Pathoma Inflammation, inflammatory disorders, wound healing

Question 1

Inflammation allows what to happen?

Answer 1

Inflammatory cells, plasma proteins, and fluid to exit from vessel to enter interstitial space

Question 2

Cells seen in acute inflammation

Answer 2

Neutrophil

Question 3

Cells in chronic inflammation

Answer 3

Lymphocytes

Question 4

Acute inflammation characterized by

Answer 4

Edema and neutrophils

Question 5

Acute inflammation arises in response to what 2 things

Answer 5

Infection or tissue necrosis - eliminate pathogen or clear necrotic debris

Question 6

What is included in innate immunity

Answer 6

epithelium, mucus secreted by cells, complement system, cells (mast, macrophages, neutrophils, eosinophils, basophils)

Question 7

Acute inflammation mediated by what factors?

Answer 7

TLRs: present on cells of innate immunity

AA: from phospholipase A2 (acted on by COX/5-lipooxygease)

Question 8

What do TLRs recognize?

Answer 8

PAMPs - pathogen associated molecular patterns

Question 9

What TLR is found on macrophages and recognizes LPS on outer membrane of G- bacteria

Answer 9

CD14

Question 10

TLR activation results in upregulation of?

Answer 10

NF-kappaB

activates immune response genes

Question 11

COX pathway produces what?

Answer 11

PG
I2, D2, E2
Mediate vasodilation (arteriole) and vascular permeability (post-capillary venule)

E2 - also mediates fever and pain

Question 12

5-lipooxygenase produces?

Answer 12

LT
B4 - attracts and activates neutrophils

C4, D4, E4 - vasoconstriction, bronchospasm, increased vascular permeability - contract smooth muscle

Question 13

What attracts/activates neutrophils?

Answer 13

LTB4, C5A, IL8, bacterial products

Question 14

mast cells activated by

Answer 14

tissue trauma
complement proteins C3a, C5a
Crosslinking of cell surface IgE by antigen

Question 15

what does histamine do

Answer 15

mediates vasodilation of arterioles and increase vascular permeability

Question 16

Delayed response of mast cell

Answer 16

production of AA metabolites - leukotrienes to maintain inflammatory response

Question 17

Complement for acute inflammation activation

Answer 17

classical pathway (C1) binds IgG/IgM bound to antigen 
"GM makes classic cars"

alternative pathway - microbial products directly activate complement

mannose binding lectin pathway - MBL binds mannose on microorganisms and activates complement.

Question 18

complement pathways result in

Answer 18

C3 convertase: C3 - C3a/b which activates
C5 convertase: C5 - C5a/b which creates formation of MAC
Binds with C6-9 to form MAC complex

Question 19

C3a and C5a trigger what?

Answer 19

Mast cell degranulation

Question 20

C5a is chemotactic for what?

Answer 20

neutrophils

Question 21

C3b action

Answer 21

opsonin for phagocytosis

Question 22

MAC complex does what?

Answer 22

Lyses microbes by creating holes in cell membrane

Question 23

Hageman Factor

Answer 23

Activated up subendothelial or tissue collage

Produced in liver - important role in DIC (Gram - Sepsis)

Question 24

What does Hegeman factor activate?

Answer 24

Coagulation and fibrinolytic systems
Complement
Kinin system (cleave HMWK to bradykinin - mediates vasodilation, vascular permeability, pain

Question 25

Cardinal signs of inflammation

Answer 25

Rubor, calor, tumor, swelling, dolor, fever

Redness - d/t vasodilation (arteriole) resulting in increased blood flow

Relaxation of arteriolar smooth muscle

Leakage of fluid from postcapillary venules

Question 26

Key mediators of rubor and color

Answer 26

Histamine, PG, bradykinin

Question 27

Key mediators of swelling (tumor)

Answer 27

histamine, tissue damage

Question 28

Key mediators of pain

Answer 28

Bradykinin and PGE2 by sensitizing nerve endings

Question 29

Key mediators of fever

Answer 29

Pyrogens cause macrophages to release IL-1 & TNF

Increase in COX (perivascular cells of hypothalamus)

PGE2 - raise temp set point

Question 30

Neutrophil phase peaks at what time?

Answer 30

24 hours

Question 31

Macrophage phase peaks at what time?

