Segmental maternal uniparental disomy of chromosome 7q in a patient with congenital chloride diarrhea

Abstract Background The main symptoms of congenital chloride diarrhea (CCD) main symptoms are watery diarrhea, hypochloremia, and hypokalemic metabolic alkalosis. Silver–Russell syndrome (SRS) is a heterogeneous imprinting disorder characterized by severe intrauterine retardation, poor postnatal growth, and facial dysmorphism. Methods Parent‐offspring trio whole‐exome sequencing was used to identify the causal variants. Sequencing reads were mapped to the reference of human genome version hg19. Sanger sequencing was performed as a confirmatory experiment. Results The proband was a patient with SRS caused by maternal uniparental disomy 7. The CCD of the proband was caused by homozygous variant c.1515–1 (IVS13) G>A; both mutated alleles were inherited from her mother. Conclusion We report the first clinical case of CCD and SRS occurring together. Patients with milder phenotypes may be difficult to diagnose in early stage, but close monitoring of potential complications is important for identification.

Silver-Russell syndrome (SRS, OMIM 180860) was first described in 1953 and 1954, and is an epigenetic disorder characterized by small for gestational age (SGA) and postnatal growth failure, relative macrocephaly at birth, triangular facial appearance with protruding forehead, body asymmetry, feeding difficulties, and less common features. 2 The most common genetic abnormalities of SRS are demethylation on chromosome 11p15 (11p15 LOM) and maternal uniparental disomy (UPD) of chromosome 7 (UPD(7)mat), sometimes restricted to part of 7q, which accounts for 30%-60% and 5%-10% of cases, respectively. 2 UPD (7) mat was detected as the first major molecular alteration in SRS; however, the clinical manifestations are less typical than those of 11p15 LOM. 3 Here, we report the first case of a female child presenting with CCD accompanied by maternal segmental UPD of chromosome 7 confirmed by molecular diagnosis.

| Clinical findings
The propositus was born as the first child of unrelated parents.
She was delivered preterm via spontaneous vaginal delivery at 36 +5 weeks (weight 2250 g, height 45 cm) (3%-10% and 10%-50%, respectively) after a hydramniotic pregnancy, and had no family history. She passed greenish watery stool 6-7 times per day without blood or mucous after birth. Later she was admitted to a local hospital at 3 month and diagnosed with Bartter syndrome characterized by metabolic alkalosis, hypochloremia, hypokalemia, and hyponatremia.
However, gene testing indicated there was a homozygous mutation in the SLC26A3 gene, which supported CCD diagnosis. Therefore, she received fluid replacement treatment to correct electrolytes and acid-base disorder, followed by daily oral sodium chloride, potassium chloride, and indomethacin. The patient was presented to our hospital at 8 months of age with failure to thrive and watery diarrhea.  Figure 1B). Due to her short stature and specific facial appearance, we performed a second genetic test. The report showed segmental maternal UPD of chromosome 7q, so we revised the diagnosis to CCD combined with SRS. After regular follow-up in our hospital, her diarrhea symptoms improved and lab tests (including serum electrolytes, blood gas analysis, serum glucose, IGF1, and IGFBP3) were almost normal. Her height and weight also increased, but her height was still lower than −3 SD ( Figure 1A). We can just speculate that there are a certain cumulative clinical symptoms between these two defects. When we correct one of them, the clinical symptoms can be alleviated to a certain extent. But we are not 100% sure this phenomena is suitable for other patients because this is just one patient.

