2023 Lipids Foundation FullDeck PDF

Summary

This document contains questions and answers about lipids, their function, and related concepts. It appears to serve as a learning resource or a past exam, with an emphasis on lipid-related topics such as blood lipids, cholesterol transport, and diseases.

Full Transcript

Question Answer

Why is it important to study lipids and lipid disorders? Studying lipids and lipid disorders is crucial for understanding metabolic health and
preventing cardiovascular diseases.

What are lipids? Lipids are a diverse group of compounds that include fats, oils, waxes, and certain
vitamins, important for energy storage and cellular structure.

What are common causes of dyslipidemia? Common causes include genetics, poor diet, lack of exercise, and certain medical
conditions.

What are lipid disorders? Lipid disorders are abnormal levels of lipids in the blood, which can lead to health
issues such as cardiovascular disease.

What role do lipids play in the body? Lipids play critical roles in energy storage, insulation, protection of organs, and
forming cell membranes.

What are the primary lipoproteins that are important HDL (High-Density Lipoprotein) and LDL (Low-Density Lipoprotein).
for understanding cholesterol structure?

What is a significant cellular mechanism related to Lipoprotein lipase activity is a significant mechanism related to lipid metabolism.
lipid metabolism?

What are key cellular regulators of lipid metabolism? Cellular regulators include specific proteins and enzymes that affect lipid
metabolism and dyslipidemia.

What is the primary function of lipoproteins in the Lipoproteins transport lipids through the bloodstream to various tissues.
body?

What mechanism is involved in removing excess Reverse cholesterol transport.
cholesterol from tissues?

What is the role of the endogenous lipid pathway? It is responsible for the transport of lipids synthesized by the liver.

What are the main components of lipoprotein Lipoproteins consist of lipids and proteins, with apolipoproteins on their surface.
structure?

What pathway is responsible for the transport of The exogenous pathway.
dietary lipids?

What is a key pathological condition associated with Atherosclerosis.
abnormal lipid metabolism?

How does understanding molecular mechanisms It improves our understanding of the drugs used to treat cardiovascular disease
benefit our knowledge regarding drugs? (CVD).

What is the relationship between lipid pathways and Understanding lipid pathways helps in deciphering the pathology of
atherosclerosis? atherosclerosis.

What disease is specifically mentioned in relation to Cardiovascular disease (CVD).
understanding lipid pathways?

Why is it important to understand lipoprotein function It aids in understanding the pathology of diseases.
at a molecular level?

What is the effect of cholesterol moving to the liver? It is considered beneficial as it facilitates cholesterol removal from the body.

What is the effect of cholesterol moving to the heart? It is considered harmful as it can contribute to plaque formation and cardiovascular
disease.

What is the goal in relation to cardiovascular disease? To prevent and manage cardiovascular disease.

What are lipoproteins? Lipoproteins are complexes of lipids and proteins that transport lipids in the
bloodstream.

How are Exogenous lipid pathways related to Exogenous lipid pathways involve the transport of dietary lipids via chylomicrons,
lipoproteins? which are a type of lipoprotein.

What are the different classes of lipoproteins? The main classes of lipoproteins include chylomicrons, very low-density
lipoproteins (VLDL), low-density lipoproteins (LDL), high-density lipoproteins (HDL).

What is the primary function of lipoproteins? The primary function of lipoproteins is to transport lipids, such as cholesterol and
triglycerides, throughout the body.

What is the role of apolipoproteins in lipoprotein Apolipoproteins serve as structural components and play key roles in the
metabolism? metabolism of lipoproteins by acting as ligands for receptors and cofactors for
enzymes.
Question Answer

What is the significance of high-density lipoproteins HDL is often referred to as 'good' cholesterol because it helps remove cholesterol
(HDL)? from the bloodstream and is associated with a lower risk of cardiovascular disease.

What percentage of lipoproteins contains free fatty 4%.
acids?

What term describes elevations in any lipoprotein Hyperlipoproteinemia or hyperlipidemia.
species?

What percentage of lipoproteins is cholesterol? 14%.

What percentage of lipoproteins consists of 30%.
phospholipids?

What is the composition of a lipoprotein? Lipid + protein.

What percentage of lipoproteins is made up of 16%.
triacylglycerols (triglycerides)?

