Global ETD Search

21	Serum lipoprotein(a) in relation to ischemic heart disease and associated risk factors Slunga, Lisbeth January 1993 (has links) Lipoprotein(a) (Lp(a)) consists of an LDL-like particle and the specific protein apo(a), which is very similar to plasminogen. Apo(a) contains repeated kringle structures and a serine protease domain, which cannot be activated by t-PA. Lp(a) is considered to be a predictor for atherosclerotic disease. It has been found incorporated in atherosclerotic plaques and inhibits in vitro fibrinolysis. Lp(a) was determined in 1527 randomly selected individuals participating in the Northern Sweden WHO-MONICA project. A weak but significant relation between Lp(a) and increasing age was found. Menopausal status was the strongest independent predictor of Lp(a) level in women. Fibrinogen was independently related to Lp(a) in both sexes. Only a minor fraction of Lp(a) variance could be explained for in a multiple regression model, which is in agreement with the contention that Lp(a) is highly genetically determined. Lp(a) was determined in 1571 patients investigated with coronary angiography because of suspected severe coronary artery disease (CAD). Patients with proven CAD at elective angiography had significantly higher Lp(a) than patients without significant CAD or healthy controls. Lp(a) was found to be an independent discriminator of CAD in both sexes. HLA-DR genotype 13 or 17 was found more frequently in 30 male patients with angiographic CAD at young age (< 50 years) than in 30 age matched controls. These genotypes were common in patients with high Lp(a) levels, which indicates that Lp(a) may be related to immunological processes. The reaction of Lp(a) was investigated in 32 patients with acute myocardial infarction (AMI). Lp(a) increased during the first week, but the response was comparatively weak. Individual Lp(a) responses were heterogeneous and no correlations to infarct size or changes in the acute phase proteins were found. In a randomized cross-over study on 36 hypercholesterolaemic patients treated with simvastatin/placebo during 12+12 weeks Lp(a) did not change significantly, but patients with high Lp(a) levels at baseline tended to develop further increased Lp(a). To conclude, Lp(a) was found to be an independent predictor of angiographic CAD in both men and women. Lp(a) levels are primarily genetically determined and only a small fraction of Lp(a) variance could be explained by other factors in this study. Lp(a) may be related to HLA DR types and immunological processes involved in atherosclerotic disease. Lp(a) increased slightly during the first week of AMI, but was not related to changes in the acute-phase proteins. The effective LDL-lowering agent simvastatin did not influence Lp(a) significantly. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1993, härtill 5 uppsatser.</p> / digitalisering@umu Lipoprotein(a) lipids epidemiology coronary artery disease coronary angiography HLA DR acute-phase protein myocardial infarction HMG CoA reductase inhibitor simvastatin
22	Molecular Markers of Sensitivity to the Anticancer Effects of Different Statins in Human Tumour Cell Lines Goard, Carolyn Anna 20 June 2014 (has links) Statins, common cholesterol control drugs, are appreciated to have promising anticancer activity through inhibition of the mevalonate pathway. Several lines of evidence suggest that certain tumours are susceptible to statins, but the underlying molecular features arbitrating this sensitivity remain unknown. We hypothesize that (i) not all statins will behave equivalently in the context of anticancer therapy, and (ii) a molecularly-defined subset of tumours are intrinsically sensitive to statins. My objectives have therefore been to further our understanding of functional differences between statins influencing their anticancer effects, and to investigate molecular features associated with statin sensitivity in breast cancer. Specifically, this thesis addresses two aims: (i) to characterize differential interactions between four statins and the xenobiotic transporter P-glycoprotein (P-gp; also known as ABCB1), and (ii) to identify molecular features associated with fluvastatin and lovastatin sensitivity in breast tumour cell lines. We first characterized the interactions of statins with P-gp in vitro and in multidrug-resistant (MDR) tumour cells. While lovastatin could directly bind to P-gp and modulate MDR, no significant interactions were observed with fluvastatin. Fluvastatin may therefore be appropriate for use in unselected patients, to