Defining an Intracellular Role of Hepatic Lipase in the Formation of Very Low Density Lipoproteins and High Density Lipoproteins

Bamji-Mirza, Michelle

04 August 2011

Hepatic lipase (HL) plays a pivotal role in the catabolism of apolipoprotein (apo)B-containing lipoproteins and high density lipoprotein (HDL) particles through its reported catalytic and non-catalytic extracellular functions. The current study tested the hypothesis that HL expression might impair formation and secretion of hepatic derived very low density lipoproteins (VLDL) and apoA-I (nascent HDL). Stable or transient expression of human HL (hHL) in McA-RH7777 cells resulted in decreased incorporation of [3H]glycerol into cell-associated and secreted (VLDL-associated) 3H-triacylglcyerol (TAG) relative to control cells. Stable expression of catalytically-inactive hHL (hHLSG) also resulted in decreased secretion of VLDL-associated 3H-TAG whereas cell-associated 3H-TAG levels were unchanged. Expression of hHL or hHLSG increased cell-associated 35S-apoB100 with relatively no change in secreted 35S-apoB100. Importantly, hHL or hHLSG expression resulted in reduced 3H-TAG associated with the microsomal lumen lipid droplets (LLD), and increased relative expression of ApoB and genes involved in lipogenesis and fatty acyl oxidation. Transient expression of hHL in HL-null primary hepatocytes, mediated by adenoviral gene transfer, resulted in decreased steady-state levels of cell-associated and secreted apoA-I and reduced rates of synthesis and secretion of 35S-apoA-I. HL-null hepatocytes exhibited increased levels of secreted 35S-apoA-I relative to wildtype hepatocytes while cell-associated 35S-apoA-I levels were normal. Transient expression of a hHL chimera (hHLmt), in which the C-terminus of hHL was replaced with mouse HL sequences, exerted an inhibitory effect on apoA-I production similar to that of hHL even though hHLmt was secreted less effectively than hHL with impaired exit from the endoplasmic reticulum (ER) as compared with hHL. In contrast, stable expression of hHL in McA-RH7777 cells resulted in a dose-dependent increase in cell-associated and secreted 35S-apoA-I levels. These studies demonstrate that hHL has an intracellular (but non-catalytic) role in reducing the content of the LLD and ultimately the buoyancy of secreted VLDL particles, and that the N-terminal sequences of ER-residing hHL directly or indirectly modulates the production and secretion of apoA-I (nascent HDL) from hepatocytes.

apolipoprotein B-100

apolipoprotein A-I

heparan sulphate proteoglycans

lumenal lipid droplet

Defining an Intracellular Role of Hepatic Lipase in the Formation of Very Low Density Lipoproteins and High Density Lipoproteins

Bamji-Mirza, Michelle

04 August 2011

Hepatic lipase (HL) plays a pivotal role in the catabolism of apolipoprotein (apo)B-containing lipoproteins and high density lipoprotein (HDL) particles through its reported catalytic and non-catalytic extracellular functions. The current study tested the hypothesis that HL expression might impair formation and secretion of hepatic derived very low density lipoproteins (VLDL) and apoA-I (nascent HDL). Stable or transient expression of human HL (hHL) in McA-RH7777 cells resulted in decreased incorporation of [3H]glycerol into cell-associated and secreted (VLDL-associated) 3H-triacylglcyerol (TAG) relative to control cells. Stable expression of catalytically-inactive hHL (hHLSG) also resulted in decreased secretion of VLDL-associated 3H-TAG whereas cell-associated 3H-TAG levels were unchanged. Expression of hHL or hHLSG increased cell-associated 35S-apoB100 with relatively no change in secreted 35S-apoB100. Importantly, hHL or hHLSG expression resulted in reduced 3H-TAG associated with the microsomal lumen lipid droplets (LLD), and increased relative expression of ApoB and genes involved in lipogenesis and fatty acyl oxidation. Transient expression of hHL in HL-null primary hepatocytes, mediated by adenoviral gene transfer, resulted in decreased steady-state levels of cell-associated and secreted apoA-I and reduced rates of synthesis and secretion of 35S-apoA-I. HL-null hepatocytes exhibited increased levels of secreted 35S-apoA-I relative to wildtype hepatocytes while cell-associated 35S-apoA-I levels were normal. Transient expression of a hHL chimera (hHLmt), in which the C-terminus of hHL was replaced with mouse HL sequences, exerted an inhibitory effect on apoA-I production similar to that of hHL even though hHLmt was secreted less effectively than hHL with impaired exit from the endoplasmic reticulum (ER) as compared with hHL. In contrast, stable expression of hHL in McA-RH7777 cells resulted in a dose-dependent increase in cell-associated and secreted 35S-apoA-I levels. These studies demonstrate that hHL has an intracellular (but non-catalytic) role in reducing the content of the LLD and ultimately the buoyancy of secreted VLDL particles, and that the N-terminal sequences of ER-residing hHL directly or indirectly modulates the production and secretion of apoA-I (nascent HDL) from hepatocytes.

