Tumours with loss of MSH6 expression are MSI-H when screened with a pentaplex of five mononucleotide repeats

Contains fulltext : 87589.pdf (publisher's version ) (Closed access)BACKGROUND: microsatellite instability (MSI) is commonly screened using a panel of two mononucleotide and three dinucleotide repeats as recommended by a consensus meeting on MSI tumours held at the National Cancer Institute (Bethesda, MD, USA). According to these recommendations, tumours are classified as MSI-H when at least two of the five microsatellite markers show instability, MSI-L when only one marker shows instability and MSS when none of the markers show instability. Almost all MSI-H tumours are characterised by alterations in one of the four major proteins of the mismatch repair (MMR) system (MLH1, MSH2, MSH6 or PMS2) that renders them MMR deficient, whereas MSI-L and MSS tumours are generally MMR proficient. However, tumours from patients with a pathogenic germline mutation in MSH6 can sometimes present an MSI-L phenotype with the NCI panel. The MSH6 protein is not involved in the repair of mismatches of two nucleotides in length and consequently the three dinucleotide repeats of the NCI panel often show stability in MSH6-deficient tumours. METHODS: a pentaplex panel comprising five mononucleotide repeats has been recommended as an alternative to the NCI panel to determine tumour MSI status. Several studies have confirmed the sensitivity, specificity and ease of use of the pentaplex panel; however, its sensitivity for the detection of MSH6-deficient tumours is so far unknown. Here, we used the pentaplex panel to evaluate MSI status in 29 tumours known to harbour an MSH6 defect. RESULTS: MSI-H status was confirmed in 15 out of 15 (100%) cases where matching normal DNA was available and in 28 out of 29 (97%) cases where matching DNA was not available or was not analysed. CONCLUSION: these results show that the pentaplex assay efficiently discriminates the MSI status of tumours with an MSH6 defect

Loss of thymidine phosphorylase activity disrupts adipocyte differentiation and induces insulin-resistant lipoatrophic diabetes.

BACKGROUND: Thymidine phosphorylase (TP), encoded by the TYMP gene, is a cytosolic enzyme essential for the nucleotide salvage pathway. TP catalyzes the phosphorylation of the deoxyribonucleosides, thymidine and 2'-deoxyuridine, to thymine and uracil. Biallelic TYMP variants are responsible for Mitochondrial NeuroGastroIntestinal Encephalomyopathy (MNGIE), an autosomal recessive disorder characterized in most patients by gastrointestinal and neurological symptoms, ultimately leading to death. Studies on the impact of TYMP variants in cellular systems with relevance to the organs affected in MNGIE are still scarce and the role of TP in adipose tissue remains unexplored. METHODS: Deep phenotyping was performed in three patients from two families carrying homozygous TYMP variants and presenting with lipoatrophic diabetes. The impact of the loss of TP expression was evaluated using a CRISPR-Cas9-mediated TP knockout (KO) strategy in human adipose stem cells (ASC), which can be differentiated into adipocytes in vitro. Protein expression profiles and cellular characteristics were investigated in this KO model. RESULTS: All patients had TYMP loss-of-function variants and first presented with generalized loss of adipose tissue and insulin-resistant diabetes. CRISPR-Cas9-mediated TP KO in ASC abolished adipocyte differentiation and decreased insulin response, consistent with the patients' phenotype. This KO also induced major oxidative stress, altered mitochondrial functions, and promoted cellular senescence. This translational study identifies a new role of TP by demonstrating its key regulatory functions in adipose tissue. CONCLUSIONS: The implication of TP variants in atypical forms of monogenic diabetes shows that genetic diagnosis of lipodystrophic syndromes should include TYMP analysis. The fact that TP is crucial for adipocyte differentiation and function through the control of mitochondrial homeostasis highlights the importance of mitochondria in adipose tissue biology

Agrarian diet and diseases of affluence – Do evolutionary novel dietary lectins cause leptin resistance?

