L23 Types II-IV Hypersensitivities PDF

Summary

This document provides an overview of Types II-IV hypersensitivity reactions. It includes learning objectives, an introduction to the four types of hypersensitivity, and clinical examples, such as drug-induced hemolytic anemia and transfusion reactions.

Full Transcript

https://en.wikipedia.org/wiki/Mantoux_test

Types II-IV Hypersensitivities

Suggested Reading for L23:
Basic Immunology, Chapter 11

MICRG 1553 Immunology
Kathryn Leyva, Ph.D. https://nationaleczema.org/eczema/types-of-eczema/contact-dermatitis/
Learning Objectives
In Types II-IV hypersensitivity reactions, be able to describe/identify:
▫ The immune event(s) occurring in both the sensitization and effector phases
▫ The type of antigen eliciting the immune response (e.g., soluble, cell-bound, etc)
▫ The immune response(s) resulting in tissue damage

Understand the clinical examples (manifestations) discussed for Types II-IV hypersensitivity reactions
and be able to correlate the manifestations observed with the immune response
▫ Type II: Drug-induced hemolytic anemia, transfusion reactions, erythroblastosis fetalis
▫ Type III: Arthus reactions, serum sickness
 Understand why antigen or antibody excess is a predisposing factor to these reactions
▫ Type IV: Tubercule (granuloma) formation, contact dermatitis
Understand the principle of the specific laboratory tests discussed that are used in detecting Types II-IV
hypersensitivity reactions and be able to interpret results
▫ Coombs test
▫ TB tests: intradermal skin test, IFN- release assay
▫ Patch test
2
 Introduction: Hypersensitivities
Four types of hypersensitivity reactions:
▫ Type I
 Immediate
hypersensitivity (IgE)

▫ Type II
 Cytotoxic
hypersensitivity
(IgG or IgM)

▫ Type III
 Immune complex-
mediated cytotoxicity
(IgG or IgM)

▫ Type IV
 Delayed-type
hypersensitivity
(T cell-mediated)
https://microbenotes.com/hypersensitivity-introduction-causes-mechanism-and-types/
3
Type II (Cytotoxic) Hypersensitivity
Occurs through the production of IgM or IgG
that binds to specific allergens located on cells
▫ Intrinsic cell surface components (e.g., blood group antigens)
▫ Extrinsic compounds adsorbed to the cell surface (e.g., some
drugs)
▫ Some autoimmune diseases are classified as Type II
hypersensitivities (e.g., MG, pemphigus)

Two distinct phases:
▫ Sensitization phase: exposure to the antigen leads to IgM or
IgG production
▫ Effector phase: re-exposure to the antigen allows allergen-
specific IgM or IgG to bind, causing immune-mediated damage
or blocks normal function of the cell/tissue (see next slide for details)

4
Type II: Effector Phase
Mechanisms
Antibody-dependent cellular cytotoxicity
(ADCC)
▫ NK cells or macrophages killing antibody-
coated targeted cells
Complement-mediated lysis
▫ Activation of classical complement pathway to
form membrane attack complexes (MAC) to kill
target cells

Antibody interference
▫ Antibodies can interfere with normal cellular
functions when bound to a target cell
 Can be stimulatory or inhibitory
▫ This will be covered in more detail in the
autoimmunities lectures
5
Type II: Clinical Manifestations/Examples
1. Drug-induced hemolytic anemia
▫ Caused by an immunologic response against drugs (non-self antigens) that have adsorbed to
or modified normal RBC membranes
 Antibodies bind to antigens on RBCs or immune complexes bind to receptors on RBCs, resulting
in lysis

6
Type II: Clinical Manifestations/Examples
2. Transfusion reactions
▫ Reaction to foreign blood group antigens
▫ Mediated by antibodies that bind & lyse transfused RBCs
▫ Manifestations result from intravascular hemolysis of
transfused RBCs

Cross-matching tests
 Blood typing and cross-
matching tests are
performed to prevent
transfusion reactions

https://bio.libretexts.org/TextMaps/Map%3A_Microbiology_(OpenStax)/19%3A_Diseases_of_the_Immune_System/19.1%3A_Hypersensitivities

