Spelling suggestions: "subject:"apolipoprotein"" "subject:"apolipoproteins""
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The synthetic control of peptide structure : Apolipoprotein E (41-62) & beta-amyloid (10-35) /Burkoth, Timothy S. January 1999 (has links)
Thesis (Ph. D.)--University of Chicago, Dept. of Chemistry, June 1999. / Includes bibliographical references. Also available on the Internet
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Apolipoprotein E Isoforms Differentially Regulate Amyloid-β Stimulated Inflammation in Rat and Mouse AstrocytesDorey, Evan J 07 December 2012 (has links)
Neuroinflammation occurs in Alzheimer’s disease (AD) brain, and plays a role in neurodegeneration. The main aim of this study was to determine how treatments with exogenous apolipoprotein E (ApoE2, E3 and E4 isoforms), a genetic risk factor for AD, affects the amyloid-β (Aβ) induced inflammatory response in vitro in astrocytes. Recombinant, lipid-free ApoE4 was found not to affect Aβ-induced inflammation in rat astrocytes, while ApoE2 showed a protective effect. Mouse cells expressing human ApoE isoforms, which have similar lipidation and modification to native human ApoE, showed ApoE4 promoting inflammation, and no ApoE2 protective effect upon Aβ treatment. A Protein/DNA array was used to screen 345 transcription factors in rat astrocytes treated with Aβ and/or ApoE isoforms, in order to determine which contribute to the observed ApoE2 protection. Some candidates were validated by Western Blot or EMSA and/or by inhibition or activation. The findings suggest ApoE isoforms differentially regulate Aβ-induced inflammation, and multiple signalling pathways are involved in the process.
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The Acute Regulation of Intestinal Chylomicron Secretion by Glucagon-like PeptidesHsieh, Joanne 21 August 2012 (has links)
Postprandial overproduction of apolipoprotein B48 (apoB48)-containing lipoproteins has been observed in states of insulin resistance and is important to the sequelae of cardiovascular disease, but little is understood about factors that regulate their secretion. The glucagon-like peptides (GLPs) are released from ileal enteroendocrine L-cells following lipid ingestion. I hypothesized that the GLPs could acutely affect the production of apoB48-containing triglyceride (TG)-rich lipoproteins (TRL) in the small intestine. Using the Syrian golden hamster, I first characterized the gross effects of the GLPs on TRL secretion in response to an oral fat load and then continued to dissect the mechanisms of these changes using primary intestinal cell cultures and a variety of knockout mouse models. An exogenous GLP-1 receptor (GLP-1R) agonist was found to acutely inhibit chylomicron secretion in both hamsters and mouse models, and extending the bioactivity of endogenously-secreted GLP-1 with a dipeptidyl peptidase-4 inhibitor had suppressive effects in insulin-resistant fructose-fed hamsters. The insulinotropic and delayed gastric emptying functions do not completely account for the hypolipidemic effect of GLP-1R agonism, and the effect of the GLP-1R agonist exendin-4 could be seen directly in the apoB48 secretion of primary enterocytes. In contrast, the sister peptide GLP-2 was a potent acute stimulator of chylomicron secretion in hamsters and mice. The hyperlipidemic effect of GLP-2 could be attributed to an increased rate of luminal FA uptake mediated by the posttranslational modification of the FA transporter CD36, and CD36-deficient mice were found to be refractory to the stimulatory effects of GLP-2. The activity of nitric oxide synthase was also found to be essential to the hyperlipidemic action of GLP-2. I identified a set of intercellular communications that could contribute in mediating the action of GLP-2, in which GLP-2 secreted from the enteroendocrine L-cell stimulates intestinal subepithelial myofibroblasts to release vascular endothelial growth factor, which directly activated the enterocyte to secrete apoB48. In summary, this thesis demonstrates that two co-secreted postprandial hormones have considerable but completely opposite influences on chylomicron production. Changing the balance of the GLPs’ actions in vivo could provide a therapeutic strategy to combat postprandial dyslipidemia.
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Insulin Modulates Intracellular Apolipoprotein B mRNA Traffic into RNA Granules/Cytoplasmic P Bodies: Implications in Translational ControlKarimian Pour, Navaz 25 July 2012 (has links)
Apolipoprotein B (ApoB) synthesis is partially regulated at the translational level; however, the molecular mechanisms that govern translational control of apoB mRNA remains largely unknown. We imaged intracellular apoB mRNA traffic and determined whether insulin silences apoB mRNA translation by trafficking into translationally-silenced cytoplasmic RNA granules called Processing Bodies (PBS). ApoB mRNA was visualized by using a strong interaction between the bacteriophage MS2 protein and a specific phage RNA sequence that binds MS2 protein. We observed a statistically significant increase in the localization of apoB mRNA into PBs, 4h, 8h, and 16h after insulin treatment. Conversely, acute insulin treatment (1h) did not show any significant effect. Insulin was also found to reduce polysomal association of apoB mRNA 4h and 16h post treatment in HepG2 cells. Overall, our data suggest that chronic insulin treatment silences apoB translation in HepG2 cells by localizing apoB mRNA into PBs and reducing translationally-competent mRNA pools.
