Monize Lazar

Downregulation of VAPB expression in motor neurons derived from induced pluripotent stem cells of ALS8 patients

Amyotrophic lateral sclerosis (ALS) is an incurable neuromuscular disease that leads to a profound loss of life quality and premature death. Around 10% of the cases are inherited and ALS8 is an autosomal dominant form of familial ALS caused by mutations in the vamp-associated protein B/C (VAPB) gene. The VAPB protein is involved in many cellular processes and it likely contributes to the pathogenesis of other forms of ALS besides ALS8. A number of successful drug tests in ALS animal models could not be translated to humans underscoring the need for novel approaches. The induced pluripotent stem cells (iPSC) technology brings new hope, since it can be used to model and investigate diseases in vitro. Here we present an additional tool to study ALS based on ALS8-iPSC. Fibroblasts from ALS8 patients and their non-carrier siblings were successfully reprogrammed to a pluripotent state and differentiated into motor neurons. We show for the first time that VAPB protein levels are reduced in ALS8-derived motor neurons but, in contrast to over-expression systems, cytoplasmic aggregates could not be identified. Our results suggest that optimal levels of VAPB may play a central role in the pathogenesis of ALS8, in agreement with the observed reduction of VAPB in sporadic ALS.

Exomic variants of an elderly cohort of Brazilians in the ABraOM database

Brazilians are highly admixed with ancestry from Europe, Africa, America, and Asia and yet still underrepresented in genomic databanks. We hereby present a collection of exomic variants from 609 elderly Brazilians in a census‐based cohort (SABE609) with comprehensive phenotyping. Variants were deposited in ABraOM (Online Archive of Brazilian Mutations), a Web‐based public database. Population representative phenotype and genotype repositories are essential for variant interpretation through allele frequency filtering; since elderly individuals are less likely to harbor pathogenic mutations for early‐ and adult‐onset diseases, such variant databases are of great interest. Among the over 2.3 million variants from the present cohort, 1,282,008 were high‐confidence calls. Importantly, 207,621 variants were absent from major public databases. We found 9,791 potential loss‐of‐function variants with about 300 mutations per individual. Pathogenic variants on clinically relevant genes (ACMG) were observed in 1.15% of the individuals and were correlated with clinical phenotype. We conducted incidence estimation for prevalent recessive disorders based upon heterozygous frequency and concluded that it relies on appropriate pathogenicity assertion. These observations illustrate the relevance of collecting demographic data from diverse, poorly characterized populations. Census‐based datasets of aged individuals with comprehensive phenotyping are an invaluable resource toward the improved understanding of variant pathogenicity.

Milder course in Duchenne patients with nonsense mutations and no muscle dystrophin

Duchenne muscular dystrophy (DMD), a severe and lethal condition, is caused by the absence of muscle dystrophin. Therapeutic trials aiming at the amelioration of muscle function have been targeting the production of muscle dystrophin in affected Duchenne patients. However, how much dystrophin is required to rescue the DMD phenotype remains an open question. We have previously identified two exceptional golden retriever muscular dystrophy (GRMD) dogs with a milder course despite the total absence of muscle dystrophin. Here we report two unusual patients carrying nonsense mutations in the DMD gene and dystrophin deficiency but with an unexpectedly mild phenotype. Three reported polymorphisms, respectively in genes LTBP4, SPP1 and ACTN3 were excluded as possible DMD genetic modifiers in our patients. Finding the mechanisms that protect some rare patients and dogs from the deleterious effect of absent muscle dystrophin is of utmost importance and may lead to new avenues for treatment. Importantly, these observations indicate that it is possible to have a functional large muscle even without dystrophin.

