B P4 C24 The Vascular Biology of Atherosclerosis

Question 1

This molecule serve as a cofactor for antithrombin III, causing a conformational change that allows this inhibitor to bind to and inactivate thrombin

Answer 1

Heparan Sulfate

Question 2

Molecule that binds thrombin molecules and can exert antithrombotic properties by activating proteins S and C

Answer 2

Thrombomodulin

Question 3

The _____ cell of the arterial intima constitutes the crucial contact surface with blood

Answer 3

Endothelial cell (EC)

Question 4

Should a thrombus begin to form, the normal EC possesses potent fibrinolytic mechanisms associated with its surface. The EC can produce both:

Answer 4

Tissue-plasminogen activator (t-PA)

and

Urokinase-type plasminogen activator (u-PA)

Question 5

Catalyze the activation of plasminogen into plasmin, a fibrinolytic enzyme

Answer 5

t-PA and u-PA

Question 6

The second major cell type of the normal artery wall, the _____, has many important functions in normal vascular homeostasis, as a target of therapies in cardiovascular medicine and in the pathogenesis of arterial diseases

Answer 6

Smooth muscle cell (SMC)

Question 7

However, in larger arteries involved in atherosclerosis, abnormal smooth muscle contraction may cause _____, a complication of atherosclerosis that may impede blood flow.

Answer 7

Vasospasm

Question 8

Death of SMCs may promote:

Answer 8

Destabilization of atheromatous plaques
Ectatic remodeling
Aneurysm formation

Question 9

In the descending aorta and arteries of the lower body, the regional ___ serves as the source of smooth muscle precursors.

Answer 9

Mesoderm

Question 10

However, in arteries of the upper body, SMCs can derive from a completely different germ layer—the _____,rather than mesoderm

Answer 10

Neuroectoderm

Question 11

The heterogeneity of SMCs may have direct clinical implications to help understand several common observations, such as the propensity of certain arteries or regions of arteries to develop atherosclerosis or heightened responses to injury (e.g., _____), and medial degeneration (e.g., ____)

Answer 11

Propensity to develop atherosclerosis/heightened response to injury (pLAD)

Medial degeneration (proximal aorta in Marfan Syndrome)

Question 12

The vasa vasorum and nerve endings localize in this layer of the arterial wall

Answer 12

Adventitia

Question 13

This structure appears well adapted to the storage of the kinetic energy of left ventricular systole by the walls of great arteries.

Answer 13

Tunica Media

Question 14

The first steps in human atherogenesis remain largely conjectural, but the integration of observations of tissues obtained from young humans with the results of experimental studies of atherogenesis in animals provides hints in this regard.

On initiation of an atherogenic diet, typically rich in cholesterol and saturated fat, _____.

Answer 14

Small lipoprotein particles accumulate in the intima (steps 1 and 2)

Question 15

Lipoprotein particles bound to _____ have increased susceptibility to oxidative or other chemical modifications, considered by many to contribute to the pathogenesis of early atherosclerosis (step 2)

Answer 15

Proteoglycan

Question 16

Another hallmark of atherogenesis is ____

Answer 16

Leukocyte recruitment and accumulation

Question 17

Members of the immunoglobulin (Ig) superfamily include:

Answer 17

VCAM-1
CD106

Question 18

This integrin is characteristically expressed by only those classes of leukocytes that accumulate in nascent atheroma—monocytes and T cells.

Answer 18

Very late antigen-4 (VLA-4)

Question 19

The location of the lesion predilection at _____ portions of arteries after branch points or bifurcations at flow dividers, suggests a hydrodynamic basis for early lesion development.

Answer 19

Proximal

Arteries without many branches (e.g., the internal mammary and radial arteries) tend not to develop atherosclerosis.

Question 20

_____ can reduce oxidative stress by catabolizing the reactive and injurious superoxide anion.

Answer 20

SOD

Question 21

Endothelial NOS produces the well-known endogenous vasodilator _____.

Answer 21

Nitric oxide

Beyond its vasodilating actions, NO can resist inflammatory activation of endothelial functions, including the expression of VCAM-1.

NO appears to exert this anti-inflammatory action at the level of gene expression by interfering with the transcriptional regulator nuclear factor kappa B (NF-kB).

IkBa, an intracellular inhibitor of this important transcription factor. NFkB regulates numerous genes involved in inflammatory responses in general and in atherogenesis in particular.

Question 22

Pulsatile (unidirectional) laminar flow induced the pivotal transcription factors (__), which coordinately elicit a palette of atheroprotective function.

