👤 Oriane Marmontel

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

Dysbetalipoproteinemia (DBL) is a combined dyslipidemia associated with an increased risk of atherosclerotic cardiovascular diseases mostly occurring in ε2ε2 subjects and infrequently in subjects with rare Patients were divided into 3 groups according to their Total cholesterol (TC)/ApoB and NHDLC/ApoB are the best ratios to suspect DBL. In ε2ε2, according to their likelihood ratios (LR), the most clinically efficient algorithms were the HCL, Sniderman and De Graaf's. In APOEmut, Sniderman's algorithm exhibited the lowest negative LR (0.07) whereas the HCL's exhibited the highest positive LR (29). In both cohorts, the HCL algorithm had the best LR. We proposed a powerful algorithm based on ApoB concentration and the routine lipid profile, which performs remarkably well in detecting ε2ε2 or Show less

The LMF1 (lipase maturation factor 1) gene encodes a protein involved in lipoprotein lipase and hepatic lipase maturation. Homozygous mutations in LMF1 leading to severe hypertriglyceridemia (SHTG) are rare in the literature. A few additional rare LMF1 variants have been described with poor functional studies. The aim of this study was to assess the frequency of LMF1 variants in a cohort of 385 patients with SHTG, without homozygous or compound heterozygous deleterious mutations identified in lipoprotein lipase (LPL), apolipoprotein A5 (APOA5), apolipoprotein C2 (APOC2), glycosylphosphatidylinositol-anchored high-density lipoprotein binding protein 1 (GPIHBP1) genes, and to determine their functionality. LMF1 coding variants were screened using denaturing high-performance liquid chromatography followed by direct sequencing. In silico studies of LMF1 variants were performed, followed by in vitro functional studies using human embryonic kidney 293T (HEK-293T) cells cotransfected with vectors encoding human LPL and LMF1 cDNA. LPL activity was measured in cell culture medium after heparin addition using human VLDL-TG as substrate. Nineteen nonsynonymous coding LMF1 variants were identified in 65 patients; 10 variants were newly described in SHTG. In vitro, p.Gly172Arg, p.Arg354Trp, p.Arg364Gln, and p.Arg537Trp LMF1 variants decreased LPL activity, and the p.Trp464Ter variant completely abolished LPL activity. We identified a young girl heterozygote for the p.Trp464Ter variant and a homozygote carrier of the p.Gly172Arg variant with a near 50% decreased LPL activity in vitro and in vivo. The study confirms the rarity of LMF1 variants in a large cohort of patients with SHTG. LMF1 variants are likely to be involved in multifactorial hyperchylomicronemia. Partial LMF1 defects could be associated with intermittent phenotype as described for p.Gly172Arg homozygous and p.Trp464Ter heterozygous carriers. 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

The heterogeneity and mechanisms of multifactorial chylomicronemia (MCM) remain poorly understood. To gain new insights, post heparin lipolysis measured at 60 min (PHLA60), in addition to the more commonly used 10 min (PHLA10), was assessed in patients with history of MCM. 62 consecutive MCM patients were studied. The evaluation included LPL, APOC2, APOA5, GPIHBP1, LMF1 and APOE gene sequencing, as well as pre- and post-heparin injection biochemical analysis, including lipid profiles, determination of apolipoprotein B, B-48, CII, CIII, lipoprotein lipase (LPL) concentrations (LPLC0, LPLC10 and LPLC60) and post-heparin LPL activity (PHLA10 and PHLA60). In controls, PHLA60 did not differ from PHLA10, while in MCM patients, PHLA60 was significantly lower than PHLA10 (p<0.001). PHLA60 showed a bimodal distribution in MCM patients (p=0.03). One subgroup exhibited PHLA60 similar to controls, with persistent lipoprotein remodeling and, paradoxically, the highest basal plasma TG concentration. APOE ε4 was over-represented compared to the European population (p<0.05) and Apo CIII/Apo B ratio was increased (p<0.01). The other subgroup exhibited low PHLA60 (p<0.001) compared to both controls and the other MCM subgroup with a lipoprotein profile consistent with fast and transient remodeling. LMF1 p. Arg364Gln was over-represented compared to the European population (p<0.05). The study showed that PHLA60 identifies a subgroup of MCM with a defect in lipolysability and/or hepatic clearance of triglycerides-rich lipoproteins, and a larger one with a defect in LPL availability. These findings provide new insights into the heterogeneity of MCM and might contribute to adjust treatment targeting. Show less