Comprehensive assessment of the disputed RET Y791F variant shows no association with medullary thyroid carcinoma susceptibility

Accurate interpretation of germline mutations of the rearranged during transfection (RET) proto-oncogene is vital for the proper recommendation of preventive thyroidectomy in medullary thyroid carcinoma (MTC)-prone carriers. To gain information regarding the most disputed variant of RET, ATA-A Y791F, we sequenced blood DNA samples from a cohort of 2904 cancer-free elderly individuals (1261 via Sanger sequencing and 1643 via whole-exome/genome sequencing). We also accessed the exome sequences of an additional 8069 individuals from non-cancer-related laboratories and public databanks as well as genetic results from the Catalogue of Somatic Mutations in Cancer (COSMIC) project. The mean allelic frequency observed in the controls was 0.0031, with higher occurrences in Central European populations (0.006/0.008). The prevalence of RET Y791F in the control databases was extremely high compared with the 40 known RET pathogenic mutations (P=0.00003), while no somatic occurrence has been reported in tumours. In this study, we report new, unrelated Brazilian individuals with germline RET Y791F-only: two tumour-free elderly controls; two individuals with sporadic MTC whose Y791F-carrying relatives did not show any evidence of tumours; and a 74-year-old phaeochromocytoma patient without MTC. Furthermore, we showed that the co-occurrence of Y791F with the strong RET C634Y mutation explains the aggressive MTC phenotypes observed in a large affected family that was initially reported as Y791F-only. Our literature review revealed that limited analyses have led to the misclassification of RET Y791F as a probable pathogenic variant and, consequently, to the occurrence of unnecessary thyroidectomies. The current study will have a substantial clinical influence, as it reveals, in a comprehensive manner, that RET Y791F only shows no association with MTC susceptibility.

Mutations in PCYT1A Cause Spondylometaphyseal Dysplasia with Cone-Rod Dystrophy

Spondylometaphyseal dysplasia with cone-rod dystrophy is a rare autosomal-recessive disorder characterized by severe short stature, progressive lower-limb bowing, flattened vertebral bodies, metaphyseal involvement, and visual impairment caused by cone-rod dystrophy. Whole-exome sequencing of four individuals affected by this disorder from two Brazilian families identified two previously unreported homozygous mutations in PCYT1A. This gene encodes the alpha isoform of the phosphate cytidylyltransferase 1 choline enzyme, which is responsible for converting phosphocholine into cytidine diphosphate-choline, a key intermediate step in the phosphatidylcholine biosynthesis pathway. A different enzymatic defect in this pathway has been previously associated with a muscular dystrophy with mitochondrial structural abnormalities that does not have cartilage and/or bone or retinal involvement. Thus, the deregulation of the phosphatidylcholine pathway may play a role in multiple genetic diseases in humans, and further studies are necessary to uncover its precise pathogenic mechanisms and the entirety of its phenotypic spectrum.

Genetic aspects of adolescent idiopathic scoliosis in a family with multiple affected members: a research article.

BackgroundThe etiology of idiopathic scoliosis remains unknown and different factors have been suggested as causal. Hereditary factors can also determine the etiology of the disease; however, the pattern of inheritance remains unknown. Autosomal dominant, X-linked and multifactorial patterns of inheritances have been reported. Other studies have suggested possible chromosome regions related to the etiology of idiopathic scoliosis. We report the genetic aspects of and investigate chromosome regions for adolescent idiopathic scoliosis in a Brazilian family.MethodsEvaluation of 57 family members, distributed over 4 generations of a Brazilian family, with 9 carriers of adolescent idiopathic scoliosis. The proband presented a scoliotic curve of 75 degrees, as determined by the Cobb method. Genomic DNA from family members was genotyped.ResultsLocating a chromosome region linked to adolescent idiopathic scoliosis was not possible in the family studied.ConclusionWhile it was not possible to determine a chromosome region responsible for adolescent idiopathic scoliosis by investigation of genetic linkage using microsatellites markers during analysis of four generations of a Brazilian family with multiple affected members, analysis including other types of genomic variations, like single nucleotide polymorphisms (SNPs) could contribute to the continuity of this study.