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Insulin Modulates Intracellular Apolipoprotein B mRNA Traffic into RNA Granules/Cytoplasmic P Bodies: Implications in Translational ControlKarimian Pour, Navaz 25 July 2012 (has links)
Apolipoprotein B (ApoB) synthesis is partially regulated at the translational level; however, the molecular mechanisms that govern translational control of apoB mRNA remains largely unknown. We imaged intracellular apoB mRNA traffic and determined whether insulin silences apoB mRNA translation by trafficking into translationally-silenced cytoplasmic RNA granules called Processing Bodies (PBS). ApoB mRNA was visualized by using a strong interaction between the bacteriophage MS2 protein and a specific phage RNA sequence that binds MS2 protein. We observed a statistically significant increase in the localization of apoB mRNA into PBs, 4h, 8h, and 16h after insulin treatment. Conversely, acute insulin treatment (1h) did not show any significant effect. Insulin was also found to reduce polysomal association of apoB mRNA 4h and 16h post treatment in HepG2 cells. Overall, our data suggest that chronic insulin treatment silences apoB translation in HepG2 cells by localizing apoB mRNA into PBs and reducing translationally-competent mRNA pools.
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The Acute Regulation of Intestinal Chylomicron Secretion by Glucagon-like PeptidesHsieh, Joanne 21 August 2012 (has links)
Postprandial overproduction of apolipoprotein B48 (apoB48)-containing lipoproteins has been observed in states of insulin resistance and is important to the sequelae of cardiovascular disease, but little is understood about factors that regulate their secretion. The glucagon-like peptides (GLPs) are released from ileal enteroendocrine L-cells following lipid ingestion. I hypothesized that the GLPs could acutely affect the production of apoB48-containing triglyceride (TG)-rich lipoproteins (TRL) in the small intestine. Using the Syrian golden hamster, I first characterized the gross effects of the GLPs on TRL secretion in response to an oral fat load and then continued to dissect the mechanisms of these changes using primary intestinal cell cultures and a variety of knockout mouse models. An exogenous GLP-1 receptor (GLP-1R) agonist was found to acutely inhibit chylomicron secretion in both hamsters and mouse models, and extending the bioactivity of endogenously-secreted GLP-1 with a dipeptidyl peptidase-4 inhibitor had suppressive effects in insulin-resistant fructose-fed hamsters. The insulinotropic and delayed gastric emptying functions do not completely account for the hypolipidemic effect of GLP-1R agonism, and the effect of the GLP-1R agonist exendin-4 could be seen directly in the apoB48 secretion of primary enterocytes. In contrast, the sister peptide GLP-2 was a potent acute stimulator of chylomicron secretion in hamsters and mice. The hyperlipidemic effect of GLP-2 could be attributed to an increased rate of luminal FA uptake mediated by the posttranslational modification of the FA transporter CD36, and CD36-deficient mice were found to be refractory to the stimulatory effects of GLP-2. The activity of nitric oxide synthase was also found to be essential to the hyperlipidemic action of GLP-2. I identified a set of intercellular communications that could contribute in mediating the action of GLP-2, in which GLP-2 secreted from the enteroendocrine L-cell stimulates intestinal subepithelial myofibroblasts to release vascular endothelial growth factor, which directly activated the enterocyte to secrete apoB48. In summary, this thesis demonstrates that two co-secreted postprandial hormones have considerable but completely opposite influences on chylomicron production. Changing the balance of the GLPs’ actions in vivo could provide a therapeutic strategy to combat postprandial dyslipidemia.
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Critical Factors Involved in Intestinal Chylomicron AssemblyWebb, Jennifer P. 28 July 2010 (has links)
Assembly of intestinal chylomicron particles (lipid-protein complexes) is the fundamental mechanism by which we absorb dietary fat. Two intestinal lipid transporters, Cluster of Differentiation 36 (CD36) and fatty acid-binding protein 1 (FABP1), have been shown to play a role in lipid absorption, however, it remains unclear how knockdown of these proteins bleads to aberrant intestinal chylomicron secretion. In an enterocyte-like cell culture model, Caco-2 cells, we hypothesized that knockdown of CD36 or FABP1 using short-hairpin RNA interference techniques would impair triacylglycerol (TG) and apolipoprotein B (apoB) secretion. Surprisingly, knockdown of these lipid transporters lead to an increase in TG and apoB secretion that was associated with an increase in fatty acid synthase and fatty acid transport protein 4 (FATP4) protein levels. De novo fatty acid synthesis was slightly increased in CD36-, but not FABP1-knockdown Caco-2 cells. This study highlights the importance of fatty acid targeting in regulating chylomicron production.
