triplet repeat disease. If SALL1 is expressed in the gametocye especially in the oocyte and mutant SALL1 affects the condition of the fertilized oocyte, anticipation-like phenomenon may occur. However, SALL1 is not expressed in the oocytes at fertilization. We should consider the social and/or physical bias at reproduction as another possibility, because most parents are usually only mildly affected as described in many reports and have similarly or more severely affected children. Wide clinical variation is a character of TBS caused by SALL1 mutations. Social and/or physical bias may contribute to an apparent increase in clinical severity over generations in TBS.

In genetic counseling, it is necessary to explain that patients with TBS present wide phenotypic variations even in the same family.