What is the percentage of cholesteryl esters in 36%.
lipoproteins?

What condition is characterized by elevated Hyperlipemia.
triglycerides?

What are apoproteins? Apoproteins are protein components of lipoproteins that play crucial roles in lipid
metabolism.

What is the chemical structure of fatty acids related to Fatty acids have a hydrocarbon chain with a carboxyl group at one end.
dyslipoproteinemia?

What is cholesterol's characteristic in terms of Cholesterol is very lipophilic and not soluble in serum/plasma.
solubility?

What is the function of LDL in the body? LDL carries cholesterol from the liver to peripheral tissues.

How does HDL function in the context of HDL is the carrier of cholesterol from peripheral tissues to the liver.
dyslipoproteinemia?

What are triglycerides in the context of Triglycerides are a type of fat found in the blood, playing a role in lipid metabolism.
dyslipoproteinemia?

What is one function of cholesterol in the body? It serves as a component of cell membranes.

What vitamin is cholesterol a precursor for? Vitamin D.

What is cholesterol a precursor for besides hormones? Bile acids.

How does cholesterol relate to brain function? Cholesterol plays a role in brain function.

What hormones are synthesized from cholesterol? Adrenal hormones (cortisol, aldosterone) and sex hormones.

What surrounds the lipid core in lipoproteins? An amphipathic polar monolayer of phospholipids, heads of free cholesterol, and
apolipoproteins.

What is the composition of the nonpolar lipid core in The lipid core consists of triglycerides (TG) and cholesterol esters.
lipoproteins?

What role do apolipoproteins play in the body? They act as molecular navigators to direct lipoproteins to specific compartments
and tissues.

What analogy is used to describe apolipoproteins? They are often referred to as 'tags' that help guide lipoproteins.

What is the primary function of apolipoproteins? They serve as ligands in receptor-mediated processes.

How do apolipoproteins influence the destination of They interact with receptors and enzymes, directing where the lipoprotein goes.
lipoproteins in the body?

What happens to apolipoproteins when they interact They can dictate whether the lipoprotein is recognized by an enzyme.
with enzymes?

Which component is LEAST present in lipoprotein D. Free fatty acids.
Question Answer

particles: A. Triglycerides, B. Cholesterol esters, C. Free
cholesterol, D. Free fatty acids, E. phospholipids?

Which lipoproteins are responsible for cholesterol Low Density Lipoproteins (LDL) and High Density Lipoproteins (HDL).
delivery?

What are the primary lipoproteins involved in Chylomicrons and Very Low Density Lipoproteins (VLDL).
triglyceride delivery?

What role does HDL play in relation to lipoproteins? HDL serves as a reservoir for exchangeable lipoproteins.

What is the main lipid composition in Chylomicrons? 85% Triglyceride.

What is the main lipid composition of Chylomicron 40 - 60% Triglyceride, 20% Cholesterol.
remnants?

What is the main lipid composition of VLDL? 55% Triglyceride, 20% Cholesterol.

What lipid composition characterizes IDL? 35% Cholesterol, 25% Triglyceride.

What is the main lipid composition of HDL? 20% Cholesterol, 5% Triglyceride.

Which apolipoproteins are found in VLDL? B100, C.

What apolipoproteins are found in HDL? A, C, E.

Which apolipoprotein is associated with LDL? B100.

Which apolipoproteins are associated with A, B48, C, E.
Chylomicrons?

What is the main lipid composition of LDL? 60% Cholesterol, 5% Triglyceride.

What is the primary synthesis site for Chylomicrons? The intestinal tract.

In what form are Chylomicrons present in serum? Along with HDL and LDL.

What do Chylomicrons carry? Dietary lipids and deliver triglycerides (TG) to cells.

Where are VLDL synthesized? By the liver.

What is the main function of VLDL? Delivers triglycerides (TG) to cells.

What do both HDL and LDL carry? Cholesterol esters.

What does HDL do in the circulation? Gathers cholesterol to form mature HDL and returns cholesterol to the liver.

What is the primary function of HDL? Reverse cholesterol transport; carries cholesterol esters from the heart to the liver
for disposal.

What is the primary function of LDL? Transport cholesterol from the liver to cells for use in membranes or for the
synthesis of steroid hormones.