Answer 31

2-3 days

Question 32

Step 1 of neutrophil arrival

Answer 32

Margination

Vasodilation slows blood flow in postpapillary venule
Cells marginate from center to periphery

Question 33

Step 2 of neutrophil arrival

Answer 33

Rolling

Selectin - speed bumps upregulates

P selectin from Weibel Palade bodies (histamine)

E selectin by TNF and IL-1

Question 34

Where does P selectin come from

Answer 34

Weibel Palade bodies

Question 35

What are 2 key proteins from Weibel Palade body

Answer 35

vWF

P selectin

Question 36

E selectin induced by

Answer 36

TNF & IL-1

Question 37

What do selectins bind?

Answer 37

Sialyl Lewis X on leukocytes - results in rolling of leukocytes along vessel wall

Question 38

Step 3 of neutrophil arrival

Answer 38

Adhesion

binding to wall by cellular adhesion molecules (upregulated by TNF and IL-1)

Bind integrins on leukocytes (upregulated by C5a, LTB4)

Results in firm adhesion to vessel wall

Question 39

Leukocyte adhesion deficiency

Answer 39

CD18 subunit
Ar defect integrin - can’t be drawn into tissue

Delayed separation of umbilical cord - (normally neutrophils destroy tissue to allow separation)
Increased circulating neutrophils
Recurrent bacterial infections that lack pus formation (pus is dead neutrophils)

Question 40

Step 4 neutrophil arrival

Answer 40

Transmigration and chemotaxis

Leukocyte transmigrate across endothelium of postcapillary venule

Move toward chemical attractants (C5a, LTB4, bacterial products, IL-8)

Question 41

Step 5 neutrophil arrival

Answer 41

Phagocytosis

Enhanced by opsonins (IgG & C3b)

Question 42

Chediak Higashi Syndrome

Answer 42

Protein trafficking defect - impaired phagolysosome formation (microtubule defect so can’t merge phagosome + lysosome)

1. Increased risk pyogenic infection
2. Neutropenia - (can’t divide properly)
3. Giant granules in leukocytes (can’t be moved)
4. Defective primary hemostasis - dependent on platelets - granules not properly distributed
5. Albinism
6. Peripheral neuropathy - can’t move proteins from nucleus to nerves

Question 43

Step 6 of neutrophil arrival

Answer 43

Destrocion of phagocytosed material

O2 dependent

• most effective
• HOCl generated by oxidative burst in phagolysosomes

O2 independent
- enzyme present in leukocytes

Question 44

Which is more effective? O2 dependent or independent killing?

Answer 44

O2 dependent

Question 45

O2 - to O2.- to H2O2 to HOCl

Answer 45

O2 to O2.- by NADPH oxidase
O2.- to H2O2 by superoxide dismutate
H2O2 to HOCl (bleach) by myeloperoxidase

Question 46

CGD (chronic granulomatous dz)

Answer 46

poor O2 dependent killing
D/T NADPH oxidase defect

can’t generate bleach: granuloma infections with catalase + organisms

Question 47

Catalase + organism associated with CGD (chronic granulomatous dz)

Answer 47

Catalase destroys H2O2 so can’t produce bleach

S aureus
Pseudomonas cepacia

Question 48

Test to screen for CGD?

Answer 48

Nitroblue tetrazolium

Is O2 to O2.- intact by NADPH oxidase? NO - dye remains colorless

Question 49

MPO deficiency

Answer 49

can’t produce bleach but most pt will be asymptomatic

Increase risk in candida infections

Question 50

what will happen in NBP (nitroblue tetrazolium) test in MPO deficiency?

Answer 50

It will turn blue because the O2 to O2.- reaction is intact

Question 51

Step 7 neutrophil arrival

Answer 51

Resolution

Neutrophil undergoes apoptosis

Disappear within 24 hours after resolution of inflammatory stimulus

Question 52

Monocytes arrive how?

Answer 52

Same as neutrophils:

margination, rolling, adhesion, transmigration

Question 53

What is primary enzyme in macrophages?

Answer 53

Lysozyme

Question 54

What are anti-inflammatory cytokines?

Answer 54

IL-10 and TGF-beta

Question 55

What cytokine continues inflammation?

Answer 55

IL-8 - macrophages call in neutrophils

Question 56

Does time or response define acute inflammation?

Answer 56

RESPONSE - IL-8 Secreted calling more macrophages, production of pus

Question 57

What characterizes chronic inflammation

Answer 57

Lymphocytes and plasma cells in tissue

Question 58

CD4+ T cell actiavtion

Answer 58

Extracellular antigen phagocytosed, processed, presented to MCH class II

B7 on APC binds CD28 on CD4+ T cells providing 2nd activation signal
28/7=4

Question 59

What do CD4+ T cells secrete?