BACKGROUND: The global pattern of varying prevalence of diseases of affluence, such as obesity, cardiovascular disease and diabetes, suggests that some environmental factor specific to agrarian societies could initiate these diseases. PRESENTATION OF THE HYPOTHESIS: We propose that a cereal-based diet could be such an environmental factor. Through previous studies in archaeology and molecular evolution we conclude that humans and the human leptin system are not specifically adapted to a cereal-based diet, and that leptin resistance associated with diseases of affluence could be a sign of insufficient adaptation to such a diet. We further propose lectins as a cereal constituent with sufficient properties to cause leptin resistance, either through effects on metabolism central to the proper functions of the leptin system, and/or directly through binding to human leptin or human leptin receptor, thereby affecting the function. TESTING THE HYPOTHESIS: Dietary interventions should compare effects of agrarian and non-agrarian diets on incidence of diseases of affluence, related risk factors and leptin resistance. A non-significant (p = 0.10) increase of cardiovascular mortality was noted in patients advised to eat more whole-grain cereals. Our lab conducted a study on 24 domestic pigs in which a cereal-free hunter-gatherer diet promoted significantly higher insulin sensitivity, lower diastolic blood pressure and lower C-reactive protein as compared to a cereal-based swine feed. Testing should also evaluate the effects of grass lectins on the leptin system in vivo by diet interventions, and in vitro in various leptin and leptin receptor models. Our group currently conducts such studies. IMPLICATIONS OF THE HYPOTHESIS: If an agrarian diet initiates diseases of affluence it should be possible to identify the responsible constituents and modify or remove them so as to make an agrarian diet healthier

The insulin receptor glycosidic moiety : its characterization and role

International audienc

Les lipodystrophies génétiques

Les lipodystrophies d’origine génétique sont des entités rares. Il s’agit d’un groupe de maladies monogéniques, pour lesquelles plusieurs gènes différents ont été mis en cause. Cliniquement, les syndromes lipodystrophiques associent insulino-résistance, troubles du développement ou de la répartition du tissu adipeux et dyslipidémies majeures. Les lipodystrophies sont classées selon le caractère généralisé ou partiel de la lipoatrophie : – Le syndrome de Berardinelli-Seip ou lipoatrophie congénitale généralisée Il est le plus souvent lié à aux mutations de la seipine, ou d’AGPAT2, enzyme de la voie de synthèse des triglycérides adipocytaires. Plus rarement, des mutations de la cavéoline 1 ou de la cavine 1, qui appartiennent à des invaginations membranaires appelées caveolae, et qui sont des protéines structurales de la gouttelette lipidique adipocytaire un rôle dans la formation de la gouttelette lipidique adipocytaire, ont été rapportées dans des syndromes de Berardinelli-Seip. – Le syndrome de Dunnigan ou lipodystrophie partielle familiale. Il est lié le plus souvent aux mutations du gène de la lamine A/C, protéine ubiquitaire du réseau filamentaire de la lamina, situé sous la membrane interne du noyau cellulaire, ou du gène du PPARg, facteur transcriptionnel adipogénique. Des mutations dans d’autres gènes rendent compte d’autres cas, plus rares; il s’agit des gènes codant pour AkT2 (intermédiaire de la voie de signalisation insulinique), CIDEC (protéine de la gouttelette lipidique adipocytaire), ou la périlipine, qui structure la gouttelette et régule la lipolyse adipocytaire, et dont l’implication dans certaines lipodystrophies partielles autosomales dominantes vient d’être montrée. – D’autres mutations de la lamine A/C donnent des syndromes d’insulino-résistance avec lipodystrophie atypique, parfois minime (laminopathies métaboliques) et des syndromes de lipodystrophies partielles ou généralisées dans le cadre de syndromes de vieillissement accélérés (dysplasie acromandibulaire, progéria), pouvant aussi être liés à des mutations d’une l’enzyme de maturation de la prélamine A en lamine A, ZMPSTE24. – D’autres syndromes lipodystrophiques familiaux, généralisés ou partiels, restent de cause inconnue : le rôle d’autres gènes reste à découvrir. L’identification des phénotypes et des génotypes de ces pathologies est encore incomplète mais ces maladies, diverses, génétiquement déterminées, sont des modèles pour l’étude du déterminisme plus général de la résistance à l’insuline. Le traitement est identique au traitement des autres situations d’insulino-résistance : exercice physique, insulino-sensibilisateurs, insuline. Il doit également rendre en charge l’ensemble des facteurs de risque cardio-vasculaires. Des essais cliniques de traitement par la leptine sont encourageants

Acquired Generalized Lipodystrophy: A New Cause of Anti-PD-1 Immune-Related Diabetes