avoid adverse drug interactions with coadministered P-gp substrate chemotherapeutics. Fluvastatin has also shown promise in breast cancer treatment, where molecular features predictive of statin sensitivity would be particularly valuable. A panel of 19 immortalized breast cell lines was therefore characterized for sensitivity to fluvastatin and lovastatin. Relatively statin-sensitive cells underwent apoptosis upon statin treatment, and were more likely to have an estrogen receptor alpha (ERα)-negative, basal-like phenotype. By mining available baseline gene expression data, a candidate 10-gene signature predictive of fluvastatin sensitivity was also generated. Taken together, this research provides insight into molecular markers of statin sensitivity that may facilitate fast-tracking of these drugs to clinical trials in subsets of cancer patients most likely to respond. statin P-glycoprotein breast cancer drug resistance HMG-CoA reductase mevalonate 0760 Medical Biophysics 0307 Molecular Biology
23	Molecular Rationale and Determinants of Sensitivity for Statin-Induced Apoptosis of Human Tumour Cells Clendening, James William 07 March 2011 (has links) The statin family of hydroxymethylglutaryl coenzyme A reductase (HMGCR) inhibitors, used to control hypercholesterolemia, triggers apoptosis of various human tumour cells. HMGCR is the rate-limiting enzyme of the mevalonate (MVA) pathway, a fundamental metabolic pathway required for the generation of a number of biochemical end-products including cholesterol and isoprenoids, but the contribution of the MVA pathway to human cancer remains largely unexplored. Furthermore, as only a subset of tumour cells has been shown to be highly responsive to statins, the identification of appropriate subsets of patients will be required to successfully advance these agents as anticancer therapeutics. To this end, there were two major aims to this work: 1) Elucidate a molecular rationale for the observed therapeutic index of statin-induced apoptosis in normal and tumour cells; 2) Identify molecular determinants of sensitivity for statin-induced apoptosis in human tumour cells. To address the first aim we demonstrated that dysregulation of the MVA pathway, achieved by ectopic expression of either full length HMGCR (HMGCR-FL) or its novel splice variant lacking exon 13 (HMGCR-D13), increases transformation. Ectopic HMGCR promotes growth of transformed and non-transformed cells under anchorage-independent conditions or as xenografts in immunocompromised mice. We also show that high mRNA levels of HMGCR and four out of five other MVA pathway genes correlate with poor prognosis in primary breast cancer, suggesting the MVA pathway may play a role in the etiology of human cancers. To address the second aim, we show that dysregulation of the MVA pathway is a key determinant of sensitivity to statin-induced apoptosis in multiple myeloma. In a panel of 17 distinct myeloma cell lines, half were sensitive to statin-induced apoptosis and the remainder were insensitive. Interestingly, in sensitive cells, the classic feedback response to statin exposure is lost, a feature we demonstrated could distinguish a subset of statin-sensitive primary myeloma cells. We further illustrated that statins are highly effective and well tolerated in an orthotopic model of myeloma using cells harboring a dysregulated MVA pathway. Taken together, this work provides a molecular rationale and determinants of sensitivity for statin-induced apoptosis of human tumour cells. statins anti-cancer therapeutics HMGCR HMG-CoA reductase ovarian cancer multiple myeloma apoptosis drug sensitivity drug resistance mevalonate transformation tumour metabolism 0307 0992
24	Regulation of HMG-CoA reductase, HSL and ACAT expression and activity in testicular cholesterol metabolism in mink and in mouse following experimental genetic deletion Chen, Li 08 1900 (has links) Introduction: L'homéostasie du cholestérol est indispensable à la synthèse de la testostérone dans le tissu interstitiel et la production de gamètes mâles fertiles dans les tubules séminifères. Les facteurs enzymatiques contribuent au maintien de cet équilibre intracellulaire du cholestérol. L'absence d'un ou de plusieurs enzymes telles que la HMG-CoA réductase, la HSL et l'ACAT-1 a été associée à l'infertilité masculine. Toutefois, les facteurs enzymatiques qui contribuent au maintien de l'équilibre intra-tissulaire du cholestérol n'ont pas été étudiés. Cette étude a pour but de tester l'hypothèse que le maintien des taux de cholestérol compatibles avec la spermatogenèse