Where is HDL synthesized and secreted? By the liver and small intestine.

Why does the liver synthesize cholesterol? To supplement dietary cholesterol.

What is the main physiological function of LDL? Transport cholesterol from the liver to extrahepatic tissues.

How do HDLs assist in reverse cholesterol transport? By moving excess cholesterol from extrahepatic tissues back to the liver for
reprocessing.

What role do HDLs play in cholesterol management? Help in the appropriate distribution of cholesterol and triglycerides between
lipoprotein particles and facilitate reverse cholesterol transport.

What is the process of reverse cholesterol transport? It is the process by which cholesterol is removed from tissues in the body and
returned to the liver for disposal.

What is the focus of the endogenous pathway in lipid It focuses primarily on the liver and what is formed by the liver.
metabolism?
Question Answer

What effect do some therapies have on HDL levels? Some therapies will increase HDL.

What does the exogenous pathway refer to in lipid It refers to dietary lipid metabolism.
metabolism?

What do 'Exo' and 'Endo' mean in the context of lipid 'Exo' refers to 'outside of' and 'Endo' refers to 'inside of'.
metabolism?

What can mutations in some patients affect regarding They can impair hepatic uptake of cholesterol.
lipid metabolism?

How do some drugs affect cholesterol synthesis in the They can block hepatic synthesis or increase hepatic uptake of cholesterol.
liver?

What enzyme releases free fatty acids from Lipoprotein lipase.
chylomicrons in peripheral tissues?

What is the first step of the Exogenous pathway for Dietary cholesterol and fatty acids are absorbed.
lipid metabolism?

What is formed in the intestinal cell from free fatty Triglycerides.
acids and glycerol during lipid metabolism?

What do triglycerides and cholesterol combine to form Chylomicrons.
in the Exogenous pathway?

Where do chylomicrons travel after entering the To peripheral sites.
circulation?

What happens to remnants of chylomicrons in the They are used in the formation of HDL.
Exogenous pathway?

What are free fatty acids used for after being released They can be used as energy, converted to triglyceride, or stored in adipose.
from chylomicrons?

What stimulates the pancreas to secrete enzymes Eating.
during lipid digestion?

Where does most of the exogenous dietary lipid In the small intestine, primarily upon entering the duodenum.
digestion occur?

What is the significance of Phospholipase A2 in lipid It breaks down phospholipids, aiding in the digestion process.
digestion?

What role do bile salts play in lipid digestion? They are cholesterol derivatives that help in emulsifying fats.

What is the reaction catalyzed by Pancreatic TAG is broken down into 2-MAG and 2 free fatty acids (FFAs).
Lipase/Colipase?

What are the main enzymes secreted by the pancreas Pancreatic Lipase/Colipase, Phospholipase A2, and Cholesterol hydrase.
for lipid digestion?

What is the function of Cholesterol hydrase in lipid Converts cholesterol esters to free cholesterol.
digestion?

What physiological response occurs due to the Gallbladder contraction to release bile salts.
presence of lipids in the duodenum?

What are bile salts synthesized from? Cholesterol precursor in the liver.

How do bile salts affect the accessibility of fats and They render them accessible to pancreatic lipases.
cholesterol?

Why are bile acid sequestrants significant in medical They can be used in the management of dyslipidemia.
treatment?

What do bile salts form to assist in fat digestion? Micelles.

What is the role of bile salts in lipid digestion? They emulsify or solubilize dietary lipids in the intestinal tract.

What are the products of fat digestion facilitated by Free fatty acids, phospholipid end products, and free cholesterol.
bile salts?
Question Answer

Where are bile salts stored? In the gallbladder.

How does dietary cholesterol enter the enterocyte? Through transporters such as NPC1L1.

How are triglycerides absorbed in the intestine? As free fatty acids.

Where do chylomicrons go after absorption? Via lymphatics to the left subclavian vein.

What medication is associated with cholesterol Ezetimibe.
absorption inhibition?

What is NPC1L1? A transporter that facilitates the absorption of cholesterol in enterocytes.

Which transporters are involved in cholesterol NPC1L1 and ABCG5/G8.
absorption?

What are cholesterol esters and triglycerides packaged Chylomicrons.
as in intestinal cells?

Which lipoproteins contain ApoB? Chylomicrons, VLDL, IDL, and LDL.