apolipoprotein B-100

apolipoprotein A-I

heparan sulphate proteoglycans

lumenal lipid droplet

Defining an Intracellular Role of Hepatic Lipase in the Formation of Very Low Density Lipoproteins and High Density Lipoproteins

Bamji-Mirza, Michelle

04 August 2011

Hepatic lipase (HL) plays a pivotal role in the catabolism of apolipoprotein (apo)B-containing lipoproteins and high density lipoprotein (HDL) particles through its reported catalytic and non-catalytic extracellular functions. The current study tested the hypothesis that HL expression might impair formation and secretion of hepatic derived very low density lipoproteins (VLDL) and apoA-I (nascent HDL). Stable or transient expression of human HL (hHL) in McA-RH7777 cells resulted in decreased incorporation of [3H]glycerol into cell-associated and secreted (VLDL-associated) 3H-triacylglcyerol (TAG) relative to control cells. Stable expression of catalytically-inactive hHL (hHLSG) also resulted in decreased secretion of VLDL-associated 3H-TAG whereas cell-associated 3H-TAG levels were unchanged. Expression of hHL or hHLSG increased cell-associated 35S-apoB100 with relatively no change in secreted 35S-apoB100. Importantly, hHL or hHLSG expression resulted in reduced 3H-TAG associated with the microsomal lumen lipid droplets (LLD), and increased relative expression of ApoB and genes involved in lipogenesis and fatty acyl oxidation. Transient expression of hHL in HL-null primary hepatocytes, mediated by adenoviral gene transfer, resulted in decreased steady-state levels of cell-associated and secreted apoA-I and reduced rates of synthesis and secretion of 35S-apoA-I. HL-null hepatocytes exhibited increased levels of secreted 35S-apoA-I relative to wildtype hepatocytes while cell-associated 35S-apoA-I levels were normal. Transient expression of a hHL chimera (hHLmt), in which the C-terminus of hHL was replaced with mouse HL sequences, exerted an inhibitory effect on apoA-I production similar to that of hHL even though hHLmt was secreted less effectively than hHL with impaired exit from the endoplasmic reticulum (ER) as compared with hHL. In contrast, stable expression of hHL in McA-RH7777 cells resulted in a dose-dependent increase in cell-associated and secreted 35S-apoA-I levels. These studies demonstrate that hHL has an intracellular (but non-catalytic) role in reducing the content of the LLD and ultimately the buoyancy of secreted VLDL particles, and that the N-terminal sequences of ER-residing hHL directly or indirectly modulates the production and secretion of apoA-I (nascent HDL) from hepatocytes.

apolipoprotein B-100

apolipoprotein A-I

heparan sulphate proteoglycans

lumenal lipid droplet

Defining an Intracellular Role of Hepatic Lipase in the Formation of Very Low Density Lipoproteins and High Density Lipoproteins

