👤 A Janin

Obesity is a multifactorial disease with a strong genetic component. It is imperative to enhance the identification of genetic variations in their early and severe manifestations in order to facilitate the development of personalized therapeutic strategies, informed clinical care, and the facilitation of genetic counseling. The objective of the study was to provide a comprehensive description of rare variations identified by next generation sequencing of a panel of genes. From 2018 to 2023, a panel of 22 genes was genotyped in 1066 probands (499 children and 567 adults) with severe early-onset obesity. The genetic study led to a molecular diagnosis in 34 probands (3.2%) and revealed variants of unknown significance (VUS) in 10.3% of cases. In the pediatric cohort, a genetic diagnosis was established in 19 probands (3.8%) and a VUS was identified in 67 (13.4%). A total of 152 rare single-nucleotides variants (SNVs) were identified, of which 34 were classified as pathogenic, predominantly within the Early genetic screening in severe obesity provides valuable diagnostic insights and identifies candidates for personalized treatment. The integration of genetics into clinical practice is imperative for the enhancement of care pathways and the facilitation of targeted therapeutic strategies. Show less

Primary hypobetalipoproteinemia (HBL) is mostly due to a polygenic origin or to monogenic disorders including loss of function (LOF) variants in APOB, much less frequently Angiopoietin-like 3 gene (ANGPTL3). A new heterozygous variant of uncertain significance (VUS), p.H343R missense variant in ANGPTL3 cosegregated with HBL in a family. The aim of the present study was to assess in vitro the functionality of this variant and to establish its causality in this family. Targeted next-generation sequencing was performed in the proband to assess monogenic and polygenic origins using an LDL-C-dedicated polygenic risk score (PRS All 8 HBL subjects had PRS This study shows that the novel ANGPTL3-p.H343R variant decreases ANGPTL3 secretion in vitro and can now be considered as a LOF variant. The lipid phenotype in this family results from a synergistic combination of the p.H343R ANGPTL3 variant and a polygenic HBL predisposition. Show less

Familial hypobetalipoproteinemia 1 (FHBL-SD2) is the most common monogenic form of primary hypocholesterolaemia, related to truncating variants in the APOB gene encoding apolipoprotein B. Due to its high level of complexity, variants of uncertain significance (VUS) require further investigations. This study aims to demonstrate the value of setting minigene assays in the FHBL-SD2's genetic diagnosis. Four APOB VUS occurring in patients with a FHBL-SD2 phenotype were considered. In silico analysis were performed with six software programs supposed to predict the potential splicing effect. Then, functional consequences were studied in vitro using a minigene splicing reporter assay. An effect on splicing was predicted in silico for the 4 variants, with the activation of a cryptic acceptor site for c.694-13A>G and c.1471-6A>G variants, and the use of a cryptic donor site for c.1123A>G and c.1470G>A variants. Minigene study showed a complete effect on splicing for 3 mutations, confirming the in silico predictions. All of these transcripts result in premature truncated variants. Therefore, these variants were reclassified as likely pathogenic and causative of FHBL-SD2. However, no effect was shown either in HeLA and HuH7 cells for the c.1470G>A variant. Minigene study appears to be a promising and valuable tool to enhance the diagnostic accuracy of FHBL-SD2. It emphasizes the challenge in interpreting VUS and underscores the importance of establishing a clear strategy to assess their significance. Therefore, promoting minigene studies would be beneficial to understand precisely the impact of splicing variants. Show less

Mobile elements (ME) can transpose by copy-and-paste mechanisms. A heterozygous insertion in APOB exon 3 coding sequence was suspected in a patient with hypobetalipoproteinemia (HBL), by gel electrophoresis of the PCR products. An insertion of a 85 bp fragment flanked by a polyA stretch and a target replication site duplication was identified as a ME insertion (MEI) from the AluYa5 subfamily, NM₀₀₀₃₈₄.3(APOB):c.135₁₃₆ins(160). Then, the DNA was reanalyzed using our NGS custom panel. Routine analysis did not reveal any causative variant, but manual inspection of the alignments and MELT enabled us to detect this MEI from NGS data. A functional study revealed that this MEI introduces a stop codon p.(Phe46Alafs*2) and additionally leads to p.(Lys41Serfs*2) due to an exon skipping. This is the first report of a MEI into APOB, as a cause of HBL. Furthermore, our study highlights the value of including MEI-callers in routine pipelines to improve primary dyslipidemia diagnosis. Show less

Brain metastases challenge daily clinical practice, and the mechanisms by which cancer cells cross the blood-brain barrier remain largely undeciphered. Angiopoietin-like 4 (ANGPTL4) proteolytic fragments have controversial biological effects on endothelium permeability. Here, we studied the link between ANGPTL4 and the risk of brain metastasis in cancer patients. From June 2015 to June 2016, serum samples from 113 cancer patients were prospectively collected, and ANGPTL4 concentrations were assessed. Using a murine model of brain metastases, we investigated the roles of nANGPTL4 and cANGPTL4, the two cleaved fragments of ANGPTL4, in the occurrence of brain metastases. An ANGPTL4 serum concentration over 0.1 ng/mL was associated with decreased overall-survival. Multivariate analyses found that only breast cancer brain metastases were significantly associated with elevated ANGPTL4 serum concentrations. 4T1 murine breast cancer cells were transfected with either In this study, we showed that a higher expression of Angiopoietin-like 4 Fibrinogen-Like Domain (cANGPTL4) was associated with an increased risk of brain metastases in women with breast cancer. Show less