Answer 22

Krüppel-like factor [KLF]-2
KLF4
Nuclear factor erythroid 2–related factor [Nrf]-2

Question 23

The monocyte, once recruited to the arterial intima, can imbibe lipid and become a _____.

Answer 23

Foam cell or lipid-laden macrophage (Step 5)

Question 24

Instead of the classic LDL receptor, various _____ receptors appear to mediate the excessive lipid uptake characteristic of foam cell formation

Answer 24

Scavenger receptors

Question 25

The factors that trigger macrophage cell division in the atherosclerotic plaque probably include hematopoietic growth factors such as:

Answer 25

Macrophage colony-stimulating factor (M-CSF)
Granulocyte-macrophage colony-stimulating factor (GM-CSF)
Interleukin-3 (IL-3)

Question 26

Precursor lesion of a complex atheroma

Answer 26

Fatty Streak

Question 27

____ can exert anti-inflammatory effects.

Answer 27

TGF-β and IL-10

Question 28

Angiogenesis factors include:

Answer 28

VEGF
FGF
Placental growth factor (PlGF)
Oncostatin M

Question 29

____ can antagonize plaque mineralization by inhibiting RANKL signaling.

Answer 29

Osteoprotegerin

Question 30

_____, a genome- wide association study (GWAS) “hit” on atherosclerosis, regulates the loading of alkaline phosphatase into extracellular vesicles, thereby promoting calcification.

Answer 30

Sortilin (Sort-1)

Question 31

Luminal stenosis tends to occur only after the plaque burden exceeds approximately __% of the cross-sectional area of the artery.

Answer 31

40% of CSA

Question 32

Lesions that produce stenoses of greater than ___% can cause flow limitations under conditions of increased demand.

Answer 32

> 60%

Question 33

Several major modes of plaque disruption provoke most coronary thrombi.

The first mechanism, accounting for about two thirds of acute MIs, involves a _____.

Another mode involves a _____, accounting for a quarter to a third of acute MIs.

Answer 33

Fracture of the plaque’s fibrous cap (2/3)

Superficial erosion of the intima (1/3)

Question 34

The process of in-stent stenosis, in contrast with restenosis after balloon angioplasty, depends primarily on _____ as opposed to negative remodeling.

Answer 34

Intimal Thickening

Question 35

The stent provides a firm scaffold that prevents constriction from the ______

Answer 35

Adventitia

Question 36

The risk of late thrombosis after radiation brachytherapy or with stents that contain anti-proliferative agents may relate to ______, with attendant loss of the anticoagulant and pro-fibrinolytic properties of the normal intimal lining

Answer 36

Impaired endothelial healing

Question 37

Characteristics of thrombosis due to erosion

Answer 37

• Fibrous cap thick and intact
• “White” fibrin-rich thrombus
• Collagen trigger
• Smooth muscle cells prominent
• Often sessile, nonocclusive thrombus
• Usually less remodeled outward
• Neutrophil extracellular traps (NETs) involved
• More frequent in non-STEMI?

Question 38

Characteristics of thrombosis due to rupture

Answer 38

• Thin fibrous cap with fissure
• “Red” fibrin-rich thrombus
• Tissue factor trigger
• Macrophages prominent
• Often occlusive thrombus
• Usually expansively remodeled
• Less NET involvement?
• More frequently causes STEMI?

Question 39

Thin fibrous caps associate with plaque rupture, probably resulting from _____.

Answer 39

Reduced collagen synthesis and increased degradation

Question 40

Plaques that have fatally ruptured exhibit another microanatomic feature:

Answer 40

Prominent accumulation of macrophages with a large lipid pool

Question 41

Most plaque disruptions do not give rise to clinically apparent coronary events.

True/False

Answer 41

True

Careful pathoanatomic examination of hearts obtained from patients who have succumbed to noncardiac death has shown a surprisingly high incidence of focal plaque disruptions with limited mural thrombi.