Bamji-Mirza, Michelle

January 2011

Hepatic lipase (HL) plays a pivotal role in the catabolism of apolipoprotein (apo)B-containing lipoproteins and high density lipoprotein (HDL) particles through its reported catalytic and non-catalytic extracellular functions. The current study tested the hypothesis that HL expression might impair formation and secretion of hepatic derived very low density lipoproteins (VLDL) and apoA-I (nascent HDL). Stable or transient expression of human HL (hHL) in McA-RH7777 cells resulted in decreased incorporation of [3H]glycerol into cell-associated and secreted (VLDL-associated) 3H-triacylglcyerol (TAG) relative to control cells. Stable expression of catalytically-inactive hHL (hHLSG) also resulted in decreased secretion of VLDL-associated 3H-TAG whereas cell-associated 3H-TAG levels were unchanged. Expression of hHL or hHLSG increased cell-associated 35S-apoB100 with relatively no change in secreted 35S-apoB100. Importantly, hHL or hHLSG expression resulted in reduced 3H-TAG associated with the microsomal lumen lipid droplets (LLD), and increased relative expression of ApoB and genes involved in lipogenesis and fatty acyl oxidation. Transient expression of hHL in HL-null primary hepatocytes, mediated by adenoviral gene transfer, resulted in decreased steady-state levels of cell-associated and secreted apoA-I and reduced rates of synthesis and secretion of 35S-apoA-I. HL-null hepatocytes exhibited increased levels of secreted 35S-apoA-I relative to wildtype hepatocytes while cell-associated 35S-apoA-I levels were normal. Transient expression of a hHL chimera (hHLmt), in which the C-terminus of hHL was replaced with mouse HL sequences, exerted an inhibitory effect on apoA-I production similar to that of hHL even though hHLmt was secreted less effectively than hHL with impaired exit from the endoplasmic reticulum (ER) as compared with hHL. In contrast, stable expression of hHL in McA-RH7777 cells resulted in a dose-dependent increase in cell-associated and secreted 35S-apoA-I levels. These studies demonstrate that hHL has an intracellular (but non-catalytic) role in reducing the content of the LLD and ultimately the buoyancy of secreted VLDL particles, and that the N-terminal sequences of ER-residing hHL directly or indirectly modulates the production and secretion of apoA-I (nascent HDL) from hepatocytes.

apolipoprotein B-100

apolipoprotein A-I

heparan sulphate proteoglycans

lumenal lipid droplet

Adsorption av Low Density Lipoprotein (LDL) till modifierade agaros matriser

Khandan, Negin

January 2016

Individer med homozygot familjär hyperkolesterolemi(FH), har höga halter av Low Density Lipoprotein (LDL) vilket leder till ökad risk för kardiovaskulära sjukdomar. Behandling av dessa individer kan göras med extrakorporal elimination av LDL med hjälp av specifika reningskolonner. Syftet med studien var att utvärdera några agarosmodifierade adsorbenter för denna applikation. Adsorbenterna, modifierad polyakrylat (DALI), agaros (Zetaros), direkt sulfateradZetarose och taurin immobiliserad Zetarose, inkuberades med humant plasma spädd med PBS, och en volyms förhållande mellan matris och plasman på 1:5. Inkubering utfördes i rumstemperatur under 60 min med kontinuerlig blandning i rotator. Efter inkubation centrifugerades proverna och LDL bestämdes i såväl supernatant som pellet. Totalmängd adsorberade proteiner analyserades också i eluat från erhållen pellet. LDL bestämdes indirekt med hjälp av Friedewaldsformel (LDL = totalkolesterol (TC) –highdensitylipoprotein (HDL) - (0,45 x Triglycerider(TG)). TC och TG bestämdes enzymatiskt medan HDL kvantifierades som TC efter utfällning av LDL med dextransulfat. Resultaten visar tydligt att DALI har god adsorptionsförmåga.Dock uppvisar de modifierade Zetaroserna begränsad adsorptionskapacitet för LDL. Vid desorption av adsorbenterna visar SDS en bättre elueringsförmåga än NaCl relaterad till protein, vilket tyder hydrofoba proteiner. Metodiken som används i studien är lämplig för vidare studier av andra adsorbenter som förväntas användas i kliniska applikationer för elimination av LDL hos FH patienter. / Individuals that suffer from homozygote Familiar Hyperkolesterolemia (FH), has increased amounts of Low Density Lipoproteins (LDL) which leads to a higher risk of cardiovascular diseases. Treatment of these individuals can be achieved by extracorporeal elimination of LDL using specific columns. The aim of this study was to evaluate different agarose-modified adsorbents ability to adsorb LDL from human plasma. The adsorbents (DALI, Zetarose, sulphonated Zetarose and taurine immobilized onto Zetarose) were incubated for 60 minutes with human plasma diluted with PBS, in a ratio of 1:5 between the matrix and the plasma during rotation with a rotator. After incubation the samples were centrifuged and the LDL content was determined in both the supernatant and the pellet. The amount proteins adsorbed were assayed by eluting the pellets. LDL was determined indirectly using Friedwalds equation; LDL= Total cholesterol (TC) - High density lipoprotein (HDL)-(0,45x Triglycerides (TG). The values of TC and TG in the sample were determined enzymatically, whilst HDL was quantified as TC after LDL-precipitation by dextran sulfate. The results clearly show that DALI has good adsorption capacity, but none of the modified Zetaroses shows any capacity to absorb LDL from human plasma. Desorption of the adsorbents using SDS gave higher amounts of eluated protein compared to NaCl elution, indicating hydrofobic proteins. However, the methods used in this study could be used to evaluate new adsorbents for LDL-elimination applications in patients with chronic hyperlipemia.

