Progressive cerebello-cerebral atrophy and progressive encephalopathy with edema, hypsarrhythmia and optic atrophy may be allelic syndromes.

In 2003, a new syndrome was described in the Sephardi Jewish population, named progressive cerebello-cerebral atrophy (PCCA) based on the typical neuroradiological findings. Following the identification of the causal genes in 2010 and 2014, two types were defined: PCCA type 1 due to SEPSECS mutations and PCCA type 2 due to VPS53 mutations. Progressive encephalopathy with edema, hypsarrhythmia and optic atrophy (PEHO) was described in 1991 in Finland. The clinical and radiological phenotype resembles PCCA. The genetic background has been elusive for many years. Recently, mutations in multiple genes including SEPSECS have been described in patients with a PEHO-like syndrome. In 2007 two siblings of Moroccan-Jewish origin were diagnosed as having PEHO due to a severe developmental encephalopathy, limb and facial edema, intractable epilepsy, optic atrophy in one sibling and dysmorphic features. Six years ago an extensive workup, including whole exome sequencing, did not reveal the cause. Recently, a clinical reevaluation of the siblings suggested the possibility that they suffer from PCCA. A reanalysis of the exome data from 2014 revealed that the siblings indeed carried the two VPS53 mutations (exon 19 c.2084A>G p.(Gln695Arg) and c.1556 + 5G>A) and the parents were found to be carriers. The discovery that mutations in both VPS53 and SEPSECS can present with a PEHO-like phenotype, place PCCA and PEHO on the same clinical spectrum and suggest they may be allelic syndromes.

Whole-exome sequencing reveals a novel missense mutation in the MARS gene related to a rare Charcot-Marie-Tooth neuropathy type 2U.

Charcot-Marie-Tooth (CMT) is a heterogeneous group of progressive disorders, characterized by chronic motor and sensory polyneuropathy. This hereditary disorder is related to numerous genes and varying inheritance patterns. Thus, many patients do not reach a final genetic diagnosis. We describe a 13-year-old girl presenting with progressive bilateral leg weakness and gait instability. Extensive laboratory studies and spinal magnetic resonance imaging scan were normal. Nerve conduction studies revealed severe lower limb peripheral neuropathy with prominent demyelinative component. Following presumptive diagnosis of chronic inflammatory demyelinating polyneuropathy, the patient received treatment with steroids and intravenous immunoglobulins courses for several months, with no apparent improvement. Whole-exome sequencing revealed a novel heterozygous c.2209C>T (p.Arg737Trp) mutation in the MARS gene (OMIM 156560). This gene has recently been related to CMT type 2U. In-silico prediction programs classified this mutation as a probable cause for protein malfunction. Allele frequency data reported this variant in 0.003% of representative Caucasian population. Family segregation analysis study revealed that the patient had inherited the variant from her 60-years old mother, reported as healthy. Neurologic examination of the mother demonstrated decreased tendon reflexes, while nerve conduction studies were consistent with demyelinative and axonal sensory-motor polyneuropathy. Our report highlights the importance of next-generation sequencing approach to facilitate the proper molecular diagnosis of highly heterogeneous neurologic disorders. Amongst other numerous benefits, this approach might prevent unnecessary diagnostic testing and potentially harmful medical treatment.

BRCA1/2 mutations and FMR1 alleles are randomly distributed: a case control study.

BRCA mutation carriers were reported to display a skewed distribution of FMR1 genotypes, predominantly within the low normal range (CGG repeat number <26). This observation led to the interpretation that BRCA1/2 mutations are embryo-lethal, unless rescued by 'low FMR1 alleles'. We undertook to re-explore the distribution of FMR1 alleles subdivided into low, normal and high (<26, 26-34, and >34 CGG repeats, respectively) subgenotypes, on a cohort of 125 Ashkenazi women, carriers of a BRCA1/2 founder mutation. Ashkenazi healthy females (n=368), tested in the frame of the Israeli screening population program, served as controls. BRCA1/2 carriers and controls demonstrated a comparable and non-skewed FMR1 subgenotype distribution. Taken together, using a homogeneous ethnic group of Ashkenazi BRCA1/2 mutation carriers, we could not confirm the reported association between FMR1 low genotypes and BRCA1/2 mutations. The notion that BRCA1/2 mutations are embryo-lethal unless rescued by the low FMR1 subgenotypes is hereby refuted.

Myotonia congenita in a large consanguineous Arab family: insight into the clinical spectrum of carriers and double heterozygotes of a novel mutation in the chloride channel CLCN1 gene.

The aims of this study were to (1) characterize the clinical phenotype, (2) define the causative mutation, and (3) correlate the clinical phenotype with genotype in a large consanguineous Arab family with myotonia congenita. Twenty-four family members from three generations were interviewed and examined. Genomic DNA was extracted from peripheral blood samples for sequencing the exons of the CLCN1 gene. Twelve individuals with myotonia congenita transmitted the condition in an autosomal dominant manner with incomplete penetrance. A novel missense mutation [568GG>TC (G190S)] was found in a dose-dependent clinical phenotype. Although heterozygous individuals were asymptomatic or mildly affected, the homozygous individuals were severely affected. The mutation is a glycine-to-serine residue substitution in a well-conserved motif in helix D of the CLC-1 chloride channel in the skeletal muscle plasmalemma. A novel mutation, 568GG>TC (G190S) in the CLCN1 gene, is responsible for autosomal dominant myotonia congenita with a variable phenotypic spectrum.

Dynamic modification strategy of the Israeli carrier screening protocol: inclusion of the Oriental Jewish Group to the cystic fibrosis panel.

PURPOSE: A retrospective population study was conducted to determine the carrier frequencies of recently identified mutations in Oriental Jewish cystic fibrosis patients. METHODS: Data were collected from 10 medical centers that screened the following mutations: two splice site mutations-3121-1G>A and 2751 + 1insT-and one nonsense mutation-the Y1092X in Iraqi Jews. One missense mutation, I1234V, was screened in Yemenite Jews. RESULTS: A total of 2499 Iraqi Jews were tested for one, two, or all three mutations. The 3121-1G>A, Y1092X, and 2751 + 1insT mutations had a carrier frequency of 1:68.5, 1:435, and 0, respectively. In 1435 Yemenite Jews screened, I1234V had a carrier frequency of 1:130. CONCLUSION: The 0.84% allele frequency of the three Iraqi founder mutations falls within the Israeli Society of Medical Geneticists' inclusion criteria for screening of 1:60 carrier frequency; hence, Iraqi Jews were added to the carrier screening policy with a panel including the three Iraqi founder mutations in addition to the five Ashkenazi mutations previously detected in Eastern Jews. 2751 + 1insT that was detected in patients only was included in the screening panel to increase the detection rate. I1234V does not meet the inclusion criteria but is now offered on a diagnostic basis and can be added to the screening panel for individuals whose mixed origin includes Yemenite, in addition to protocol-recommended origins. This study demonstrates the dynamic modifications of the Israeli carrier cystic fibrosis screening protocol based on newly detected founder mutations in a large cohort, taking into account mutation impact and intercommunal admixture.

Detection of X chromosome aneuploidy using Southern blot analysis during routine population-based screening for fragile X syndrome.

We report herein two cases where detection of X chromosome aneuploidy (cytogenetically proved 45,X/46XX and 47,XXX) was made possible by molecular diagnosis during population-based carrier screening for Fragile X syndrome, using Southern blot analysis. This study emphasizes the value of molecular analysis for gene dosage to suggest chromosomal aneuploidy.