Tiia Reimand

De novo SCN8A mutation identified by whole-exome sequencing in a boy with neonatal epileptic encephalopathy, multiple congenital anomalies, and movement disorders.

Epileptic encephalopathies represent a clinically and genetically heterogeneous group of disorders, majority of which are of unknown etiology. We used whole-exome sequencing of a parent-offspring trio to identify the cause of early infantile epileptic encephalopathy in a boy with neonatal seizures, movement disorders, and multiple congenital anomalies who died at the age of 17 months because of respiratory illness and identified a de novo heterozygous missense mutation (c.3979A>G; p.Ile1327Val) in SCN8A (voltage-gated sodium-channel type VIII alpha subunit) gene. The variant was confirmed in the proband with Sanger sequencing. Because the clinical phenotype associated with SCN8A mutations has previously been identified only in a few patients with or without epileptic seizures, these data together with our results suggest that mutations in SCN8A can lead to early infantile epileptic encephalopathy with a broad phenotypic spectrum. Additional investigations will be worthwhile to determine the prevalence and contribution of SCN8A mutations to epileptic encephalopathies.

Maternally and paternally inherited deletion of 7q31 involving the FOXP2 gene in two families

Maternally and Paternally Inherited Deletion of 7q31 Involving the FOXP2 Gene in Two Families O. Zilina,* T. Reimand, P. Zjablovskaja, K. M€annik, M. M€annamaa, A. Traat, H. Puusepp-Benazzouz, A. Kurg, and K. Ounap Department of Biotechnology, Institute of Molecular and Cell Biology, University of Tartu, Tartu, Estonia Department of Genetics, United Laboratories, Tartu University Hospital, Tartu, Estonia Department of Pediatrics, University of Tartu, Tartu, Estonia Children’s Clinic, Tartu University Hospital, Tartu, Estonia Pacific Laboratory Medicine Services (PaLMS), Royal North Shore Hospital, St Leonards, NSW, Australia

Two sisters with Silver-Russell phenotype.

Silver–Russell syndrome (SRS) is a well recognizable syndrome, but the etiology of SRS seems to be heterogeneous. SRS is listed in Mendelian Inheritance in Man as an autosomal dominant disorder because most described cases have been of sporadic occurrence, and most likely were caused by de novo autosomal dominant mutation, and because families with apparent dominant transmission of a SRS phenotype have been described. Still, in a few families, autosomal recessive inheritance has been suggested. We describe two sisters who meet the criteria for SRS proposed by Price et al. [ 1999 ]. The parents had normal facial features, normal height, and normal post‐natal growth. This is the second well‐documented case of familial recurrence of SRS that resembles an autosomal recessive inheritance pattern. Since sib recurrence is so rare in SRS, other modes of inheritance should be considered. The finding of maternal uniparental disomy 7 (mUPD7) in 10% of SRS cases suggests that lack of paternally expressed imprinted gene(s) or overexpression of maternal imprinted gene(s) on chromosome 7 cause SRS. The recurrence in sibs could be caused by a mutation in the imprinted gene or imprinting center carried by one parent. Alternatively, recurrence in sibs could represent germ line mosaicism for a dominant mutation in one of the parents.

Prevalence of c.35delG and p.M34T mutations in the GJB2 gene in Estonia.

OBJECTIVE The purpose of this study was to determine the prevalence of c.35delG and p.M34T mutations in the GJB2 gene among children with early onset hearing loss and within a general population of Estonia. METHODS Using an arrayed primer extension assay, we screened 233 probands with early childhood onset hearing loss for 107 different mutations in the GJB2 gene. We then looked for the two most common mutations, c.35delG and p.M34T, in a population of 998 consecutively born Estonian neonates to determine the frequency of these mutations in the general population. RESULTS In 115 (49%) of the patients with early onset hearing loss, we found a mutation in at least one allele of the GJB2 gene. Seventy-three (31%) were homozygous for the c.35delG mutation, seven (3%) were homozygous for the p.M34T mutation, and five (2%) had c35delG/p.M34T compound heterozygosity. Other six identified mutations in GJB2 gene occurred rarely. Among the 998 anonymous newborn samples, we detected 45 who were heterozygous for c.35delG, 2 individuals homozygous for c.35delG, and 58 who were heterozygous for p.M34T. Additionally, we detected two c.35delG/p.M34T compound heterozygotes. CONCLUSION The most common GJB2 gene mutations in Estonian children with early onset hearing loss were c.35delG and p.M34T, with c.35delG accounting for 75% of GJB2 alleles. The carrier frequency for c.35delG and p.M34T in a general population of Estonia was 1 in 22 and 1 in 17, respectively, and was higher than in most other countries.