OBJECTIVE: Anti-programmed cell death-1 (anti-PD-1) antibodies have revolutionized advanced cancer therapy. Anti-PD-1 therapy is responsible for immune-related adverse events, with frequent endocrine manifestations, including acute-onset type 1 diabetes. Acquired generalized lipodystrophy (AGL) is a rare disease, believed to be immune mediated, characterized by loss of adipose tissue and insulin resistance-associated complications. RESEARCH DESIGN AND METHODS: We describe the first reported case of AGL induced by immune checkpoint therapy. RESULTS: A 62-year-old woman with metastatic melanoma treated with nivolumab was referred for major hyperglycemia, hypertriglyceridemia, and nonalcoholic steatohepatitis. She had presented with a rapidly progressive generalized loss of subcutaneous adipose tissue. Diabetes was associated with severe insulin resistance and undetectable plasma leptin. Subcutaneous biopsy revealed atrophic adipose tissue infiltrated with cytotoxic CD8(+) T lymphocytes and fibrosis. CONCLUSIONS: AGL is an additional immune-related adverse event of anti-PD-1 therapy that leads to severe insulin resistance-associated complications

Ten-year improvement of insulin resistance and growth with recombinant human insulin-like growth factor 1 in a patient with insulin receptor mutations resulting in leprechaunism

International audienceAim Leprechaunism, a rare genetic disease resulting from mutations in two alleles of the insulin receptor gene, is characterized by severe insulin resistance, retarded growth and, usually, premature death. The ability of treatment with recombinant human insulin-like growth factor 1 (rhIGF1) to improve metabolic and clinical parameters in the long-term is still controversial. Methods Mutations were looked for in the insulin receptor gene of a four-month-old female baby with leprechaunism. The patient's skin fibroblasts were analyzed for response to insulin and IGF1. At the clinical level, the very long-term effects of treatment with rhIGF1/rhIGFBP3 were evaluated by clinical and metabolic parameters. Results The patient's diagnosis was based on compound heterozygous mutations in two alleles of the insulin receptor gene, thus confirming leprechaunism. Cultured fibroblasts showed a decreased number of insulin receptors and were insulin-resistant. However, IGF1 was able to stimulate IGF1 receptor signalling, suggesting possible activation of a salvage pathway. Treatment with IGF1/IGFBP3 for 8.7 years, then IGF1 for 2 years, resulted in normalization of circulating levels of IGF1 and IGFBP3. Large daily variations in glycaemia and insulinaemia persisted, but mean glycaemia decreased. Regarding growth, the patient's BMI Z score normalized and length/height score improved. Our patient presented normal neurological development and academic achievement. The treatment was free of adverse effects. Conclusion Our results provide evidence that rhIGF1 with and without rhIGFBP3 can prevent fatal outcomes, and improve growth and metabolic parameters, for more than 10 years in a patient with leprechaunism. Long-term rhIGF1 for severe insulin resistance syndrome should be considere

Congenital Generalized Lipoatrophy (Berardinelli-Seip Syndrome) Type 1: Description of Novel AGPAT2 Homozygous Variants Showing the Highly Heterogeneous Presentation of the Disease

Berardinelli-Seip congenital lipoatrophy (BSCL) is characterized by near total fat atrophy, associated with the progressive development of metabolic complications. BSCL type 1 (BSCL1) is caused by mutations in AGPAT2, encoding 1-acylglycerol-3phosphate-O-acyltransferase β (recently renamed lysophosphatidic acid acyltransferase beta), which catalyzes the transformation of lysophosphatidic acid in phosphatidic acid, the precursor of glycerophospholipids and triglycerides. BSCL1 is an autosomal recessive disease due to AGPAT2 pathogenic variants leading to a depletion of triglycerides inside the adipose organ, and to a defective signaling of key elements involved in proper adipogenesis. We herein investigated the characteristics of two AGPAT2 variants in Caucasian Italian patients with Berardinelli-Seip congenital lipoatrophy. The first patient exhibited a novel homozygous nonsense c.430 C > T AGPAT2 mutation (p.Gln144*) predicting the synthesis of a truncated enzyme of approximately half of the proper size. The second patient harbored a homozygous AGPAT2 missense variant (p.Arg159Cys), never described previously in BSCL1 patients: the segregation of the disease with the mutation in the pedigree of the family and the in silico analysis are compatible with a causative role of the p.Arg159Cys variant. We remark that BSCL1 can be clinically very heterogeneous at presentation and that the associated complications, occurring in the natural history of the disease, reduce life-expectancy. We point to the necessity for medical treatments capable of reducing the risk of cardiovascular death. In BSCL1 patients, the assessment of cardiovascular disease with conventional diagnostic means maybe particularly challenging