Answer 59

cytokines

TH1: IL-2 (T cell GF and CD8+ T cell activator) INF- gamma (marcophages activator)

TH2: B cells
IL-4 - class switching to IgG and IgE
IL-5 - eosinphilia chemotaxis and activation, maturation of B cells to plasma cells, class switching to IgA
IL-10 - inhibits TH1 phenotype

Question 60

CD8+ T cell activation

Answer 60

MHC I - intracelluar antigen

IL-2 from CD4+ TH1 cell produces 2nd activation signal

Cytotoxic T cells activated for killing (kill cell)

Question 61

CD8+ kills cells how?

Answer 61

Perforins & granzyme inducing apoptosis
(caspase is key mediator)

Express FasL bind Fas activating apoptosis

Question 62

B cell activation

Answer 62

Antigen binding by IgM or IgD

B cell antigen presentation to CD4+ helper T cell via MHC II

CD40 receptor on B cell binds CD40L on helper T cell providing 2nd activation signal

Question 63

Defining feature of granuloma

Answer 63

Epitheloid histocyte! macrophages with abundant pink cytoplasm

Question 64

Noncaseating granulomas lack what? and what are the causes

Answer 64

Central necrosis

Reaction to foreign material
Sacroidosis
Beryllium exposure
Crohn dz (noncaseating dz)
Cat scratch dz

Question 65

Differential dx for caseating granuloma

Answer 65

TB & FUNGAL

AFB for TB
GMS (silver stain) for Fungal infection

Question 66

Steps in granuloma formation

Answer 66

Macrophage and CD4+TH1 helper T cell interaction
Find antigen on present via MCH II
IL-12 secreted from macrophages -> CD4+ helper cells to TH1 subtype which secrete TNF-gamma to convert macrophages into epithelioid histocytes

Question 67

DiGeorge - failure of what pharyngeal pouches and what deletion?

Answer 67

3rd/4th pouch

22q11 microdeletion

Question 68

DiGeorge presents with what?

Answer 68

T cell deficiency d/t lack of thymus
Hypocalcemia d/t lack of parathyroids
Abnormalities of heart, great vessels, face

Question 69

SCID

What are the etiologies

Answer 69

defective cell mediated and humoral immunity

1. cytokine receptor defects
2. Adenosine deaminase deficiency*** (enzyme for deamination of adenosine and deoxyadenosine - build up is toxic to lymphocytes)
3. MHC class II deficiency

Question 70

What enzyme is can be deficient in SCID?

Answer 70

Adenoside deaminase

Question 71

SCID characteristics

Answer 71

Fungal, viral, bacteria, protozal infection

Opportunistic infection & live vaccines

Question 72

SCID tx

Answer 72

Sterile isolation and stem cell transplant - can generate normal B & T cells

Question 73

X linked agammaglobulinemia

Answer 73

Lack Ig in blood - x linked

Disordered B cell maturation so Niave B cell can’t mature into plasma cels

Question 74

What is Bruton tyrosine kinase mutation associated with

Answer 74

X linked agammaglobinemia

Signal for B cell to become plasma cell normally

Question 75

X linked agammaglobulinemia presentation

Answer 75

After 6 mo
Recurrent bacterial (can't opsonize), enterovirus (no IgA) and Giardia infections (no IgA) 

Live vaccines must be avoided

Question 76

Common Variable Immunodeficieny (CVID)

Answer 76

Low immunoglobin d/t B cell or helper T cell defect

Risk for bacterial, enterovirus, Giardia late in childhoood

Increase risk for AI dz and Lymphoma

Question 77

Common Variable Immunodeficieny (CVID) has increased risk for what 2 things

Answer 77

Autoimmune

Lymphoma

Question 78

IgA def

Answer 78

Mucosal infection risk
Most asymptomatic
Celiac dz association

Question 79

Hyper IgM syndrome

Answer 79

Too much IgM
Mutation in CD40L or CD40 receptor (B cells)

Can’t produce IL4/IL5
Low IgA, IgG, IgE
Recurrent pyogenic infections especially at mucosal sites

Question 80

Wiskott Aldrich Syndrome Triad

Answer 80

Thrombocytopenia
Eczema
Recurrent Infections

Question 81

what is the defect in wiskott aldrich syndrome and inheritance?