What happens to dietary triglycerides after They are absorbed and delivered to the circulation as part of chylomicrons.
consumption?

What are chylomicrons? Lipoproteins that deliver absorbed triglycerides and cholesterol esters from the
intestine to the circulation.

What is the role of ApoB-containing lipoproteins? They are involved in the transport of dietary fats and cholesterol in the body.

Which genes are associated with sitosterolemia? ABCG5 or ABCG8 gene.

What type of genetic condition is sitosterolemia? It is an autosomal recessive genetic condition.

What happens to cholesterol in enterocytes in Cholesterol is not pumped out effectively, leading to its buildup.
sitosterolemia?

Why must lipids undergo metabolism in the body? To make them accessible to cells.

What is required for lipid particles to deliver lipids They need to be assembled.
effectively?

What is the overall process involving Chylomicrons The formation and processing of ApoB-containing lipoproteins.
that includes assembly, metabolism, and clearance?

What is the role of Lipoprotein Lipase (LPL) in It is involved in the intravascular metabolism of Chylomicrons in peripheral vessels.
Chylomicron metabolism?

Where does the assembly of Chylomicrons occur? In the smooth endoplasmic reticulum of enterocytes and hepatocytes.

Which receptor is responsible for the The LDL receptor (LDL-R) in the liver.
receptor-mediated clearance of Chylomicrons?

What are the key components needed for chylomicron ApoB, triglycerides, and MTP/MTTP.
assembly?

What is the role of lipoproteins in the body? They deliver triglycerides and contain cholesterol esters.

Where does chylomicron assembly take place? In the smooth endoplasmic reticulum.

What is the function of MTP/MTTP in lipoprotein It is the microsomal triglyceride transfer protein necessary for the assembly
assembly? process.

What are lipoproteins assembled from? Proteins combined with lipids.

How are VLDL particles secreted into the plasma? By exocytosis from hepatocytes.

What occurs to the apoB protein in the absence of It is degraded.
triglycerides?

What is the role of the apoB protein in the assembly of It is synthesized by ribosomes and enters the lumen of the endoplasmic reticulum
chylomicrons? for lipidation.
Question Answer

How are chylomicrons secreted into the lymphatics? By exocytosis from enterocytes.

What process lipidates the apoB protein to form The action of microsomal triglyceride transfer protein (MTP) in two distinct steps.
chylomicrons?

What are chylomicrons and VLDL particles assembled Similar mechanisms in enterocytes and hepatocytes.
and secreted by?

What percentage of cholesterol in chylomicrons is 75%.
derived from biliary cholesterol?

What pathway is considered after the components The endogenous pathway.
from chylomicrons are delivered to the liver?

What components are processed in the liver from Fatty acids (FA), cholesterol (Chol), amino acids, and glycerol.
chylomicron remnants?

What do chylomicrons represent in the body? Dietary fat intake.

How are chylomicron remnants delivered to the liver? By binding to the LDL receptor (LDL-R) or LRP.

What happens to dietary fats after they become They are delivered to the liver.
chylomicron remnants?

What are the receptors that recognize and internalize LDL-R (LDL-Receptor) and LRP (LDL-Receptor Protein).
chylomicron remnants in the liver?

How do HDL levels impact chylomicron remnant Lower HDL levels may impair CR recognition and internalization by liver receptors.
function?

What happens to remaining packaged cholesterol from It is brought to the liver for utilization in VLDL.
chylomicrons?

What two apolipoproteins do chylomicrons have after ApoB - 48 and ApoE.
receiving ApoE?

What role does HDL play in relation to chylomicrons? HDL provides the ApoE protein to the chylomicron.

What is the primary destination for chylomicron The liver.
remnants (CRs)?

How do chylomicrons deliver dietary fats? They bring triglycerides (TGs) to the tissues for use as fatty acids.

What enzyme processes chylomicrons on the surface Lipoprotein lipase (LPL).
of endothelial cells?

How are chylomicron remnants taken up by the liver? Via LDL receptors or LDL Receptor-related protein (LRP) by binding to ApoE.

How do dietary sterols enter intestinal cells? Via Niemann-Pick C1-like 1 (NPC1L1) transporters.