Low-density lipoprotein

Apolipoprotein B-100

Familial hypercholesterolemia

LDL apheresis

Cardiovascular diseases

Modified agarose matrices

Low Density Lipoprotein

Apolipoprotein B-100

familjär hyperkolesterolemi

LDL-apheresis

kardiovaskulära sjukdomar

modifierade agaros matriser

Neuraminidases as triggers of atherosclerosis

Smutova, Viktorija

05 1900

No description available.

Atherosclerosis

Coronary artery disease

Neuraminidase

Sialic acid

Low-density lipoproteins

Apolipoprotein B 100

Athérosclérose

Maladie artérielle coronariennes

Neuraminidases

Acide sialique

Lipoprotéines de basse densité

Apolipoprotéine B 100

Surface-Engineered Magnetic Nanoparticles for Sample Preparation and Analysis of Proteins and Peptides

Pirani, Parisa

15 May 2015

Sample preparation as an essential step in mass spectrometry-based analysis, plays a critical role in proteomics studies. Magnetic nanoparticles (MNPs) have been widely used in protein and peptide sample preparation due to their magnetic properties, biocompatibility, easy synthesis and surface functionalization. MNPs loaded with analyte or analyte modification reagent can be easily separated from the reaction medium by an externally applied magnetic field. The small size of MNPs provides high analyte loading and extraction capacity. Additionally, MNP can be decorated with different functional groups to achieve selective modification or extraction of analyte. In this study we have utilized silica coated iron oxide magnetic nanoparticles (Fe3O4@SiO2 MNPs) for protein and peptide sample preparation. Fluorescence-based methods were utilized for quantitative and qualitative characterization of N-hydrosucccinimidyl (NHS) ester groups on the surface of Fe3O4@SiO2 MNPs. Fluorophore Dansylcadaverine was conjugated to NHS ester functional groups. Fluorometric measurement of cleaved dansylcadaveine was employed to determine the number of NHS ester groups per MNPs that was found to be 2.6 × 102 and 3.4 × 103for 20 nm and 100 nm Fe3O4@SiO2 MNPrespectively. The efficiency of labeling native bovine serum albumin (BSA) by NHS ester coated Fe3O4@SiO2 MNPs was also explored in terms of maximizing the number of MNPs conjugated per BSA molecule or maximizing the number of BSA molecules conjugated per each MNP. Lysine residues of apolipoprotein B-100 (apoB-100) on the surface of intact human low density lipoprotein (LDL) were labeled by NHS ester modified Fe3O4@SiO2 MNPs in aqueous solvents at room temperature. The MNP labeledapoB-100 was treated by SDS to remove lipids and then digested using trypsin. Tryptic peptides were eluted from MNPs by cleaving disulfide linkage between labeled peptides and MNPs. LC-MS/MS analysis found 28 peptides containing labeled lysine residues. These lysine residues should be on the solvent exposed surface of LDL since the large size of MNPs prevents contact of the labeling reagent to those lysines embedded inside the structure of LDL. TCEP- immobilized Fe3O4@SiO2MNPs were fabricated and utilized for reduction of disulfide bonds in bovine pancreas insulin and two different cyclic peptides. Disulfide bonds were efficiently cleaved at room temperature in both organic and aqueous solvents confirmed by LC-MS/MS analysis of reduced/alkylated protein and peptides. Disulfide reduction and alkylation reactions was performed in one step and the reducing agent was simply separated from peptide and protein solution by magnetic separation.

N-hydrosucccinimidyl (NHS) ester

fluorometric quantification

protein labeling efficiency

apolipoprotein B-100 (apoB-100)

low density lipoprotein (LDL)

surface exposed lysines

disulfide bond

TCEP- immobilized Fe3O4@SiO2 MNPs

LC-MS/MS

Analytical Chemistry

Chemistry