7
 Type II: Clinical Manifestations/Examples
3. Erythroblastosis fetalis (hemolytic disease of the newborn)
▫ Mediated by maternal anti-Rh factor (anti-D) antibodies that bind and lyse neonatal RBCs
Summary of disease development/symptoms, testing,
Pictorial and effect of RhoGam:
diagram of
how HDNB
can develop
in a second
pregnancy
with RhD-
(Rh negative)
mothers:

Owen et al. (2013) Kuby
Immunology; Fig 15-11

https://medicalstudystuff.com/erythroblastosis-fetlis/#.WsosvojwaUk 8
Type II: Diagnostic Testing
Several immunoassays Coombs’ tests (anti-
are available to detect and globulin tests) to
quantify antibodies in a detect antibodies to
patient serum (recall L20-21) RBCs (recall L20-21)
▫ E.g., ELISAs ▫ Agglutination
assays
 Direct: tests for
RBCs that have
bound antibodies
 Indirect: tests for
serum antibodies
that can bind
RBCs

9
Type III (Immune Complex) Hypersensitivity
Reactions are caused by small immune complexes formed by
soluble antigens (allergens) binding to IgG or IgM
▫ Large complexes are typically cleared by phagocytes, whereas
small aggregates, caused by antigen or antibody excess, are
not as easily cleared
▫ Soluble antigens include
some drugs, molds, venoms
& anti-venoms, and even
nuclear (self) antigens
▫ Some autoimmune diseases
are classified as Type III
hypersensitivities (e.g., SLE, RA)
Two phases: sensitization and effector phases
▫ A separate and distinct sensitization phase, separated by
time/antigen exposure is not always necessary; these two
phases often occur in a continuum, even after a first exposure
10
Type III: Sensitization and Effector Phases
Sensitization phase
▫ Initial exposure to allergen, resulting in immune complex
(antigen-antibody complex) formation that deposit into tissues

Effector phase
▫ Immune complex activation of complement & recruitment of
inflammatory cells to the site of deposition; inflammation
results in increased permeability
▫ Immune complexes accumulate in tissues and damage results:
 Continual activation of complement
 Neutrophil release of tissue-damaging enzymes and reactive
oxygen intermediates
▫ Platelet aggregation and possible development of thrombi,
hemorrhage, edema, and necrosis in the tissues

11
Type III: Clinical Manifestations/Examples
1. Arthus reactions = localized vasculitis
▫ Sensitization to antigen results in high level of antibody
production, leading to antibody excess
▫ Upon repeated exposure to antigen at the same site, IgG
antibodies form small immune complexes that deposit in the
vasculature at the exposure site
 Examples: hypersensitivity pneumonitis (Farmer’s lung),
repeated injections
Arthus reaction resulting from Arthus reaction resulting
a repeated lidocaine injection from DTaP vaccine booster

Koo and Dym (2000) Columbia Dental Review, 5: 30-32 https://www2.cdc.gov/nip/isd/YCTS/mod1/
courses/tdap/11055.asp 12
Type III: Clinical Manifestations/Examples
1. Arthus reactions = localized
vasculitis
▫ Summary of the pathogenesis
of the localized reaction

13
 https://oncohemakey.com/kidney-diseases/

Type III: Clinical Manifestations/Examples
2. Systemic vasculitis (Serum sickness)
▫ Can occur in response to a large dose of foreign serum or
in response to some infections resulting in antigen excess
 Antitoxins, antivenins, drugs, infections, etc

Clinical Application:
CroFab and ANAVIP are two snake antivenins approved to treat
rattlesnake envenomation. Antivenin is one example of passive
immunization = administration of preformed antibodies or
antibody fragments to provide immediate, transient protection.

https://med.virginia.edu/toxicology/wp-content/uploads/sites/268/2020/11/Nov20-Crofab-Anavip.pdf
14
http://vet.uga.edu/ivcvm/courses/VPAT5200/03_inflammation/07_imi/imi04.html
Type III: Clinical Manifestations/ Examples
2. Systemic vasculitis (Serum sickness)
▫ Upon exposure to a large amount of antigen, IgG
antibodies form small immune complexes that
deposit in vessel walls
 Immune complex deposition
▫ Systemic immune complex deposition, resulting in tissue
damage. Common manifestations:
 Vasculitis
 Arthritis
 Glomerulonephritis

https://www.thelancet.com/
journals/lancet/article/PIIS
0140-6736(11)60314-
0/fulltext

15
Type III: Diagnostic Testing & Treatments
Immunoassays are available to detect and quantify antibodies in patient serum (recall L16-17)
▫ E.g., ELISAs, immunofluorescent assays (shown)