What role does Apo B-48 play in chylomicron Lipoprotein lipase recognizes Apo B-48 to process chylomicrons.
metabolism?

What is produced in the hepatocyte from chylomicron VLDLs (Very Low-Density Lipoproteins).
remnants?

What is the primary function of chylomicrons? To move sterols and fats from the intestine to the liver.

How are chylomicrons delivered to the circulation? Via the lymphatics.

How are hepatic fats recirculated or excreted? By the enterohepatic (biliary) system.

What does HDL provide to chylomicrons? ApoE.

What is the role of microsomal TG-transfer protein Packages triglycerides and other fats into chylomicrons.
(MTTP) in the intestine?

How do fatty acids enter intestinal cells? Through other transporters or by transcellular absorption.

What does the endogenous pathway focus on in lipid Lipid metabolism within the body, primarily in the liver.
metabolism?
Question Answer

What does the exogenous pathway refer to in lipid Dietary lipid metabolism.
metabolism?

What is the main function of the reverse cholesterol To remove cholesterol from tissues and return it to the liver for disposal.
transport mechanism?

What is required for lipids to become accessible to Undergoing metabolism via Lipoprotein Lipase.
cells during VLDL metabolism?

Why must lipid particles be assembled in VLDL To deliver the lipids.
metabolism?

What is the role of the LDL receptor in VLDL Facilitates receptor-mediated clearance in the liver.
metabolism?

Where does receptor-mediated clearance of VLDL In the liver via the LDL receptor (LDL-R).
primarily occur?

What does MTP stand for in the context of VLDL Microsomal Triglyceride Transfer Protein.
metabolism?

What enzyme is involved in the intravascular Lipoprotein Lipase (LPL).
metabolism of VLDL?

Where does the assembly of VLDL occur? In the smooth ER of enterocytes and hepatocytes.

What are the three key metabolism steps of VLDL? Assembly, intravascular metabolism, and receptor-mediated clearance.

Where does the assembly of lipoproteins occur? In the smooth endoplasmic reticulum.

What is the primary function of lipoproteins? To deliver triglycerides and contain cholesterol esters.

Which type of cell is primarily responsible for Hepatocyte.
lipoprotein assembly?

What are lipoproteins assembled from? Proteins combined with lipids.

What key apolipoprotein is involved in VLDL assembly? ApoB.

What role does the Microsomal Triglyceride Transfer It assists in the transfer of triglycerides during assembly.
Protein (MTP/MTTP) play in lipoprotein assembly?

What is the role of apoB in the assembly of ApoB protein (apoB48 or apoB100) is synthesized by ribosomes and lipidated to
chylomicrons and VLDL? form chylomicrons and VLDL.

Where does the chylomicron or VLDL particle get Chylomicrons are secreted into the lymphatics, and VLDL is secreted into the
secreted after assembly? plasma.

What is the function of microsomal MTP lipidates the apoB protein by facilitating the transfer of triglycerides and
triglyceride-transfer protein (MTP) in lipid metabolism? cholesteryl esters.

What enzyme hydrolyzes VLDL to form IDL or VLDL Lipoprotein lipase.
remnants?

What happens to VLDL remnants after they are They are cleared from circulation or incorporated into LDL.
formed?

What are two uses of LDL in non-hepatic tissues? Hormone production and cell membrane synthesis.

How is LDL internalized by tissues? By hepatic and non-hepatic tissues.

What can happen when LDL is taken up by It can lead to excess accumulation and the formation of foam cells, which are
macrophages and other cells? important in plaque formation.

What is formed in the liver from triglycerides and VLDL (Very Low-Density Lipoprotein).
cholesterol esters?

What do LDL particles contain in their core? Cholesterol esters and a smaller amount of triglyceride.

What happens to LDL in the liver? It is converted into bile acids and secreted into the intestines.

Why does the liver synthesize cholesterol? To supplement dietary cholesterol for tissues that need it.
Question Answer

What is reverse cholesterol transport? The process of moving excess cholesterol from extrahepatic tissues back to the liver
for reprocessing.

What is one of the main physiological functions of To facilitate the return of excess cholesterol from tissues like macrophages back to
HDL? the liver.

What is the primary function of LDL? To transport cholesterol from the liver to extrahepatic tissues.

What role do HDLs play in cholesterol management? They help distribute cholesterol and triglycerides between lipoprotein particles and
cells.