Assessing pathogenicity for novel mutation/sequence variants: the value of healthy older individuals.

Improvement in DNA technology is increasingly revealing unexpected/unknown mutations in healthy persons and generating anxiety due to their still unknown health consequences. We report a 44-year-old healthy father of a 10-year-old daughter with bilateral coloboma and hearing loss, but without muscle weakness, in whom a whole-genome CGH revealed a deletion of exons 38–44 in the dystrophin gene. This mutation was inherited from her asymptomatic father, who was further clinically and molecularly evaluated for prognosis and genetic counseling (GC). This deletion was never identified by us in 982 Duchenne/Becker patients. To assess whether the present case represents a rare case of non-penetrance, and aiming to obtain more information for prognosis and GC, we suggested that healthy older relatives submit their DNA for analysis, to which several complied. Mutation analysis revealed that his mother, brother, and 56-year-old maternal uncle also carry the 38–44 deletion, suggesting it an unlikely cause of muscle weakness. Genome sequencing will disclose mutations and variants whose health impact are still unknown, raising important problems in interpreting results, defining prognosis, and discussing GC. We suggest that, in addition to family history, keeping the DNA of older relatives could be very informative, in particular for those interested in having their genome sequenced.

What is the best way to determine the cause of adolescent idiopathic scoliosis

Adolescent idiopathic scoliosis (AIS) is defined as a lateral deviation of the spine associated with rotation that is found in healthy individuals and has no known cause. These subjects do not exhibit neuromuscular conditions or other disorders until the onset of sexual maturation at approximately 10 years of age (1). Diagnosis is challenging; radiography reveals curves of more than 10 degrees by Cobb method (2) without vertebral abnormalities. Additionally, the angular deviation required for diagnosis is controversial, which further complicates diagnosis. In 1995, Winter questioned the accepted diagnostic value used to characterize the disease and proposed that a curve of 5 degrees should be considered pathological or a variation from a normal spine (3). Furthermore, it is important to observe how rotation impacts the condition, as this feature may be more characteristic of the disease than the curvature itself.

A.P.14: A new in/del in the critical splicing region of the VMA21 gene causing X-linked myopathy with excessive autophagy (XMEA)

X-linked myopathy with excessive autophagy (XMEA) is an inherited, slowly progressive myopathy, characterized by membrane-bound sarcoplasmic vacuoles in muscle fibers. Proximal muscle weakness in early childhood is observed, but with no cardiac, nor cognitive impairment. Recent findings identified mutations in the vacuolar membrane ATPase activity 21 (VMA21), as causative of XMEA. Among Six different single-nucleotide substitutions in VMA21 (in 14 XMEA families), four were intronic, and in two of them, the IVS1–27A base is involved. These mutations result in a reduction in VMA21 mRNA, and protein, and a consequent elevated lysosomal pH with partial block the final degradation stage of autophagy. Only a few XMEA families have been worldwide identified. Here we describe the first XMEA Brazilian family carrying a small in/del in the VMA21 gene. The 5-year-old propositus presented a characteristic dystrophic phenotype. He walked at the age of 2 and showed difficulties for running, climbing stairs, and raising from the floor. No calf hypertrophy nor joint contractures were observed. CK level was 1330 U/l, and ECG showed altered conduction in the right branch. Muscle biopsy showed a dystrophic pattern and autophagic vacuoles. Emerin was normal. Family history revealed a recessive X-linked inheritance, with 5 affected males linked through asymptomatic females. The affected maternal grandfather, aged 48, was wheelchair bound since the age of 30, presenting also cardiac alterations and joint contractures in the upper limbs. Exome sequencing identified a small insertion-deletion, including the IVS1-27A base previously described. This new family/mutation reinforces the importance of this splice site branchpoint for the appropriate transcription/translation of VMA21, and normal lysosome function. Additionally, it expands the clinical variability, including cardiac involvement and joint contractures to the XMEA phenotype.