Question 42

The “burned-out” fibrous and calcific atheroma may represent a _____ stage of a plaque that previously was lipid rich with characteristics associated with rupture, but that has become fibrous and hypocellular because of a wound-healing response mediated by the products of thrombosis and calcification seeded by cell death

Answer 42

Late

Question 43

The amount of _____ in the lipid core of a plaque (the solid state) can control the degree of clot formation that will ensue after disruption

Answer 43

Tissue Factor

Question 44

The level of ______ in the fluid phase of blood can influence whether a plaque disruption will cause an occlusive thrombus that can precipitate an acute ST-segment elevation myocardial infarction (STEMI) or yield merely a small asymptomatic mural thrombus

Answer 44

Fibrinogen

Question 45

Elevated levels of inhibitors of fibrinolysis, such as _____, will impede the ability of endogenous thrombolytic enzymes to limit thrombus growth or persistence

Answer 45

Plasminogen Activator Inhibitor-1 (PAI-1)

Question 46

Work on the pathophysiology of restenosis after angioplasty initially focused on smooth muscle proliferation.

Much of the thinking regarding the pathobiology of restenosis or in-stent stenosis depended on the extension to the human situation of the results of withdrawal of an _____ in previously normal animal arteries.

Answer 46

Overinflated balloon or overexpanded stent

Question 47

The use of _____ stents that release agents with anti-inflammatory and antiproliferative properties has greatly reduced in-stent stenosis, and newer-generation DES appear to have a limited potential for augmenting late stent thrombosis associated with earlier DES

Answer 47

Drug-eluting stents (DES)

Question 48

The risk of late thrombosis after radiation brachytherapy or with stents that contain antiproliferative agents may relate to:

Answer 48

• Impaired endothelial healing
• Attendant loss of the anticoagulant and profibrinolytic properties of the normal intimal lining

Question 49

The term _____(hardening of the arteries) rather than atherosclerosis (gruel-hardening) is preferable in describing this process because of the inconstant association with lipids (the “gruel” in atherosclerosis)

Answer 49

Arteriosclerosis

Question 50

Graft coronary disease is _____, not only affecting the proximal epicardial coronary vessels but also penetrating smaller intramyocardial branches

Answer 50

Concentric and diffuse

Question 51

Characteristics of graft arteriosclerosis

Answer 51

Concentric lesion
No lipid core
Diffuse distribution

Question 52

Characteristics of typical atherosclerosis

Answer 52

Eccentric lesion
Lipid deposits
Focal distribution

Question 53

Interruption of _____ signaling can prevent experimental graft coronary disease in mice.

Answer 53

IFN-γ

Question 54

In particular, aneurysmal disease characteristically affects the _____ abdominal aorta. This region is highly prone to the development of atherosclerosis.

Answer 54

Infrarenal

Question 55

Data from the Pathobiological Determinants of Atherosclerosis in Youth (PDAY) study show that the _____ surface of the infrarenal abdominal aorta has a particular predilection for the development of fatty streaks and raised lesions in Americans younger than 35 years who died of noncardiac reasons

Answer 55

Dorsal surface

Question 56

Because of the absence of _____, the relative lack of blood supply to the tunica media in this portion of the abdominal aorta might explain the regional susceptibility of this part of the arterial tree to aneurysm formation.

Answer 56

Vasa vasorum

Question 57

In addition, the _____ lordosis of the biped human may alter the hydrodynamics of blood flow in the distal aorta, causing flow disturbances that may promote lesion formation.

Answer 57

Lumbar lordosis

Question 58

In typical coronary artery atherosclerosis, expansion of the intimal lesion produces stenotic lesions. The tunica media underlying the expanded intima often is _____, but its general structure remains relatively well _____.

Answer 58

Expanded intima: thinned
General structure: preserved

Question 59

_____ destruction of the arterial architecture occurs in aneurysmal disease. In particular, the usually well-defined laminar structure of the normal tunica media disappears with obliteration of the elastic laminae.The tunica media of advanced aortic aneurysms have _____ SMCs, which are often prominent in typical stenotic lesions.

Answer 59

Transmural

Few SMCs

Question 60

Mechanisms of the pathology of aneurysmal disease

Answer 60

• MMP overexpression
• ATII
• TGF-β signaling mutation
• Adventitial inflammation
• Elastic laminae destruction

Question 61

In atherosclerotic mice, _____ potentiates aneurysm formation.

Answer 61

Angiotensin II

Question 62

A considerable body of seroepidemiologic evidence supported a role for certain bacteria, notably _____, and certain viruses, notably _____, in the etiology of atherosclerosis

Answer 62

Chlamydia pneumoniae
Cytomegalovirus (CMV)

Question 63

These microvessels probably form in response to angiogenic peptides overexpressed in atheroma. These angiogenesis factors include:

Answer 63

Vascular endothelial growth factor (VEGF) forms of fibroblast growth factors
Placental growth factor (PlGF)
Oncostatin M