Determination of lipoprotein lipase (LPL) activity is important for hyperchylomicronemia diagnosis, but remains both unreliable and cumbersome with current methods. Consequently by using human VLDL as substrate we developed a new LPL assay which does not require sonication, radioactive or fluorescent particles. Post-heparin plasma was added to the VLDL substrate prepared by ultracentrifugation of heat inactivated normolipidemic human serums, diluted in buffer, pH 8.15. Following incubation at 37°c, the NEFA (non esterified fatty acids) produced were assayed hourly for 4 hours. LPL activity was expressed as µmol/l/min after subtraction of hepatic lipase (HL) activity, obtained following LPL inhibition with NaCl 1.5 mmol/l. Molecular analysis of LPL, GPIHBP1, APOA5, APOC2, APOE genes was available for 62 patients. Our method was reproducible (coefficient of variation (CV): intra-assay 5.6%, inter-assay 7.1%), and tightly correlated with the conventional radiolabelled triolein emulsion method (n = 26, r = 0.88). Normal values were established at 34.8 ± 12.8 µmol/l/min (mean ± SD) from 20 control subjects. LPL activities obtained from 71 patients with documented history of major hypertriglyceridemia showed a trimodal distribution. Among the 11 patients with a very low LPL activity (< 10 µmol/l/min), 5 were homozygous or compound heterozygous for LPL or GPIHBP1 deleterious mutations, 3 were compound heterozygous for APOA5 deleterious mutations and the p.S19W APOA5 susceptibility variant, and 2 were free of any mutations in the usual candidate genes. No homozygous gene alteration in LPL, GPIHBP1 and APOC2 genes was found in any of the patients with LPL activity > 10 µmol/l/min. This new reproducible method is a valuable tool for routine diagnosis and reliably identifies LPL activity defects. Show less

Determination of lipoprotein lipase (LPL) activity is important for hyperchylomicronemia diagnosis, but remains both unreliable and cumbersome with current methods. Consequently by using human VLDL as substrate we developed a new LPL assay which does not require sonication, radioactive or fluorescent particles. Post-heparin plasma was added to the VLDL substrate prepared by ultracentrifugation of heat inactivated normolipidemic human serums, diluted in buffer, pH 8.15. Following incubation at 37°c, the NEFA (non esterified fatty acids) produced were assayed hourly for 4 hours. LPL activity was expressed as µmol/l/min after subtraction of hepatic lipase (HL) activity, obtained following LPL inhibition with NaCl 1.5 mmol/l. Molecular analysis of LPL, GPIHBP1, APOA5, APOC2, APOE genes was available for 62 patients. Our method was reproducible (coefficient of variation (CV): intra-assay 5.6%, inter-assay 7.1%), and tightly correlated with the conventional radiolabelled triolein emulsion method (n = 26, r = 0.88). Normal values were established at 34.8 ± 12.8 µmol/l/min (mean ± SD) from 20 control subjects. LPL activities obtained from 71 patients with documented history of major hypertriglyceridemia showed a trimodal distribution. Among the 11 patients with a very low LPL activity (<10 µmol/l/min), 5 were homozygous or compound heterozygous for LPL or GPIHBP1 deleterious mutations, 3 were compound heterozygous for APOA5 deleterious mutations and the p.S19W APOA5 susceptibility variant, and 2 were free of any mutations in the usual candidate genes. No homozygous gene alteration in LPL, GPIHBP1 and APOC2 genes was found in any of the patients with LPL activity >10 µmol/l/min. This new reproducible method is a valuable tool for routine diagnosis and reliably identifies LPL activity defects. Show less