Biallelic CACNA1A mutations cause early onset epileptic encephalopathy with progressive cerebral, cerebellar, and optic nerve atrophy.

The CACNA1A gene encodes the transmembrane pore‐forming alpha‐1A subunit of the Cav2.1 P/Q‐type voltage‐gated calcium channel. Several heterozygous mutations within this gene, including nonsense mutations, missense mutations, and expansion of cytosine‐adenine‐guanine repeats, are known to cause three allelic autosomal dominant conditions—episodic ataxia type 2, familial hemiplegic migraine type 1, and spinocerebellar ataxia type 6. An association with epilepsy and CACNA1A mutations has also been described. However, the link with epileptic encephalopathies has emerged only recently. Here we describe two patients, sister and brother, with compound heterozygous mutations in CACNA1A. Exome sequencing detected biallelic mutations in CACNA1A: A missense mutation c.4315T>A (p.Trp1439Arg) in exon 27, and a seven base pair deletion c.472_478delGCCTTCC (p.Ala158Thrfs*6) in exon 3. Both patients were normal at birth, but developed daily recurrent seizures in early infancy with concomitant extreme muscular hypotonia, hypokinesia, and global developmental delay. The brain MRI images showed progressive cerebral, cerebellar, and optic nerve atrophy. At the age of 5, both patients were blind and bedridden with a profound developmental delay. The elder sister died at that age. Their parents and two siblings were heterozygotes for one of those pathogenic mutations and expressed a milder phenotype. Both of them have intellectual disability and in addition the mother has adult onset cerebellar ataxia with a slowly progressive cerebellar atrophy. Compound heterozygous mutations in the CACNA1A gene presumably cause early onset epileptic encephalopathy, and progressive cerebral, cerebellar and optic nerve atrophy with reduced lifespan.

Chromosomal microarray analysis as a first-tier clinical diagnostic test: Estonian experience.

Chromosomal microarray analysis (CMA) is now established as the first‐tier cytogenetic diagnostic test for fast and accurate detection of chromosomal abnormalities in patients with developmental delay/intellectual disability (DD/ID), multiple congenital anomalies (MCA), and autism spectrum disorders (ASD). We present our experience with using CMA for postnatal and prenatal diagnosis in Estonian patients during 2009–2012. Since 2011, CMA is on the official service list of the Estonian Health Insurance Fund and is performed as the first‐tier cytogenetic test for patients with DD/ID, MCA or ASD. A total of 1191 patients were analyzed, including postnatal (1072 [90%] patients and 59 [5%] family members) and prenatal referrals (60 [5%] fetuses). Abnormal results were reported in 298 (25%) patients, with a total of 351 findings (1–3 per individual): 147 (42%) deletions, 106 (30%) duplications, 89 (25%) long contiguous stretches of homozygosity (LCSH) events (>5 Mb), and nine (3%) aneuploidies. Of all findings, 143 (41%) were defined as pathogenic or likely pathogenic; for another 143 findings (41%), most of which were LCSH, the clinical significance remained unknown, while 61 (18%) reported findings can now be reclassified as benign or likely benign. Clinically relevant findings were detected in 126 (11%) patients. However, the proportion of variants of unknown clinical significance was quite high (41% of all findings). It seems that our ability to detect chromosomal abnormalities has far outpaced our ability to understand their role in disease. Thus, the interpretation of CMA findings remains a rather difficult task requiring a close collaboration between clinicians and cytogeneticists.

