Flipped Classroom: Lipoproteins III

Question 1

The second receptor-mediated fate for circulating LDL is via the

Answer 1

Scavenger receptor

Question 2

Has a lower affinity but broader specificity than the LDL receptor

Answer 2

Scavenger receptor

Question 3

The scavenger receptor can recognize both

Answer 3

Normal and damaged LDL

Question 4

Macrophages and some endothelial cell types possess the

Answer 4

Macrophage scavenger receptor (SR-A)

Question 5

Significant percentages of LDL uptake in organs such as the intestine and spleen are accounted for by the

Answer 5

Scavenger receptor

Question 6

SR-A has a higher affinity for

Answer 6

Oxidized (damaged) LDL

Question 7

Leads to foam cell formation

Answer 7

SR-A

Question 8

Even after mRNA has been fully processed, it may undergo additional posttranscriptional modification in which a base in the mRNA is altered. This is known as

Answer 8

RNA editing

Question 9

The apoB mRNA is made in the

Answer 9

Liver and small intestine

Question 10

However, in the small intestine only, the C residure in the codon CAA for glutamine is deaminated to U, changing this to a

Answer 10

Stop codon

Question 11

This results in translation of the shorter protein known as

Answer 11

ApoB-48

Question 12

What makes

1. ) ApoB-100
2. ) ApoB-48

Answer 12

1. ) Liver (incorporated into VLDL)

2. ) Intestines (Chylomicron)

Question 13

A circulating, abnormal varient of LDL

Answer 13

Lipoprotein(a) aka Lp(a)

Question 14

Forms when ApoA forms a disulfide bonded complex with the ApoB-100 component of LDL

Answer 14

Lp(a)

Question 15

A modest independent risk factor for atherosclerotic cardiovascular disease events, especially an MI

Answer 15

Lp(a)

Question 16

Certain SNPs of the LPA gene maybe be associated with higher population risks for

Answer 16

CVD

Question 17

VLDLs travel in the circulatory system until they associate with LPL. This association is mediated via

Answer 17

ApoC-II

Question 18

Serves to remove excess cholesterol from the peripheral tissues and return it to the liver

Answer 18

Reverse cholesterol pathway

Question 19

This movement is accomplished by

Answer 19

HDL

Question 20

Transport of cholesterol from the liver to peripheral tissues is called

Answer 20

Cholesterol transport

Question 21

While the transport of cholesterol from the peripheral tissues to the liver and steroid producing tissues is called

Answer 21

Reverse cholesterol transport

Question 22

Formed in the blood by the addition of ipid to ApoA-I

Answer 22

HDL

Question 23

Accounts for about 70% of the apoproteins in HDL

Answer 23

ApoA-I

Question 24

Serves as a circulating reservoir of ApoC-II and ApoE

Answer 24

HDL

Question 25

The apolipoprotein that is transferred to VLDL and chylomicrons and is an activator of LPL

Answer 25

ApoC-II

Question 26

The apolipoprotein required for the receptor-mediated endocytosis of IDLs and chylomicron remnants

Answer 26

ApoE

Question 27

Nascent HDL particles are derived from both the

Answer 27

Liver and intestine

Question 28

Unlike the chylomicron and VLDL, the nascent HDL is not spherical but rather

Answer 28

Disc-shaped

Question 29

Are also derived from surface components of both chylomicrons and VLDLs

Answer 29

HDL particles

Question 30

ApoA-I activates

Answer 30

LCAT

Question 31

ApoA-II activates

Answer 31

HL

Question 32

Protein that is secreted by the liver and circulates in plasma, bound mainly to HDL

Answer 32

Cholesterol Ester Transfer Protein (CETP)

Question 33

Promotes the redistribution of cholesterol esters, triglycerides, and, to a lesser extent, phospholipids netween plasma lipoproteins

Answer 33

CETP

Question 34

The overall net effect of CETP is a net mass transfer of cholesterol esters from HDL to triglyceride-rich lipoproteins and

Answer 34

LDL

Question 35

Also has the net effect of moving triglycerides from triglyceride-rich lipoproteins to LDL and HDL

Answer 35

CETP

Question 36

Subsequently, the TAGs are removed from HDL by

Answer 36

HL

Question 37

One consequence of these CETP-mediated transfers of cholesterol esters from HDL is a reduction in the cholesterol content and size of