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Critical Factors Involved in Intestinal Chylomicron AssemblyWebb, Jennifer P. 28 July 2010 (has links)
Assembly of intestinal chylomicron particles (lipid-protein complexes) is the fundamental mechanism by which we absorb dietary fat. Two intestinal lipid transporters, Cluster of Differentiation 36 (CD36) and fatty acid-binding protein 1 (FABP1), have been shown to play a role in lipid absorption, however, it remains unclear how knockdown of these proteins bleads to aberrant intestinal chylomicron secretion. In an enterocyte-like cell culture model, Caco-2 cells, we hypothesized that knockdown of CD36 or FABP1 using short-hairpin RNA interference techniques would impair triacylglycerol (TG) and apolipoprotein B (apoB) secretion. Surprisingly, knockdown of these lipid transporters lead to an increase in TG and apoB secretion that was associated with an increase in fatty acid synthase and fatty acid transport protein 4 (FATP4) protein levels. De novo fatty acid synthesis was slightly increased in CD36-, but not FABP1-knockdown Caco-2 cells. This study highlights the importance of fatty acid targeting in regulating chylomicron production.
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EFFECTS OF Apolipoprotein(a) ON VASCULAR ENDOTHELIAL CELL FUNCTION: INSIGHTS INTO POSSIBLE PHYSIOLOGICAL AND/OR PATHOLOGICAL ROLES FOR Lipoprotein(a)LIU, LEI 25 September 2009 (has links)
Numerous studies have identified that elevated plasma concentrations of lipoprotein(a) [Lp(a)] are an emerging risk factor for a variety of atherothrombotic disorders. Apolipoprotein(a) [apo(a)], the unique glycoprotein component of Lp(a), consists of tandem repeats of a plasminogen kringle (K) IV-like domain, followed by sequences homologous to the plasminogen KV and protease domains. Apo(a)/Lp(a) has been consistently shown to regulate endothelial function and inhibit plasminogen activation. In the present study, we have demonstrated that apo(a), signaling via integrin alphaVbeta3, is the functional unit in Lp(a) to stimulate in vitro endothelial cell (EC) proliferation and migration, and activate focal adhesion kinase (FAK) and mitogen-activated protein kinases (MAPK) in cultured ECs. Both apo(a) and Lp(a) have also been shown to reduce the levels of active and total transforming growth factor (TGF)-beta in cultured EC medium in an integrin alphaVbeta3–dependent manner. Despite the stimulatory effects of apo(a) on EC proliferation and migration, we have further confirmed an inhibitory effect of apo(a) on EC in vitro angiogenesis using a fibrin gel tube formation assay. We have provided evidence proving apo(a) inhibits angiogenesis through inhibition of plasminogen activation, and this inhibitory effect is dependent on the presence of apo(a) KV domain. Lastly, apo(a) is shown to reduce the protein levels of annexin A2 and S100A10 in ECs, which implies another potential mechanism by which apo(a)/Lp(a) could impair plasminogen activation on cell surface. In summary, we have discovered the first complete outside-in signaling pathway elicited by apo(a)/Lp(a) in ECs and have built up a connection between the ability of apo(a) to inhibit plasminogen activation and its inhibition of angiogenesis. / Thesis (Ph.D, Biochemistry) -- Queen's University, 2009-09-25 18:29:47.106
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Apolipoprotein E Isoforms Differentially Regulate Amyloid-β Stimulated Inflammation in Rat and Mouse AstrocytesDorey, Evan J 07 December 2012 (has links)
Neuroinflammation occurs in Alzheimer’s disease (AD) brain, and plays a role in neurodegeneration. The main aim of this study was to determine how treatments with exogenous apolipoprotein E (ApoE2, E3 and E4 isoforms), a genetic risk factor for AD, affects the amyloid-β (Aβ) induced inflammatory response in vitro in astrocytes. Recombinant, lipid-free ApoE4 was found not to affect Aβ-induced inflammation in rat astrocytes, while ApoE2 showed a protective effect. Mouse cells expressing human ApoE isoforms, which have similar lipidation and modification to native human ApoE, showed ApoE4 promoting inflammation, and no ApoE2 protective effect upon Aβ treatment. A Protein/DNA array was used to screen 345 transcription factors in rat astrocytes treated with Aβ and/or ApoE isoforms, in order to determine which contribute to the observed ApoE2 protection. Some candidates were validated by Western Blot or EMSA and/or by inhibition or activation. The findings suggest ApoE isoforms differentially regulate Aβ-induced inflammation, and multiple signalling pathways are involved in the process.
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