Hypertrophic cardiomyopathy (HCM) is the most common heritable cardiomyopathy, historically believed to affect 1 of 500 people. MYBPC3 pathogenic variations are the most frequent cause of familial HCM and more than 90% of them introduce a premature termination codon. The current study aims to determine the prevalence of deep intronic MYBPC3 pathogenic variations that could lead to splice mutations. To improve molecular diagnosis, a next-generation sequencing (NGS) workflow based on whole MYBPC3 sequencing of a cohort of 93 HCM patients, for whom no putatively causative point mutations were identified after NGS sequencing of a panel of 48 cardiomyopathy-causing genes, was performed. Our approach led us to reconsider the molecular diagnosis of six patients of the cohort (6.5%). These HCM probands were carriers of either a new large MYBPC3 rearrangement or splice intronic variations (five cases). Four pathogenic intronic variations, including three novel ones, were detected. Among them, the prevalence of one of them (NM₀₀₀₂₅₆.3:c.1927+ 600 C>T) was estimated at about 0.35% by the screening of 1,040 unrelated HCM individuals. This study suggests that deep MYBPC3 splice mutations account for a significant proportion of HCM cases (6.5% of this cohort). Consequently, NGS sequencing of MYBPC3 intronic sequences have to be performed systematically. Show less

Optimal molecular diagnosis of primary dyslipidemia is challenging to confirm the diagnosis, test and identify at risk relatives. The aim of this study was to test the application of a single targeted next-generation sequencing (NGS) panel for hypercholesterolemia, hypocholesterolemia, and hypertriglyceridemia molecular diagnosis. NGS workflow based on a custom AmpliSeq panel was designed for sequencing the most prevalent dyslipidemia-causing genes (ANGPTL3, APOA5, APOC2, APOB, GPIHBP1, LDLR, LMF1, LPL, PCSK9) on the Ion PGM Sequencer. One hundred and forty patients without molecular diagnosis were studied. In silico analyses were performed using the NextGENe software and homemade tools for detection of copy number variations (CNV). All mutations were confirmed using appropriate tools. Eighty seven variations and 4 CNV were identified, allowing a molecular diagnosis for 40/116 hypercholesterolemic patients, 5/13 hypocholesterolemic patients, and 2/11, hypertriglyceridemic patients respectively. This workflow allowed the detection of CNV contrary to our previous strategy. Some variations were found in previously unexplored regions providing an added value for genotype-phenotype correlation and familial screening. In conclusion, this new NGS process is an effective mutation detection method and allows better understanding of phenotype. Consequently this assay meets the medical need for individualized diagnosis of dyslipidemia. Show less

Hypertrophic cardiomyopathy (HCM) is the most common inherited cardiovascular disease with an estimated prevalence of 1/500. More than 40 genes have been reported to cause HCM. Among them, CSRP3 is usually included on HCM gene panels used for molecular diagnosis by next-generation sequencing (NGS). To provide new insights into the pathophysiology of hypertrophic cardiomyopathy, a NGS workflow based on a panel of 48 cardiomyopathies-causing genes was analyzed on a cohort of 542 HCM patients. As expected, this molecular approach led to identify most pathogenic or likely pathogenic variants into prevalent HCM-causing genes: MYBPC3 (123/542; 22.7%), MYH7 (48/542; 8.9%), TNNT2 (12/542; 2.2%), and TNNI3 (10/542; 1.8%). Among MYBPC3 variants, 96 led to a premature stop codon (78%). More surprisingly, our molecular study led also to detect, for the first time, homozygous CSRP3 truncating variants in two unrelated HCM probands. Meta-analysis of rare previously reported CSRP3 variants on HCM probands using ACMG guidelines indicate that only one variation (p.Cys58Gly) could be considered as likely pathogen. By combining meta-analysis results and identification of two unrelated HCM patients with homozygous CSRP3 truncating variants, we suggest that the association of CSRP3 as a validated HCM-causing gene require additional studies and those CSRP3 variants could result in HCM with an autosomal recessive inheritance rather than with an autosomal dominant transmission as usually reported on HCM (OMIM 612124). Show less

Stargardt's disease is an autosomal recessive condition characterised by a rapid and bilateral loss of central vision at around 7 to 12 years, with typical changes in the macular and perimacular region. It is one of the most frequent causes of macular degeneration in childhood and accounts for 7% of all retinal dystrophies. Considering that inclusions of lipofuscin-like substances are observed in retinal pigmentary cells of patients with Stargardt's disease on the one hand, and that the early symptoms of neuronal ceroid lipofuscinosis (CLN3) are suggestive of Stargardt's disease on the other hand (age of loss of visual acuity, appearance of the fundus), we decided to test allelism of Stargardt's disease with the infantile (CLN1) and juvenile forms of neuronal ceroid lipofuscinosis (CLN3), which map to chromosomes 1p32 and 16p12-p11 respectively. Using highly informative microsatellite DNA markers in eight multiplex families, we were able to exclude Stargardt's disease from the vicinity of the CLN1 and CLN3 loci. These results strongly reject the hypothesis of allelism of Stargardt's disease with the neuronal forms of ceroid lipofuscinosis. Show less