nécessite une coordination de la fonction intracellulaire des enzymes HMG-CoA réductase, ACAT1 et ACAT2 et la HSL. Méthodes: Nous avons analysé l'expression de l’ARNm et de la protéine de ces enzymes dans les fractions enrichies en tubules séminifères (STf) de vison durant le développement postnatal et le cycle reproductif annuel et dans les fractions enrichies en tissu interstitiel (ITf) et de STf durant le développement postnatal chez la souris. Nous avons développé deux nouvelles techniques pour la mesure de l'activité enzymatique de la HMG-CoA réductase et de celle de l'ACAT1 et ACAT2. En outre, l'immunohistochimie a été utilisée pour localiser les enzymes dans le testicule. Enfin, les souris génétiquement déficientes en HSL, en SR-BI et en CD36 ont été utilisées pour élucider la contribution de la HMG-CoA réductase, l'ACAT1 et l'ACAT2 et la HSL à l'homéostasie du cholestérol. Résultats: 1) HMG-CoA réductase: (Vison) La variation du taux d’expression de l’ARNm de la HMG-CoA réductase était corrélée à celle de l'isoforme de 90 kDa de la protéine HMG-CoA réductase durant le développement postnatal et chez l'adulte durant le cycle reproductif saisonnier. L'activité enzymatique de la HMG-CoA réductase augmentait de façon concomitante avec le taux protéinique pour atteindre son niveau le plus élevé à 240 jours (3.6411e-7 mol/min/μg de protéines) au cours du développement et en Février (1.2132e-6 mol/min/μg de protéines) durant le cycle reproductif chez l’adulte. (Souris), Les niveaux d'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase étaient maximales à 42 jours. A l'opposé, le taux protéinique diminuait au cours du développement. 2) HSL: (Vison), l'expression de la protéine de 90 kDa de la HSL était élevée à 180- et 240 jours après la naissance, ainsi qu'en Janvier durant le cycle saisonnier chez l'adulte. L'activité enzymatique de la HSL augmentait durant le développement pour atteindre un pic à 270 jours (36,45 nM/min/μg). Chez l'adulte, l'activité enzymatique de la HSL était maximale en Février. (Souris) Le niveau d’expression de l'ARNm de la HSL augmentait significativement à 21-, 28- et 35 jours après la naissance concomitamment avec le taux d'expression protéinique. L'activité enzymatique de la HSL était maximale à 42 jours suivie d'une baisse significative chez l'adulte. 3) ACAT-1 et ACAT-2: Le présent rapport est le premier à identifier l’expression de l'ACAT-1 et de l'ACAT-2 dans les STf de visons et de souris. (Vison) L'activité enzymatique de l'ACAT-2 était maximale à la complétion du développement à 270 jour (1190.00 CPMB/200 μg de protéines) et en janvier (2643 CPMB/200 μg de protéines) chez l'adulte. En revanche, l'activité enzymatique de l'ACAT-1 piquait à 90 jours et en août respectivement durant le développement et chez l'adulte. (Souris) Les niveaux d'expression de l'ARNm et la protéine de l'ACAT-1 diminuait au cours du développement. Le taux de l'ARNm de l'ACAT-2, à l’opposé du taux protéinique, augmentait au cours du développement. L'activité enzymatique de l'ACAT-1 diminuait au cours du développement tandis que celle de l'ACAT-2 augmentait pour atteindre son niveau maximal à 42 jours. 4) Souris HSL-/ -: Le taux d’expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase diminuaient significativement dans les STf de souris HSL-/- comparés aux souris HSL+/+. Par contre, les taux de l'ARNm et les niveaux des activités enzymatiques de l'ACAT-1 et de l'ACAT-2 étaient significativement plus élevés dans les STf de souris HSL-/- comparés aux souris HSL+/+ 5) Souris SR-BI-/-: L'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase et de l'ACAT-1 étaient plus basses dans les STf de souris SR-BI-/- comparées aux souris SR-BI+/+. A l'opposé, le taux d'expression de l'ARNm et l'activité enzymatique de la HSL étaient augmentées chez les souris SR-BI-/- comparées aux souris SR-BI+/+. 6) Souris CD36-/-: L'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase et de l'ACAT-2 étaient significativement plus faibles tandis que celles de la HSL et de l'ACAT-1 étaient inchangées dans les STf de souris CD36-/- comparées aux souris CD36+/+. Conclusion: Nos résultats suggèrent que: 1) L'activité enzymatique de la HMG-CoA réductase et de la HSL sont associées à l'activité spermatogénétique et que ces activités ne seraient pas régulées au niveau transcriptionnel. 2) L'ACAT-1 et de l'ACAT-2 sont exprimées dans des cellules différentes au sein des tubules séminifères, suggérant des fonctions distinctes pour ces deux isoformes: l'estérification du cholestérol libre dans les cellules germinales pour l'ACAT-1 et l'efflux du cholestérol en excès dans les cellules de Sertoli au cours de la spermatogenèse pour l'ACAT-2. 