What happens if LDL receptors are not functioning Cholesterol uptake is impaired, leading to elevated cholesterol levels in the blood.
properly?

Why are LDL receptors essential for cholesterol Functioning LDL receptors are needed to take up cholesterol from the bloodstream.
uptake?

What role do LDL particles play in cholesterol LDL particles transport cholesterol to cells throughout the body.
metabolism?

What is the significance of ApoB100 in relation to ApoB100 is important for the transport of cholesterol in LDL particles.
cholesterol?

Which lipoprotein is formed when cholesterol is Very low-density lipoproteins (VLDL).
packaged with triglycerides and apoB100?

What are the remnants of VLDL after hydrolysis called? Intermediate density lipoproteins (IDLs).

What mediates the uptake of LDL cholesterol by LDL receptors that bind to apoB100.
tissues and the liver?

What happens to cholesterol in hepatocytes? It is recycled or synthesized de novo.

How do LDLs transport cholesterol? They carry cholesterol from the liver to extrahepatic tissues and are taken back into
the liver for recycling.

What is the rate-limiting enzyme in cholesterol Hydroxymethylglutaryl coenzyme A reductase (HMG CoA reductase).
synthesis?

What is the primary function of LDLs in the body? To move cholesterol from the liver to extrahepatic cells.

What enzyme hydrolyzes IDLs to yield LDLs? Hepatic lipase (HL).

What process hydrolyzes VLDL triglycerides in Hydrolysis by lipoprotein lipase (LPL).
circulation?

What does the term 'endogenous' refer to? It refers to 'inside of'.

What does the exogenous pathway refer to in lipid Dietary lipid metabolism.
metabolism?

What is the primary focus of the endogenous pathway Lipid metabolism within the liver and what is formed by the liver.
in lipid metabolism?

What are the pathways responsible for lipid Exogenous and endogenous pathways.
metabolism within the body?

What does the term 'exogenous' refer to? It refers to 'outside of'.

How does reverse cholesterol transport benefit the It helps to remove excess cholesterol from the bloodstream, reducing the risk of
body? atherosclerosis and cardiovascular disease.

What are HDL particles? HDL particles are high-density lipoproteins that transport cholesterol and other
lipids from tissues to the liver for excretion or recycling.

What is the role of ApoA1 in reverse cholesterol ApoA1 is a major protein component of HDL particles that facilitates the transport
transport? of cholesterol from peripheral tissues back to the liver.

What role does LCAT play in HDL remodeling? It esterifies cholesterol (CL) to make it more hydrophobic for use in HDL cholesterol.

What protein is synthesized in the liver and released as ApoA1.
small HDL particles?
Question Answer

What process describes how HDLs re-enter Reverse cholesterol transport (RCT) via scavenger receptor class B type 1 (SRB1)
hepatocytes? receptors binding to apoA1.

What is the primary function of HDLs in cholesterol To move excess cholesterol from extrahepatic tissues back to the liver.
transport?

What proteins are involved in further remodeling of Cholesterol ester transfer protein (CETP) and endothelial lipase (LIPG).
HDL?

How do smaller HDLs develop into larger remodeled By taking up cholesterol (CL) extruded from extrahepatic cells via ATP-binding
ones? cassette A-1 (ABC A1) transporters and modified by lecithin-cholesterol
acyltransferase (LCAT).

What do HDLs help maintain a balance between? Cholesterol and triglycerides (TGs) between particles.

How do HDLs contribute to preventing atherogenesis? They have anti-inflammatory and antioxidant activity, potentially inhibiting plaque
formation and expansion.

What role do HDLs play in reverse cholesterol They move excess cholesterol from macrophages and foam cells to the liver,
transport? potentially promoting plaque regression.

What is the function of LCAT in cholesterol LCAT converts free cholesterol (FC) into cholesteryl esters (CE), facilitating the
metabolism? maturation of HDL.

What is the role of Apolipoprotein A-I (A-I) in Reverse A-I is crucial for the formation of HDL and the process of cholesterol efflux from
Cholesterol Transport? cells.

What is the relationship between HDL and scavenger SR-BI mediates the selective uptake of cholesteryl esters from HDL by the liver.
receptor class B type I (SR-BI)?