| Genetic findings
For the first genetic test, homozygous mutation of classical splicing site c.1515-1 G>A was found in the SLC26A3 gene of the patient.
The heterozygous mutation of this site was found in her mother, whereas her father was wild type (Figure 2A). However, the variant was not found in the ExAC (http://exac.broad insti tute.org) or HGMD (http://www.hgmd.cf.ac.uk) database. We interpreted NM_000111.3:c.1515-1G>A as pathogenic according to the ACMG criteria with evidence levels PVS1+ PM2+PP4.
The second analysis showed that at least 86.51 Mb of genome 7q11q36 (chr7: 65446986-151960086) was loss of heterozygosity (AOH), and the sequencing data showed that the AOH in this chromosome interval occurred on the maternal chromosome, which was maternal haploid (mUPD-iso) ( Figure 2B). Sequencing data showed that the UPD may be novel; meanwhile, homozygous mutation c.1515-1G>A in the SLC26A3 gene (chr7:107417152) was detected in this mUPD-iso region. Pathogenic CNVs were not identified in this patient.

| DISCUSS ION
In this study, the patient was first misdiagnosed with Bartter syndrome according to her clinical history and characteristic metabolic abnormalities. However, CCD diagnosis was determined by SLC26A3 gene mutation. Later we found segmental maternal UPD of chromosome 7q, which included a genetic mutation in the SLC26A3 gene. To the best of our knowledge, the present case is the first patient diagnosed with CCD combined with SRS caused by maternal UPD mutations including SLC26A3 gene mutation. Proton pump inhibitors (PPIs) namely omeprazole, effectively reduce the severity of CCD in certain cases. 6 Butyrate, a short-chain fatty acid, has pronounced effects on reducing the amount of diarrhea. 7 However, even the same SLC26A3 genotype can show different responses to oral butyrate therapy. 8 Our patient was diagnosed at 3 months old by gene detection, and treated with electrolyte supply to correct the biochemical disorders. She is currently 20 months old, and her clinical symptoms have improved. She still needs regular follow-up to prevent long-term complications such as renal dysfunction and hyperuricemia.
SRS is currently clinically diagnosed based on a combination of characteristic features. However, patients with UPD(7)mat have less typical clinical features than those with 11p15 LOM, 9 such as the patient in this study who had postnatal short stature, prominent forehead, and triangular face. Myoclonus dystonia, described in some children with UPD(7)mat, is likely related to the abnormal expression of sarcoglycan epsilon (SGCE) on chromosome 7q21. 10,11 Verbal dyspraxia and more global developmental retardation or learning impairment, usually not serious, occur in some cases with UPD (7) mat. 12 UPD(7)mat patients have an increased prevalence of autistic spectrum disorder and lower cognitive ability (maybe caused by reduced brain volume of gray matter) compared to 11p15 LOM. 2,13 In SRS, children with UPD(7)mat seem to progress to puberty at an even younger age than patients with 11p15 LOM. 14 Nutrition support, preventing hypoglycemia, and recovery of caloric-related height or length defects are the main treatment goals of SRS patients in the first 2 years of life. In the consensus guidelines of 2017, 2 a combination of GH and gonadotrophin-releasing hormone analogs are recommended to improve height gain. Smeets et al. 15 recently described that no metabolic differences were found before, during, and after GH treatment between SRS and non-SRS patients born SGA. However, in a study by Lokulo-Sodipe et al., 16 although ~70% of patients received GH treatment, their height still remained restricted (−3.13 SD), which means that past treatment regimens did not improve the height of adults with SRS. For the case in this paper, multi-disciplinary treatment was administered by the nutrition department and rehabilitation department. The height and weight of the patient improved but were still lower than −2 SD. This may be partly due to the fact that the absorption function of the gastrointestinal tract caused by CCD did not completely improve, and secondly, it has a certain correlation with SRS. No language, motor, or intellectual issues were identified to date. We will continue tracking the growth and development of the child and will consider the use of GH treatment.
CCD and SRS are both rare diseases. A multi-disciplinary approach is needed as well as close parental guidance. More research is urgently needed to prove basis investigation and more targeted management of patients with SRS combined with CCD.

ACK N OWLED G EM ENTS
We would like to thank the family who participated in this study.

CO N FLI C T O F I NTE R E S T
The authors have no conflicts of interest to declare.

DATA AVA I L A B I L I T Y S TAT E M E N T
The data that support this study are included within the report.