3) La suppression génétique de la HSL diminuait la HMG-CoA réductase et augmentait les deux isoformes de l'ACAT, suggérant que ces enzymes jouent un rôle critique dans le métabolisme du cholestérol intratubulaire. 4) La suppression génétique des transporteurs sélectifs de cholestérol SR-BI et CD36 affecte l'expression (ARNm et protéine) et l'activité des enzymes HMG-CoA réductase, HSL, ACAT-1 et ACAT-2, suggérant l'existence d’un effet compensatoire entre facteurs enzymatiques et non-enzymatiques du métabolisme du cholestérol dans les fractions tubulaires. Ensemble, les résultats de notre étude suggèrent que les enzymes impliquées dans la régulation du cholestérol intratubulaire agissent de concert avec les transporteurs sélectifs de cholestérol dans le but de maintenir l'homéostasie du cholestérol intra-tissulaire du testicule. / Introduction: Cholesterol homeostasis is essential for the synthesis of testosterone in interstitial tissue and the production of fertile gametes in the seminiferous tubules of the testis. Intracelluar cholesterol equilibrium in the testis is delicately maintained and regulated by enzymatic factors. The absence of one or more enzymes (HMG-CoA reductase, HSL and ACAT) has been implicated in the development of male infertility. However, the enzymatic factors that contribute to the maintenance of cholesterol equilibrium have not been investigated. This study is to test the hypothesis that the coordinated function of intracellular enzymes, HMG-CoA reductase, HSL and ACAT isoforms, are the basis of a system that helps to maintain cholesterol equilibrium during spermatogenesis. Methods: We characterized mRNA and protein expression levels of these enzymes in mink seminiferous tubules-enriched fraction (STf) during development and the annual reproductive cycle; or in mouse interstitial tissue-enriched fraction (ITf) and STf during postnatal development. Two novel techniques were developed to measure the HMG-CoA reductase, HSL and ACAT activities in mink and mouse STf. Additionally, immunohistochemistry was used to localize the enzymes in the testis. Finally, HSL knockout (KO) infertile male mice and selective cholesterol transporter (SR-BI, CD36) KO mice were used to elucidate the contribution of HMG-CoA reductase, HSL and ACAT isoforms in testicular cholesterol homeostasis when the enzyme or cholesterol transport system was genetically impeded. Results: 1) HMG-CoA reductase: (In mink STf), HMG-CoA reductase mRNA levels were relatively independent of 90kDa protein expression during development and the seasonal cycle. HMG-CoA reductase activity increased independently of its protein expression and reached maximal values by day 240 (3.6411e-7 mol/min/μg protein) during development and peaked in February (1.2132e-6 mol/min/μg protein) during the seasonal cycle. (In mouse STf), HMG-CoA reductase mRNA levels and enzymatic activity peaked by 42 days before decreasing while the protein levels tended to decrease steadily. 2) HSL: (In mink STf), an increase of 90kDa HSL protein expression by day 180- and 240 after birth as well as in January in seasonal cycle, was not related to the enzyme mRNA expression. HSL activity increased progressively through development and peaked by 270 days (36.45 nM/min/μg); another high HSL activity was shown in February. (In mouse STf), three significant elevations in HSL mRNA levels by day 21, 28, and 35 corresponded to a steady elevation of HSL protein expression throughout development. HSL activity peaked by day 42 but decreased remarkably in the adult. 3) ACAT-1 and ACAT-2: This is the first report to establish the presence of both ACAT-1 and ACAT-2 in the mink and mouse testis. (In mink STf), ACAT-2 activity reached its maximal value at 1190.00 CPMB/200μg protein by day 270 and 2643 CPMB/200μg protein in January. In contrast, ACAT-1 activity peaked by day 90 or in August during the seasonal cycle. (In mouse STf), ACAT-1 mRNA and protein levels were both decreased throughout development; ACAT-2 mRNA levels changes in the opposite direction of the protein levels, increasing throughout development. ACAT-1 activity in STf decreased throughout the development; while ACAT-2 activity increased significantly during development and peaked by day 42. 4) HSL-/- mice: KO HSL gene caused a decrease of HMG-CoA redutase mRNA expression and enzymatic activity in STf. However, ACAT-1 and ACAT-2 mRNA levels and enzymatic activities significantly increased in STf. 5) SR-BI-/- mice: The mRNA expression and activity of HMG-CoA reductase as well as ACAT-1 were statistically decreased in STf; whereas HSL mRNA level and activity were increased. 