What is formed when free cholesterol (FC) is esterified? Cholesteryl esters (CE).

What is the significance of nascent HDL in cholesterol Nascent HDL is the initial form that starts the process of reverse cholesterol
transport? transport.

What are the components of mature HDL? Mature HDL contains cholesteryl esters (CE) and apolipoproteins, including A-I.

What happens during the catabolism of HDL? HDL is broken down, leading to the release of cholesteryl esters into the liver.

What type of cholesterol does ATP-binding cassette ABC1 facilitates the efflux of free cholesterol from macrophages to nascent HDL.
protein 1 (ABC1) transport?

What is the function of Lecithin cholesterol It promotes the maturation of HDLs and formation of more lipophilic cholesterol
acyltransferase (LCAT)? esters (CE).

How is excess cholesterol in the form of cholesterol Uptake of HDLs is via scavenger receptor class B1 (SRB1) and of LDLs is via LDL
esters returned to the liver? receptors.

How do HDLs interact with LDL particles? HDLs exchange cholesterol esters (CEs) and triglycerides (TGs) with LDL particles.

What role does Apo-A1 play in reverse cholesterol It gathers free cholesterol (FC) from macrophages and other extrahepatic tissues.
transport (RCT)?

What role does ApoA1 play in the body? ApoA1 is central to lipid trafficking by HDL particles.

Why is ApoA1-mediated lipid acquisition important? It is important for antiatherogenesis.

How do ApoA1 levels compare to total HDL levels in ApoA1 levels are better indicators of cardiovascular risk than total HDL levels.
assessing cardiovascular risk?

What enhances the expression of ApoA1? Activation of PPAR-α enhances expression of ApoA1.

How does inflammation affect HDL particles? Inflammation can impair HDL particles.

What happens to altered HDLs due to inflammation They become less effective as antioxidant/antiinflammatory particles.
and oxidation?

What effect does SAA have on HDLs? It displaces apoA-1 from HDLs.

How can inflammation affect HDLs? It can impair their function.

What inflammatory cytokine is increased during Interleukin-6 (IL6).
Question Answer

inflammation?

What does IL6 induce the liver to produce? Serum amyloid protein (SAA).

What is the suggested focus instead of merely Inhibiting inflammation-induced remodeling of HDLs and promoting the expression
increasing total HDL levels in the blood? of ApoA1.

What should be the focus instead of merely decreasing Inhibiting inflammation-induced transformation (oxidation) of LDLs.
total LDL levels in the blood?

How does inflammation relate to lipid metabolism and Inflammation can disrupt lipid metabolism, leading to increased lipid accumulation
cardiovascular disease? in arterial walls and exacerbating the development of CVD.

What is the importance of triglycerides in the context Elevated triglyceride levels are associated with increased cardiovascular risk and
of cardiovascular disease? can contribute to atherosclerosis.

How can high levels of LDL cholesterol impact High levels of LDL cholesterol can lead to plaque formation in arteries, which
cardiovascular disease risk? increases the risk of atherosclerosis and cardiovascular events.

What is the relationship between lipid metabolism and Disruptions in lipid metabolism can lead to the accumulation of lipids in the arterial
cardiovascular disease (CVD)? walls, contributing to atherosclerosis and increasing the risk of CVD.

What role does HDL cholesterol play in cardiovascular HDL cholesterol helps remove excess cholesterol from the bloodstream, reducing
health? the risk of atherosclerosis and cardiovascular disease.

What are the potential risks associated with Increased risk of myocardial infarction or stroke.
atherosclerosis if lesions become complicated?

What causes the modification of LDL particles in Inflammation at or near arterial walls.
atherosclerosis?

What is atherosclerosis? An inappropriate deposition of lipoprotein, specifically modified LDL particles, on
the walls of large arteries.

What can happen if a lesion in atherosclerosis Pieces of the lesion can break off, occluding smaller arteries downstream.
becomes complicated with a clot?

What happens as a simple lesion grows in It impinges on the lumen, gradually restricting blood flow.
atherosclerosis?

What is one of the key factors that contributes to Abnormally high levels of both normal and pathologically modified LDL particles.
atherogenesis in relation to LDL levels?

How do HDL levels impact atherogenesis? Abnormally low levels of normal HDL and elevated levels of pathologically modified
HDL contribute to atherogenesis.