Answer 81

WASP gene and X linked

Question 82

Complement deficiency

Answer 82

C5-C9 - at risk for Neisseria infection

C1 inhibitor - edema of skin and mucosal surfaces (called hereditary edema) - especially periorbital

Question 83

What is the etiology of autoimmune?

Answer 83

Loss of self tolerance

Question 84

Central tolerance occurs where?

Answer 84

Thymus & Bone marrow

Stem cells from bone marrow to thymus to Double + cells (CD4 & CD8 & T cell receptor) then turn to Single + cells which progress to niave mature T cells

Undergo check points

Question 85

DP+ cell undergo + or - selection?

Answer 85

+ selection
Need to recognize MHC and antigen
If they can recognize MHC they turn to SP+ cells

If not undergo apoptosis

Question 86

SP+ cell undergo + or - selection?

Answer 86

• selection
  If recognize self antigen, they will undergo apoptosis

Remove self reactive lymphocytes

Question 87

Central tolerance in Thymus for t Cells

AIRE mutation results in?

Answer 87

AI polyendocrine syndrome - destroys endocrine glands

Can’t express some subset of self antigen so some self recognizing antigens escape and go into the periphery

1. hypoparathyroidism
2. Adrenal failure
3. candida infection (chronic)

Question 88

Where does negative and positive selection occur in thymus?

Answer 88

Negative in medulla

Positive in cortex

Question 89

Central tolerance for B cells occurs where?

Answer 89

Bone marrow

Stem cell in bone marrow changes to immature (Ig) then escapes bone marrow to naive mature b cell

Question 90

If B cell recognizes self antigen what happens?

Answer 90

Ig - undergo
1. B cell receptor editing (Rag genes will be re-expressed and edit the light chain so won’t bind self antigen)
OR
2. undergo apoptosis thru mito pathway

Question 91

Peripheral tolerance

Answer 91

If central tolerance failed - then peripheral tolerance - antigen recognized without co-stimulatory signal - then lymphocyte will undergo anergy (shut down) or undergo apoptosis

Question 92

CD4+ T cell has CD95 present known as what?

Answer 92

FAS- expressed when recognizes self-antigen & binds FAS Ligand inducing apoptosis

Question 93

ALPS

AI Lymphoproliferative Syndrome

Answer 93

mutation in FAS apoptosis pathway

Need FAS, FAS L & caspases (particularly 10)

Can’t undergo apoptotic pathway so self reactive lymphocytes can survive

AI: IgG production (self reactive) - cytopenia, anemia
LP - can’t get rid of self reactive lymphocytes - so lymph node enlargement, HSM (can get lymphoma)

Question 94

Regulatory T cells: CD4+ T cells

Answer 94

Block T cell activation

Needs second signal - CTLA4 can bind B7 decreasing second signal so cell undergoes anergy

Cytokines - IL-10 & TGF-beta - IL10 inhibits macrophages/dendritic cell limiting TCR, limit B7, TGF-beta inhibits macrophages

Question 95

CD4+ CD25+ FOXP3+

Regulatory T cells

Answer 95

CD25+ = IL-2R

FOXP3+ transcription factor

Question 96

CD25 polymorphisms are related to?

Answer 96

AI (MS & DM1)

Essential for regulatory T Cells

Question 97

FOXP3 mutations related to?

Answer 97

IPEX
Immune dysfunction Polyendocrinopathy Enteropathy

Thryoiditis, DM1 (islet of pancreas), Diarrhea, Skin
X linked

Question 98

What might be the effect of estrogen on B cells?

Answer 98

decrease apoptosis

Question 99

AI gene associations

Answer 99

HLA subtypes (code for MHC)
Strongest is HLA-B27 (anklyosising spondylitis) 

PTPN22 - tyrosine phosphatase - gain of function decreasing signaling for tolerance

Question 100

2 ethnicities in LUPUS

Answer 100

Af Am/Hispanics

Question 101

What complement deficiency is associated with lupus?

Answer 101

Early complement
C1a, C4, C2
*Most commonly C2

Question 102

what are the 11 criteria of Lupus?

* is a characteristic but not diagnostic

Answer 102

1. Malar “butterfly” rash
2. Discoid rash - circle, erythematous, scaling - scars
3. Rash upon exposure to sunlight
4. Oral/nasopharyngeal ulcers
5. Arthritis
6. Serositis
7. Psychosis/seizures
8. Renal damage (Most common/most damaging - Diffuse proliferative glomerulonephritis or membranous glomerulonephritis)
9. Antibodies to cells in blood: anemia, thrombocytopenia, leukopenia (Type II specifically even though Lupus is type III Hypersensitivity)
   * Libman-sacks endocarditis - small vegetations of both sides of mitral valve
10. Antinuclear antibodies
11. Anti-dsDNA or Anti-Sm antibodies/Antiphospholipid Ab

Question 103

what are the 3 antiphospholipid antibodies generally tested?