Answer 37

HDL

Question 38

The overall effect of CETP is a net mass transfer of cholesterol esters from HDL to

Answer 38

VLDL

Question 39

The overall effect of CETP is also a net mass transfer of triglycerides from VLDL to

Answer 39

HDL

Question 40

Nascent HDL form chiefly in the liver and intestine by loading phosphatidylcholine, cholesterol, and cholesterol esters onto

Answer 40

ApoA-I

Question 41

Used by the liver to enrich discoidal HDL w/ phosphatidylcholine and cholesterol

Answer 41

ABCA1 transporter

Question 42

When colesterol is taken up by HDL, it is immediately esterified by the plasma enzyme

Answer 42

LCAT

Question 43

LCAT is synthesized and secreted by the

Answer 43

Liver

Question 44

LCAT binds to nascent HDL and is activated by

Answer 44

ApoA-I

Question 45

Transfers the fatty acid from carbon 2 of phosphatidylcholine to cholesterol, producing a hydrophobic cholesterol ester

Answer 45

LCAT

Question 46

Whic HDL is more cholesterol ester rich, HDL3 or HDL2?

Answer 46

HDL2

Question 47

CETP moves some of the cholesterol esters from HDL to VLDL in exchange for TAG, relieving product inhibition of

Answer 47

LCAT

Question 48

Because VLDLs are catabolized to LDL, the cholesterol esters transferred by CETP are ultimately taken up by the

Answer 48

Liver

Question 49

The uptake of cholesterol esters by thge liver is mediated by a cell-surface receptor

-Binds HDL

Answer 49

SR-B1

Question 50

The HDL particle itself is not taken up. Rather, there is selective uptake of the cholesterol ester from the

Answer 50

HDL particle

Question 51

With it’s ability to degrade both TAG and phospholipids, participates in the conversion of HDL2 to HDL3

Answer 51

HL

Question 52

Elevation of plasma cholesterol, triglycerides (TGs), or both, or a low HDL level that contributes to atherosclerosis

Answer 52

Dyslipidemia

Question 53

Can result from a single inherited gene defect, or more commonly, are caused by a combination of genetic and environmental factors

Answer 53

Primary hyperlipidemias

Question 54

The result of a metabolic disorder such as DM, obesity, hypothyroidism, or primary biliary cirrhosis

Answer 54

Secondary hyperlipidemias

Question 55

How do we calculate LDL cholesterol?

-the Friedewald equation (mg/dL)

Answer 55

LDL cholesterol = Total cholesterol - HDL - VLDL

Question 56

The Friedewald equation is inaccurate when the concentration of triglycerides is high (greater than 400) or when there is an appreciable number of

Answer 56

Chylomicrons

Question 57

How do we calculate VLDL cholesterol?

Answer 57

Total triglycerides/5

Question 58

Patients who have hypertriglyceridemia mayhave normal or elevated

Answer 58

LDL cholesterol

Question 59

Hypertriglyceridemia is defined as total plasma triglycerides in the fasting state in excess of

Answer 59

150 mg/dL

Question 60

The hyertriglyceridemia is due to an abnormally high quantity of

Answer 60

Chylomicrons, VLDL, or both

Question 61

The major risk of very severe hypertriglyceridemia is

Answer 61

Pancreatitis

Question 62

Patients who hace very severe hypertriglyceridemia may also have

Answer 62

Eruptive and tuberous xanthomas

Question 63

Characterized by the pathologic presence of chylomicrons after a 12-14 hour period of fasting

Answer 63

Familial chylomicronemia

Question 64

In familial chylomicronemia, samples of lipemic plasma that are refridgerated overnight develop a

Answer 64

Creamy supernatant

Question 65

When the plasma is tested, fasting triglyceride measurements are typically above

Answer 65

1000 mg/dL

Question 66

Lowering of plasma triglycerides to below 500 mg/dL virtually eliminates a person’s risk of a repeat episode of hypertriglyceridemia-induced

Answer 66

Pancreatitis

Question 67

Due to deficiency of LPL and ApoC-II activity

Answer 67

Familial chylomicronemia

Question 68

Has secondary factors and a greater elevation of total cholesterol relative to that in familial chylomicronemia