6) CD36-/- mice: The mRNA expression and activity of HMG-CoA reductase as well as ACAT-2 were significantly decreased in STf; while HSL and ACAT-1 mRNA levels and activities remained constant. Conclusion: These results suggest that 1) Activation of HMG-CoA reductase and HSL is associated with spermatogenetic activity, while the enzymatic activities may not only be regulated transcriptionally. 2) ACAT-1 and ACAT-2 are expressed in different cells of the tubules, suggesting distinct functions for these two closely related enzyme isoforms, with ACAT-1 being related to cholesterol esterification in germ cells and with ACAT-2 being associated with the removal of excessive cholesterol by Sertoli cells during spermatogenesis. 3) Genetically blocking HSL reduced the activity of HMG-CoA reductase while increasing activity of ACAT isoforms, suggesting the turn-off the enzyme in the cholesterol ester cycle may be essential for the accumulation of cholesterol esters in the tubules. 4) The dysfunction of intracellular cholesterol transporters affects regulation of the enzymes (HMG-CoA reductase, HSL and ACAT-1 and ACAT-2), which is presumably in response to compensatory extracellular cholesterol uptake. This study suggests that the enzymes implicated in the regulation of intracellular cholesterol may act cooperatively to maintain cholesterol homeostasis in testis. Homéostasie du cholestérol HMG-CoA réductase HSL ACAT-1 ACAT-2 Spermatogenèse Cholesterol homeostasis HMG-CoA reductase Spermatogenesis
25	Regulation of intestinal cholesterol transport and metabolism by high glucose levels = Régulation intestinale du transport et du métabolisme du cholestérol par le glucose Ravid Leibovici, Rosa Zaava January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal. ABCA1 ABCG5/G8 SR-BI CD36 NPC1L1 PPAR LXR SREBP ACAT and HMG-CoA reductase ABCA1 ABCG5/G8 SR-BI CD36 NPC1L1 PPAR LXR SREBP ACAT and HMG-CoA réductase
26	Implication de la convertase NARC-1 / PCSK9 au cours de la différenciation neuroectodermale Poirier, Steve January 2006 (has links) Mémoire numérisé par la Direction des bibliothèques de l'Université de Montréal. NARC-1/PCSK9 Convertase de proprotéines Neurogenèse Différentiation neuronale HMG-CoA reductase LDLR Cholestérol SREBP Zebrafish Morpholino QPCR Acide all-trans rétinoïque Cellules P19
27	Regulation of HMG-CoA reductase, HSL and ACAT expression and activity in testicular cholesterol metabolism in mink and in mouse following experimental genetic deletion Chen, Li 08 1900 (has links) Introduction: L'homéostasie du cholestérol est indispensable à la synthèse de la testostérone dans le tissu interstitiel et la production de gamètes mâles fertiles dans les tubules séminifères. Les facteurs enzymatiques contribuent au maintien de cet équilibre intracellulaire du cholestérol. L'absence d'un ou de plusieurs enzymes telles que la HMG-CoA réductase, la HSL et l'ACAT-1 a été associée à l'infertilité masculine. Toutefois, les facteurs enzymatiques qui contribuent au maintien de l'équilibre intra-tissulaire du cholestérol n'ont pas été étudiés. Cette étude a pour but de tester l'hypothèse que le maintien des taux de cholestérol compatibles avec la spermatogenèse nécessite une coordination de la fonction intracellulaire des enzymes HMG-CoA réductase, ACAT1 et ACAT2 et la HSL. Méthodes: Nous avons analysé l'expression de l’ARNm et de la protéine de ces enzymes dans les fractions enrichies en tubules séminifères (STf) de vison durant le développement postnatal et le cycle reproductif annuel et dans les fractions enrichies en tissu interstitiel (ITf) et de STf durant le développement postnatal chez la souris. Nous avons développé deux nouvelles techniques pour la mesure de l'activité enzymatique de la HMG-CoA réductase et de celle de l'ACAT1 et ACAT2. En outre, l'immunohistochimie a été utilisée pour localiser les enzymes dans le testicule. Enfin, les souris génétiquement déficientes en HSL, en SR-BI et en CD36 ont été utilisées pour élucider la contribution de la HMG-CoA réductase, l'ACAT1 et l'ACAT2 et la HSL à l'homéostasie du cholestérol. Résultats: 1) HMG-CoA réductase: (Vison) La variation du taux d’expression de l’ARNm de la HMG-CoA réductase était corrélée à celle de l'isoforme de 90 kDa de la protéine HMG-CoA réductase durant le développement postnatal et chez l'adulte durant le cycle reproductif saisonnier. L'activité enzymatique de la HMG-CoA réductase augmentait de façon concomitante avec le taux protéinique pour atteindre son niveau le plus élevé à 240 jours (3.6411e-7 mol/min/μg de protéines) au cours du développement et en Février (1.2132e-6 mol/min/μg de protéines) durant le cycle reproductif chez l’adulte. (Souris), Les niveaux d'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase étaient maximales à 42 jours. A l'opposé, le taux protéinique diminuait au cours du développement. 