Novel homozygous mutation in KPTN gene causing a familial intellectual disability‐macrocephaly syndrome

Recently, a novel autosomal recessive developmental delay‐macrocephaly syndrome was described caused by homozygous or compound heterozygous mutations in the KPTN gene. All reported patients belonged to one large Amish kindred. We report on the second case of KPTN‐related syndrome in two Estonian adult sibs. The brother and sister both have macrocephaly and moderate intellectual disability, and their verbal abilities are more affected than motor development. No notable minor anomalies are present. Behavioral problems and a few episodes of seizures were reported in the brother. Whole exome sequencing carried out from the brothers DNA sample identified homozygous one‐nucleotide frameshift duplication c.665dupA (p.Q222fs) in the KPTN gene. Homozygosity of both affected sibs and heterozygosity of parents were confirmed by Sanger sequencing. Thus, we confirm the pathogenicity of KPTN mutations and further delineate the novel developmental delay‐macrocephaly syndrome. We also support the hypothesis that KPTN‐related syndrome is not restricted to the Amish population.

Parents’ Satisfaction with Medical and Social Assistance Provided to Children with Down Syndrome: Experience in Estonia

Objective: Parents of children with mental or physical disabilities have been assumed to live more stressful lives than other parents, and people with Down syndrome (DS) may get second-rate care because of their diagnosis. The aim of this work is to investigate the extent of parents’ satisfaction with medical and social services in Estonia provided for the DS individuals and their families. Methods: From 1999 to 2001, fifty-nine DS families answered questionnaires in which we inquired about their satisfaction with medical and social assistance. Results: We found that satisfaction with the quality of the information about DS is low, and most of the parents are not satisfied with the social benefits and rehabilitation options. Conclusions: The DS families need more medical information about this syndrome. The medical staff has to learn more about how to deliver bad news and how to support parents. More work needs to be done in the area of rehabilitation options and social assistance.

Patient with dup(5)(q35.2-q35.3) reciprocal to the common Sotos syndrome deletion and review of the literature.

The recent implementation of array techniques in research and clinical practice has revealed the existence of recurrent reciprocal deletions and duplications in several genome loci. The most intriguing feature is that some reciprocal genomic events can result in opposite phenotypic outcome. One of such examples is 5q35.2-q35.3. Deletions in this locus lead to Sotos syndrome characterized by childhood overgrowth with advanced bone age, craniofacial dysmorphic features including macrocephaly, and learning difficulties; while duplications have been proposed to manifest in opposite phenotype related to growth. Here, we report a patient with 5q35.2-q35.3 duplication and compare her clinical phenotype with five previously described cases. Short stature since the birth, microcephaly, brachydactyly, delayed bone age, mild to moderate intellectual disability and mild facial dysmorphism seem to be characteristic features of 5q35.2-q35.3 duplication.

Hearing impairment in Estonia: An algorithm to investigate genetic causes in pediatric patients

PURPOSE The present study was initiated to establish the etiological causes of early onset hearing loss (HL) among Estonian children between 2000-2009. METHODS The study group consisted of 233 probands who were first tested with an arrayed primer extension assay, which covers 199 mutations in 7 genes (GJB2, GJB6, GJB3, SLC26A4, SLC26A5 genes, and two mitochondrial genes - 12S rRNA, tRNASer(UCN)). From probands whose etiology of HL remained unknown, DNA analysis of congenital cytomegalovirus (CMV) infection and G-banded karyotype and/or chromosomal microarray analysis (CMA) were performed. RESULTS In 110 (47%) cases, the etiology of HL was genetic and in 5 (2%) congenital CMV infection was diagnosed. We found mutations with clinical significance in GJB2 (100 children, 43%) and in 2 mitochondrial genes (2 patients, 1%). A single mutation in SLC26A4 gene was detected in 5 probands (2.2%) and was considered diagnostic. In 4 probands a heterozygous IVS2-2A>G change in the SLC26A5 gene was found. We did not find any instances of homozygosity for this splice variant in the probands. CMA identified in 4 probands chromosomal regions with the loss of one allele. In 2 of them we were able to conclude that the found abnormalities are definitely pathogenic (12q13.3-q14.2 and 17q22-23.2 microdeletion), but the pathogenity of 2 other findings (3p26.2 and 1p33 microdeletion) remained unknown. CONCLUSION This practical diagnostic algorithm confirmed the etiology of early onset HL for 115 Estonian patients (49%). This algorithm may be generalized to other populations for clinical application.