Answer 103

Anticardiolipin (False + VDRL & RPR - false positive for Syphillis)
Lupus anticoagulant (falsely elevates PTT test) 
Anti-Beta2-glycoprotein I

Question 104

APA syndrome

Answer 104

Anitphospholipid antibody + hypercoagulable state
DV, hepatic vein, placental, cerebral thrombosis
Requires lifelong anticoagulant

Question 105

Drug induced Lupus causing drus + antibody

Answer 105

Hydralazine, procainamide, isoniazid

ANA+

Question 106

Most common causes of death in Lupus

Answer 106

Renal failure and infection

1. from immunosuppressions
2. antibodies to WBC

Question 107

Late common cause of death in Lupus

Answer 107

Accelerated coronary atherosclerosis

Question 108

Sjrogren syndrome - destruction of what glands?

Answer 108

lacrimal - dry eyes
salivary glands - dry mouth/dental caries

Type IV hypersensitivity

Question 109

Antibodies in sjrogen syndrome

Answer 109

ANA
anti-ribonucleoprotein (anti-SSA/SSB) - related to extraglandular associations
SSA can cross placenta and develop neonatal lupus

Question 110

Neonatal lupus - develop what condition?

Answer 110

Heart block

Question 111

Additional diagnostic criteria for Sjrogen - what biopsy and what are you looking for?

Answer 111

Lymphocytic sialadenitis
(on lip biopsy of minor salivary glands)

Question 112

Increase risk of what cancer with Sjrogens

Answer 112

B cell lymphoma

Question 113

Systemic sclerosis - sclerodoma

Answer 113

Deposition of collagen by fibroblasts

Question 114

Limited scleroderma has limited skin involvement

What does CREST mean?

Answer 114

C:alcinosis/anti-Centromere bodies
R:aynaud
E:sophageal dysmotility
S:clerodactyly
T:elangiectasias of skin

Question 115

Diffuse type scleroderma

Answer 115

Early visceral involvement

Vessels
GI 
Lungs
Kidney
Heart
DNA topo 1 antibodies

Question 116

Wound healing beings when?

Answer 116

Initiated when inflammation beings

Regeneration or repair (scarring)

Question 117

What are the 3 types of regenerative capacity?

Answer 117

Labile - continuously regenerating = stem cells
(BONE: CD34 hematopoietic stem cell)
Stable - quiescent (Go - re-enter cell cycle)
Permanent - lack significant regenerative potential

Question 118

What are the permanant tissues in the body?

Answer 118

Myocardium
Skeletal muscle
Neurons

Question 119

Repair places damage with?

Answer 119

fibrous scar

Question 120

What is the initial phase of repair?

Answer 120

Granulation tissue…

Firborblasts (deposit collagen type III)
Capallaries
Myofibroblasts

Question 121

In a scar what collagen replaces the initial collage III deposition?

Answer 121

Collagen I removed by collegenase (requires Zn cofactor)

Question 122

Collagen I

Answer 122

Bone
B”one”
Strong tensile strenght

Question 123

Collagen II

Answer 123

Cartilage

Car”two”lage

Question 124

Collagen III

Answer 124

pliable

BV, granulation tissue, embryonic tissue

Question 125

Collagen IV

Answer 125

Basement membrane

Question 126

What type of signaling mediates regeneration and repair?

Answer 126

Paracrine signlaing by GR

Question 127

TFG-alpha

Answer 127

epithelial and fibroblast GF

Question 128

TGF-beta

Answer 128

fibroblast GF

Inhibits inflammation

Question 129

PDGF

Answer 129

endotheilum, SM, fibroblast GF

Question 130

FGF

Answer 130

angiogensis

Skeletal development

Question 131

VEGF

Answer 131

angiogenesis

Question 132

Secondary intention of wound healing

Answer 132

Granulation tissue fills in defect so scar will from

Cause contraction of wound - by myofibroblasts

Question 133

Most common cause of delayed wound healing

Answer 133

Infection

Less common:
Vit C, Copper, Zn def
Foreign body, ischemia, diabetes, malnutrition