2) HSL: (Vison), l'expression de la protéine de 90 kDa de la HSL était élevée à 180- et 240 jours après la naissance, ainsi qu'en Janvier durant le cycle saisonnier chez l'adulte. L'activité enzymatique de la HSL augmentait durant le développement pour atteindre un pic à 270 jours (36,45 nM/min/μg). Chez l'adulte, l'activité enzymatique de la HSL était maximale en Février. (Souris) Le niveau d’expression de l'ARNm de la HSL augmentait significativement à 21-, 28- et 35 jours après la naissance concomitamment avec le taux d'expression protéinique. L'activité enzymatique de la HSL était maximale à 42 jours suivie d'une baisse significative chez l'adulte. 3) ACAT-1 et ACAT-2: Le présent rapport est le premier à identifier l’expression de l'ACAT-1 et de l'ACAT-2 dans les STf de visons et de souris. (Vison) L'activité enzymatique de l'ACAT-2 était maximale à la complétion du développement à 270 jour (1190.00 CPMB/200 μg de protéines) et en janvier (2643 CPMB/200 μg de protéines) chez l'adulte. En revanche, l'activité enzymatique de l'ACAT-1 piquait à 90 jours et en août respectivement durant le développement et chez l'adulte. (Souris) Les niveaux d'expression de l'ARNm et la protéine de l'ACAT-1 diminuait au cours du développement. Le taux de l'ARNm de l'ACAT-2, à l’opposé du taux protéinique, augmentait au cours du développement. L'activité enzymatique de l'ACAT-1 diminuait au cours du développement tandis que celle de l'ACAT-2 augmentait pour atteindre son niveau maximal à 42 jours. 4) Souris HSL-/ -: Le taux d’expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase diminuaient significativement dans les STf de souris HSL-/- comparés aux souris HSL+/+. Par contre, les taux de l'ARNm et les niveaux des activités enzymatiques de l'ACAT-1 et de l'ACAT-2 étaient significativement plus élevés dans les STf de souris HSL-/- comparés aux souris HSL+/+ 5) Souris SR-BI-/-: L'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase et de l'ACAT-1 étaient plus basses dans les STf de souris SR-BI-/- comparées aux souris SR-BI+/+. A l'opposé, le taux d'expression de l'ARNm et l'activité enzymatique de la HSL étaient augmentées chez les souris SR-BI-/- comparées aux souris SR-BI+/+. 6) Souris CD36-/-: L'expression de l'ARNm et l'activité enzymatique de la HMG-CoA réductase et de l'ACAT-2 étaient significativement plus faibles tandis que celles de la HSL et de l'ACAT-1 étaient inchangées dans les STf de souris CD36-/- comparées aux souris CD36+/+. Conclusion: Nos résultats suggèrent que: 1) L'activité enzymatique de la HMG-CoA réductase et de la HSL sont associées à l'activité spermatogénétique et que ces activités ne seraient pas régulées au niveau transcriptionnel. 2) L'ACAT-1 et de l'ACAT-2 sont exprimées dans des cellules différentes au sein des tubules séminifères, suggérant des fonctions distinctes pour ces deux isoformes: l'estérification du cholestérol libre dans les cellules germinales pour l'ACAT-1 et l'efflux du cholestérol en excès dans les cellules de Sertoli au cours de la spermatogenèse pour l'ACAT-2. 3) La suppression génétique de la HSL diminuait la HMG-CoA réductase et augmentait les deux isoformes de l'ACAT, suggérant que ces enzymes jouent un rôle critique dans le métabolisme du cholestérol intratubulaire. 4) La suppression génétique des transporteurs sélectifs de cholestérol SR-BI et CD36 affecte l'expression (ARNm et protéine) et l'activité des enzymes HMG-CoA réductase, HSL, ACAT-1 et ACAT-2, suggérant l'existence d’un effet compensatoire entre facteurs enzymatiques et non-enzymatiques du métabolisme du cholestérol dans les fractions tubulaires. Ensemble, les résultats de notre étude suggèrent que les enzymes impliquées dans la régulation du cholestérol intratubulaire agissent de concert avec les transporteurs sélectifs de cholestérol dans le but de maintenir l'homéostasie du cholestérol intra-tissulaire du testicule. / Introduction: Cholesterol homeostasis is essential for the synthesis of testosterone in interstitial tissue and the production of fertile gametes in the seminiferous tubules of the testis. Intracelluar cholesterol equilibrium in the testis is