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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Aspects génotypiques et phénotypiques des dyslipidémies primitives rares affectant le métabolisme des lipoprotéines riches en triglycérides / Genotypic and phenotypic features of rare primitive dyslipidemias with disorder of triglyceride-rich lipoproteins metabolism

Di Filippo, Mathilde 20 November 2014 (has links)
Les anomalies du métabolisme des lipoprotéines riches en triglycérides (LRTG), les chylomicrons et les VLDL exposent à des hypocholestérolémies lors d'un défaut de sécrétion et à des hypertriglycéridémies (HTG) majeures entraînant un risque athéromateux et de pancréatites aigües lors de l'altération de leur clairance. Nous avons diagnostiqué des patients présentant un défaut génétique de sécrétion des LRTG au décours de maladie de rétention des chylomicrons, d'abetalipoprotéinémie et d'hypobetalipoprotéinémie homozygote, causées respectivement par des mutations sur les gènes SAR1B, MTTP et APOB. Nous avons étudié le phénotype des 158 patients publiés avec mutation délétère et mis en évidence des différences portant principalement sur la stéatose hépatique, l'insulinorésistance et l'obésité. Nous avons également mis au point une méthode d'évaluation de l'activité post héparinique de la lipoprotéine lipase (LPL) par mesure de la lipolyse des triglycérides des VLDL in vitro, permettant l'exploration phénotypique des patients présentant une HTG sévère. Nous avons mis en évidence des activités LPL augmentées chez des patients présentant pourtant des antécédents d'HTG sévère et des déficits chez des patients ne présentant pas de mutation identifiable du gène LPL, laissant supposer l'existence de facteurs additionnels modulant l'expression ou l'activité de la LPL. Enfin des interrelations des multiples gènes impliqués dans le métabolisme des triglycérides modulent le phénotype. Elles soulèvent l'intérêt de l'exploration simultanée des principaux gènes impliqués dans les dyslipidémies, telle qu'elle sera effectuée par NGS, pour une meilleure compréhension de leur physiopathologie / Abnormal metabolism of triglyceride-rich lipoproteins (LRTG), chylomicrons and VLDL, can result in hypocholesterolemia in case of impaired secretion, or severe hypertriglyceridemia (HTG) and increased risk of atheroma and acute pancreatitis if clearance is affected. We explored patients suffering from genetic defect in the LRTG secretion (chylomicron retention disease, abetalipoproteinemia and homozygous hypobetalipoproteinemia) and identified mutations on respectively SAR1B, and MTTP and APOB gene. Then, we analysed the phenotype of 158 previously published patients with deleterious mutation (i.e. reported cases added to our cohort) and were able to highlight some specific differences like hepatic steatosis, insulin resistance and obesity. Furthermore we developed an assay to evaluate the lipoprotein lipase (LPL) functionality by measuring the triglyceride-VLDL lipolysis in vitro, and provide a reliable phenotypic exploration for patients with past history of severe hypertriglyceridemia. We found an increased LPL activity in some patients with severe hypertriglyceridemia but conversely showed deficits in other patients free from mutation on LPL gene. These results lead to hypothesize that additional factors might contribute to modulate the expression or the activity of LPL. Finally multiple genes of triglycerides metabolism interact together to additionally modulate phenotype. Of high interest is therefore the simultaneous exploration of the key genes involved in dyslipidemia, as provided by the new generation sequencing (NGS), for better understanding of all pathophysiological mechanisms
2

Characterization of the genetic basis in two cases of abetalipoproteinemia reveals two novel mutations

Gunnar, Erika January 2010 (has links)
<p>BACKGROUND: Abetalipoproteinemia (ABL) is a rare autosomal recessive disorder caused by mutations in the gene coding for microsomal triglyceride transfer protein (MTTP).</p><p>AIM: To characterize the genetic basis of ABL in two unrelated patients.</p><p>RESULTS: In the first patient, the substitution c.1911C>T in exon 12 of the <em>MTTP</em> gene, resulting in the protein substitution p.P552L, was discovered using mutation screening. The parents are heterozygous and the proband is a homozygous carrier of this substitution. Using restriction fragment length polymorphism (RFLP), 100 control subjects were analyzed and none carried the substitution indicating that it is a novel <em>MTTP </em>mutation. Sequencing of the other ABL patient showed that the proband carried a homozygous single base insertion, at position  c.2342IVS16+2-3insT, located at the donor splice-site of intron 16 resulting in skipping of exon 16 and truncation of the protein. The proband's mother is heterozygous for the insertion while the father does not carry the insertion. Multiplex ligation-dependent probe amplification (MLPA) did not identify any deletion encompassing exon 16 in the proband, father or mother. Nonpaternity was excluded using polymorphic markers from several chromosomes. Haplotype analysis using markers spanning chromosome 4 revealed  heterodisomy (two homologous chromosomes) of 4p and the distal part of 4q, and isodisomy (duplication of one chromosome) of 4q12-4q26.</p><p>CONCLUSION: These data show that the cause of ABL in one of the patients is a missense mutation, p.P552L, while the cause of ABL in the other patient is due to uniparental disomy, probably resulting from non-disjunstion in meiosis I.</p>
3

Characterization of the genetic basis in two cases of abetalipoproteinemia reveals two novel mutations

Gunnar, Erika January 2010 (has links)
BACKGROUND: Abetalipoproteinemia (ABL) is a rare autosomal recessive disorder caused by mutations in the gene coding for microsomal triglyceride transfer protein (MTTP). AIM: To characterize the genetic basis of ABL in two unrelated patients. RESULTS: In the first patient, the substitution c.1911C&gt;T in exon 12 of the MTTP gene, resulting in the protein substitution p.P552L, was discovered using mutation screening. The parents are heterozygous and the proband is a homozygous carrier of this substitution. Using restriction fragment length polymorphism (RFLP), 100 control subjects were analyzed and none carried the substitution indicating that it is a novel MTTP mutation. Sequencing of the other ABL patient showed that the proband carried a homozygous single base insertion, at position  c.2342IVS16+2-3insT, located at the donor splice-site of intron 16 resulting in skipping of exon 16 and truncation of the protein. The proband's mother is heterozygous for the insertion while the father does not carry the insertion. Multiplex ligation-dependent probe amplification (MLPA) did not identify any deletion encompassing exon 16 in the proband, father or mother. Nonpaternity was excluded using polymorphic markers from several chromosomes. Haplotype analysis using markers spanning chromosome 4 revealed  heterodisomy (two homologous chromosomes) of 4p and the distal part of 4q, and isodisomy (duplication of one chromosome) of 4q12-4q26. CONCLUSION: These data show that the cause of ABL in one of the patients is a missense mutation, p.P552L, while the cause of ABL in the other patient is due to uniparental disomy, probably resulting from non-disjunstion in meiosis I.

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