Answer 68

Primary mixed hyperlipidemia

Question 69

Characterized by the accumulation of remnants of chylomicrons and of VLDLs

Answer 69

Dysbetalipoproteinaemia

Question 70

This is because Dysbetalipoproteinaemia develops due to a deficiency of

Answer 70

ApoE

Question 71

Has a population prevalence of 1-2 in 20,000

Answer 71

Familial dysbetalipoproteinaemia

Question 72

Plasma levels of LDL levels are decreased and plasma levels of IDL are increased because of interrupted processing of VLDL in

Answer 72

Dysbetalipoproteinaemia

Question 73

An increased VLDL:triglyceride ratio and an ApoE homozygosity are therefore diagnostic for

Answer 73

Familial Dysbetalipoproteinaemia

Question 74

The onset of Familial Dysbetalipoproteinaemia occurs after

Answer 74

Childhood

Question 75

In women, onset of Familial Dysbetalipoproteinaemia is typically delayed until

Answer 75

Menopause

Question 76

Clinical manifestations may very from no physical signs to severe cutaneous and tendinous xanthomata, atherosclerosis of coronary and peripheral arteries, and pancreatitis when severe hypertriglyceridemia is present

Answer 76

Familial Dysbetalipoproteinaemia

Question 77

The cornerstone of treatment for hypertriglyceridemia

Answer 77

Lifestyle modification

Question 78

Reduces VLDL production in a high dose

Answer 78

Statin

Question 79

Increases LPL activity

Answer 79

Sipplement of fish oil rich in omega-3 FA

Question 80

Activate PPARa transcription factors that lead to both increased lipoprotein lipase activity and an increased rate of fatty acid B-oxidation

Answer 80

Fibrate drugs

Question 81

Works in part by activating niacin receptor 1 that inhibits lipolysis

Answer 81

Nicotinic acid (Vitamin B3)

Question 82

People with hypercholesterolemia have a high risk of developing

Answer 82

Coronary artery disease

Question 83

People that have two alleles for a defective LDL receptor have

Answer 83

Homozygous familial hypercholesterolemia

Question 84

Have an LDL concentration that is 10x the normal concentration

Answer 84

Patients with Homozygous familial hypercholesterolemia

Question 85

In less frequent circumstances, a patient can have Homozygous familial hypercholesterolemia due to two loss-of-function mutations in

Answer 85

ApoB-100

Question 86

About 5% of heterozygous familial hypercholesterolemia pateints have a mutant

Answer 86

ApoB-100

Question 87

About 2% of heterozygous familial hypercholesterolemia pateints have overactive

Answer 87

PCSK9 enzyme

Question 88

Most patients who have heterozygous familial hypercholesterolemia have a mutant allele for the

Answer 88

LDL receptor

Question 89

Patients with heterozygous familial hypercholesterolemia typically have how much more LDL than usual?

Answer 89

2x

Question 90

Patients with heterozygous familial hypercholesterolemia that is untreated typically have heart attacks before their

Answer 90

Late 50’s

Question 91

Patients with Homozygous familial hypercholesterolemia typically have heart attacks in their

Answer 91

Teens and twenties

Question 92

The most common lipoprotein abnormality among pateints with CAD

Answer 92

Low HDL (less than 40 mg/dL)

Question 93

Low HDL is also a component trait of the

Answer 93

Metabolic syndrome

Question 94

The most common genetic disorder of HDL is

Answer 94

Familial hypoalphalipoproteinemia (FHA)

Question 95

Common finding in patients with premature CAD

Answer 95

FHA

Question 96

Results in a profound decrease in HDL (less than 5 mg/dL)

Answer 96

Complete loss of ApoA-1

Question 97

ApoA-1 deficient patients can be distinguished from other causes of HDL deficiency by the complete absence of

Answer 97

ApoA-1

Question 98

Patients with ApoA-1 deficiency also have normal levels of

Answer 98

LDL and TAGs

Question 99

Patients with HDL deficiency due to ApoA-1 deficiency may also exhibit mild to moderate

Answer 99

Corneal opacification or corneal clouding

Question 100

Another cause of low HDL is

Answer 100

LCAT deficiency