What role does inflammatory and oxidative It diminishes the structural and functional integrity of lipoprotein particles,
remodeling play in atherogenesis? including both LDL and HDL.

What does LDL stand for? Low-Density Lipoprotein.

What role do LDLs play in cardiovascular health? LDLs can lead to the development of atherosclerosis, increasing cardiovascular
disease risk.

What is the relationship between atherosclerosis and Atherosclerosis increases the risk of heart attacks (myocardial infarction).
heart attacks?

What condition is characterized by the buildup of Atherosclerosis.
plaques in arterial walls?

What is a major risk factor for myocardial infarction Elevated levels of LDL cholesterol.
(m.i.)?

How are LDLs related to atherosclerosis? High levels of LDLs contribute to the formation of plaques in arteries, leading to
atherosclerosis.

What is the consequence of the dislodged clot in a Complete occlusion of the smaller artery.
smaller artery?

What happens after the growth of the fatty streak? Partial occlusion of the artery.

What factors promote endothelial injury in coronary Smoking, diabetes, hypertension, and other factors.
Question Answer

atherogenesis?

What occurs with the disruption of the fibrous cap in Thrombus (clot) formation.
atherosclerosis?

What results from the total occlusion downstream of Ischemia and tissue damage leading to a myocardial infarction.
the artery?

What occurs after the inflammatory response in Oxidation of LDL.
coronary atherogenesis?

What happens to part of the thrombus after it forms? It can break off and migrate to a smaller vessel downstream.

What is formed as a result of macrophage migration Foam cell formation.
and LDL internalization?

What develops under the endothelial layer as a result A fatty streak.
of fatty streak formation?

What is the first step in the process from coronary Injury of the endothelium at arterial bifurcation.
atherogenesis to myocardial infarction?

Which cells are more likely to uptake modified LDL Macrophages and smooth muscle cells.
particles due to inflammation?

How does inflammation affect LDL particles? It modifies LDL particles, making it easier for macrophages and smooth muscle cells
to take them up.

What is formed when macrophages internalize Foam cells.
modified LDL particles?

What happens to unsaturated fatty acids in altered Oxidation shortens unsaturated fatty acids, forming 'lipid whiskers' on the surface.
(oxidized) LDL particles?

What role do lipid whiskers play in the context of They are recognized by scavenger receptors on macrophages, mediating
oxidized LDL particles? internalization of modified LDL particles.

How does oxidation of LDL contribute to Oxidized LDL can induce an inflammatory response in the endothelium, leading to
cardiovascular disease? plaque formation and arterial blockage. It contributes to the development of
atherosclerosis by promoting inflammation and endothelial dysfunction.

What are the consequences of oxidized LDL It can lead to the recruitment of immune cells, formation of foam cells, and
accumulation in blood vessels? progression of atherosclerosis.

What is atherogenesis? Atherogenesis is the process of formation and development of atherosclerotic
plaques in the arterial walls.

What receptor is involved in the uptake of oxidized LDL Scavenger receptors, such as CD-36.
by macrophages?

Why are complicated atherosclerotic lesions They are associated with a higher risk of complications such as blood clots.
considered dangerous?

What role do foam cells play in atherosclerosis? They contribute to the accumulation central to forming simple atherosclerotic
lesions.

What effect does continued inflammation at the lesion It promotes lesion expansion, fibrous cap disruption, and formation of blood clots
site have? on the surface of the lesion.

What happens to LDL particles during the They undergo oxidation, altering their structure and promoting their uptake by
inflammatory response? macrophages.

What is the process by which LDL gets oxidized? LDL oxidation is a complex process involving various factors.

Why is the oxidation of LDL considered complicated? It involves multiple mechanisms and factors influencing the reaction.

How does reverse cholesterol transport (RCT) RCT helps to lower the risk of atherosclerosis and cardiovascular disease by
contribute to cardiovascular health? removing excess cholesterol from the bloodstream.

What is the primary function of HDL in the body? The primary function of HDL is to facilitate reverse cholesterol transport, removing
excess cholesterol from tissues and transporting it to the liver.
Question Answer

What is Nascent HDL? Nascent HDL is a newly formed high-density lipoprotein that plays a critical role in
reverse cholesterol transport.