delicately maintained and regulated by enzymatic factors. The absence of one or more enzymes (HMG-CoA reductase, HSL and ACAT) has been implicated in the development of male infertility. However, the enzymatic factors that contribute to the maintenance of cholesterol equilibrium have not been investigated. This study is to test the hypothesis that the coordinated function of intracellular enzymes, HMG-CoA reductase, HSL and ACAT isoforms, are the basis of a system that helps to maintain cholesterol equilibrium during spermatogenesis. Methods: We characterized mRNA and protein expression levels of these enzymes in mink seminiferous tubules-enriched fraction (STf) during development and the annual reproductive cycle; or in mouse interstitial tissue-enriched fraction (ITf) and STf during postnatal development. Two novel techniques were developed to measure the HMG-CoA reductase, HSL and ACAT activities in mink and mouse STf. Additionally, immunohistochemistry was used to localize the enzymes in the testis. Finally, HSL knockout (KO) infertile male mice and selective cholesterol transporter (SR-BI, CD36) KO mice were used to elucidate the contribution of HMG-CoA reductase, HSL and ACAT isoforms in testicular cholesterol homeostasis when the enzyme or cholesterol transport system was genetically impeded. Results: 1) HMG-CoA reductase: (In mink STf), HMG-CoA reductase mRNA levels were relatively independent of 90kDa protein expression during development and the seasonal cycle. HMG-CoA reductase activity increased independently of its protein expression and reached maximal values by day 240 (3.6411e-7 mol/min/μg protein) during development and peaked in February (1.2132e-6 mol/min/μg protein) during the seasonal cycle. (In mouse STf), HMG-CoA reductase mRNA levels and enzymatic activity peaked by 42 days before decreasing while the protein levels tended to decrease steadily. 2) HSL: (In mink STf), an increase of 90kDa HSL protein expression by day 180- and 240 after birth as well as in January in seasonal cycle, was not related to the enzyme mRNA expression. HSL activity increased progressively through development and peaked by 270 days (36.45 nM/min/μg); another high HSL activity was shown in February. (In mouse STf), three significant elevations in HSL mRNA levels by day 21, 28, and 35 corresponded to a steady elevation of HSL protein expression throughout development. HSL activity peaked by day 42 but decreased remarkably in the adult. 3) ACAT-1 and ACAT-2: This is the first report to establish the presence of both ACAT-1 and ACAT-2 in the mink and mouse testis. (In mink STf), ACAT-2 activity reached its maximal value at 1190.00 CPMB/200μg protein by day 270 and 2643 CPMB/200μg protein in January. In contrast, ACAT-1 activity peaked by day 90 or in August during the seasonal cycle. (In mouse STf), ACAT-1 mRNA and protein levels were both decreased throughout development; ACAT-2 mRNA levels changes in the opposite direction of the protein levels, increasing throughout development. ACAT-1 activity in STf decreased throughout the development; while ACAT-2 activity increased significantly during development and peaked by day 42. 4) HSL-/- mice: KO HSL gene caused a decrease of HMG-CoA redutase mRNA expression and enzymatic activity in STf. However, ACAT-1 and ACAT-2 mRNA levels and enzymatic activities significantly increased in STf. 5) SR-BI-/- mice: The mRNA expression and activity of HMG-CoA reductase as well as ACAT-1 were statistically decreased in STf; whereas HSL mRNA level and activity were increased. 6) CD36-/- mice: The mRNA expression and activity of HMG-CoA reductase as well as ACAT-2 were significantly decreased in STf; while HSL and ACAT-1 mRNA levels and activities remained constant. Conclusion: These results suggest that 1) Activation of HMG-CoA reductase and HSL is associated with spermatogenetic activity, while the enzymatic activities may not only be regulated transcriptionally. 2) ACAT-1 and ACAT-2 are expressed in different cells of the tubules, suggesting distinct functions for these two closely related enzyme isoforms, with ACAT-1 being related to cholesterol esterification in germ cells and with ACAT-2 being associated with the removal of excessive cholesterol by Sertoli cells during spermatogenesis. 3) Genetically blocking HSL reduced the activity of HMG-CoA reductase while increasing activity of ACAT isoforms, suggesting the turn-off the enzyme in the cholesterol ester cycle may be essential for the accumulation of cholesterol esters in the tubules. 4) The dysfunction of intracellular cholesterol transporters affects regulation of the enzymes (HMG-CoA reductase, HSL and ACAT-1 and ACAT-2), which is presumably in response to compensatory extracellular cholesterol uptake. This study suggests that the enzymes implicated in the regulation of intracellular cholesterol may act cooperatively to maintain cholesterol homeostasis in testis. Homéostasie du cholestérol HMG-CoA réductase HSL ACAT-1 ACAT-2 Spermatogenèse Cholesterol homeostasis HMG-CoA reductase Spermatogenesis
28	Regulation of intestinal cholesterol transport and metabolism by high glucose levels = Régulation intestinale du transport et du métabolisme du cholestérol par le glucose Ravid Leibovici, Rosa Zaava January 2008 (has links) Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal ABCA1 ABCG5/G8 SR-BI CD36 NPC1L1 PPAR LXR SREBP ACAT and HMG-CoA reductase ABCA1 ABCG5/G8 SR-BI CD36 NPC1L1 PPAR LXR SREBP ACAT and HMG-CoA réductase
29	Molecular Rationale and Determinants of Sensitivity for Statin-Induced Apoptosis of Human Tumour Cells Clendening, James William 07 March 2011 (has links) The statin family of hydroxymethylglutaryl coenzyme A reductase (HMGCR) inhibitors, used to control hypercholesterolemia, triggers apoptosis of various human tumour cells. HMGCR is the rate-limiting enzyme of the mevalonate (MVA) pathway, a fundamental metabolic pathway required for the generation of a number of biochemical end-products including cholesterol and isoprenoids, but the contribution of the MVA pathway to human cancer remains largely unexplored. Furthermore, as only a subset of tumour cells has been shown to be highly responsive to statins, the identification of appropriate subsets of patients will be required to successfully advance these agents as anticancer therapeutics. To this end, there were two major aims to this work: 1) Elucidate a molecular rationale for the observed therapeutic index of statin-induced apoptosis in normal and tumour cells; 2) Identify molecular determinants of sensitivity for statin-induced apoptosis in human tumour cells. To address the first aim we demonstrated that dysregulation of the MVA pathway, achieved by ectopic expression of either full length HMGCR (HMGCR-FL) or its novel splice variant lacking exon 13 (HMGCR-D13), increases transformation. Ectopic HMGCR promotes growth of transformed and non-transformed cells under anchorage-independent conditions or as xenografts in immunocompromised mice. We also show that high mRNA levels of HMGCR and four out of five other MVA pathway genes correlate with poor prognosis in primary breast cancer, suggesting the MVA pathway may play a role in the etiology of human cancers. To address the second aim, we show that dysregulation of the MVA pathway is a key determinant of sensitivity to statin-induced apoptosis in multiple myeloma. In a panel of 17 distinct myeloma cell lines, half were sensitive to statin-induced apoptosis and the remainder were insensitive. Interestingly, in sensitive cells, the classic feedback response to statin exposure is lost, a feature we demonstrated could distinguish a subset of statin-sensitive primary myeloma cells. We further illustrated that statins are highly effective and well tolerated in an orthotopic model of myeloma using cells harboring a dysregulated MVA pathway. Taken together, this work provides a molecular rationale and determinants of sensitivity for statin-induced apoptosis of human tumour cells. statins anti-cancer therapeutics HMGCR HMG-CoA reductase ovarian cancer multiple myeloma apoptosis drug sensitivity drug resistance mevalonate transformation tumour metabolism 0307 0992
30	Purification of HMG-CoA Reductase and Regulation by Protein-Lipid Interactions Brent, Lynn G. (Lynn Gran) 12 1900 (has links) The enzyme 3-Hydroxy-3- Methylglutaryl Coenzyme A Reductase catalyzes the rate limiting step of hepatic cholesterol biosynthesis and is unique among the enzymes in the early part of the pathway in that it is membrane bound. This gives rise to potential regulation of the enzyme through interactions with the endoplasmic reticulum membrane. A purification procedure has been developed which consistently produces enzyme of high specific activity. In order to fully characterize the interactions between HMG-CoA reductase and the lipids in its immediate environment, HMG-CoA reductase was purified to homogeneity and shown to be a protein-lipid complex. HMG-CoA reductase enzyme-lipid interactions protein-lipid interactions Enzyme-linked immunosorbent assay. Cholesterol -- Physiological aspects.

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