“Post-infectious glomerulonephritis is immunologically mediated,
and the immune deposits are widely distributed within the capillary
loops. The deposits are seen here with bright green fluorescence
in a granular, bumpy pattern because of the focal nature of the
immune complex deposition process. In type III hypersensitivity,
antigen-antibody complexes tend to filter out and become
trapped along basement membranes, such as those in
glomerular capillaries.”

https://library.med.utah.edu/WebPath/RENAHTML/RENAL086.html

Treatments will vary depending on the response and clinical manifestations, but often include:
▫ Corticosteroids
▫ Antibiotics (if infectious cause)
▫ Supportive care: IV fluids, NSAIDs, etc

16
Type IV (Delayed-Type) Hypersensitivity
Mediated by TH1 cells (also known as TDTH cells),
macrophages, and sometimes CTLs
▫ Allergen is commonly a microbial component, or a chemical,
metal, or drug that complexes with proteins in the skin =
hapten-carrier complex
▫ Initial exposure is often through direct contact with the allergen
▫ The reaction takes 24-72 hours to develop

Two distinct phases:
▫ Sensitization phase: first exposure to the allergen leads to a
primary immune response and development of memory T cells
▫ Effector phase: re-exposure to the allergen leads to activation
of memory TH1 cells

17
Type IV: Sensitization Phase
Initial exposure to allergen is commonly by
contact; processing and presentation of
hapten-carrier complex by APCs
Common allergens include metals,
plastic/rubber, chemicals, soaps, herbicides,
some infectious organisms…
Activation and differentiation of helper T
cells into TH1 cells and resulting in
development of memory (sensitized)
TH1 cells
▫ Can also involve activation of CD8 T cells

18
Type IV: Effector Phase
APC activation of memory (or sensitized) TH1 cells
upon subsequent exposure to antigen
 Release of TH1 cytokines and chemokines to recruit and
activate macrophages and neutrophils, resulting in
inflammation
 Focus on IFN- and IL-8 (CXCL8)

 Recall: TH1 cells
can also help
activate CD8+
T cells

19
Type IV: Effector Phase
 Recruitment/activation of macrophages and
neutrophils results in tissue destruction due to
release of lytic enzymes and ROIs
 Effector CTLs can kill host cells

 Prolonged reactions can lead to granuloma
formation
 Can occur in some
persistent bacterial
infections (e.g., Valley
Fever & TB)
 Various other causes;
chronic inflammatory
component

https://commons.wikimedia.org/wiki/File: Pulmonary_tuberculosis_-
_Non-necrotizing_granuloma_(6545183785).jpg

20
 Al Ubaidi (2018) The radiological diagnosis of pulmonary tuberculosis (TB) in
primary care. J Fam Med Dis Prev DOI: 10.23937/2469-5793/1510073

Type IV: Clinical Manifestations/Examples
Chest x-ray
1. Tubercule formation showing
dense
▫ Infection with some organisms, such as M. tuberculosis (TB) can homogenous
result in the formation of tubercules within the tissues opacity in
 Tubercules = granulomas formed due to infection with TB right, middle
and lower
 Enhanced Th1 + macrophage responses to contain and prevent lobe of
dissemination of the organism primary
pulmonary TB

Histologic section of
lung from a patient
with tuberculosis.
Arrow pointing to a
multinucleated giant
cell at the center of
one granuloma

https://www.lecturio.com/concepts/type-iv-hypersensitivity-reaction/
http://hit-micrscopewb.hc.msu.edu
21
Type IV: Diagnostic Testing for TB
In vivo testing: Intradermal tuberculin reaction (Mantoux test, PPD test)
▫ Clinically-induced skin reaction caused by intradermal
injection of tuberculin (PPD) proteins This figure is FYI
 Look for area of induration within 72 hrs
 Used to determine exposure to/infection with TB

http://www.guideokey.site/what-does-positive-tb-skin-test-means/
http://studymedicalphotos.blogspot.com/2016/09/interpretation-of-ppd-skin-testing.html

22
Type IV: Diagnostic Testing for TB
In vitro testing: IFN- release assay (IGRA)
▫ Eg, QuantiFERON-TB Gold In-Tube (QFT assay)
▫ This assay is designed to measure IFN- released
by T cells in response to tuberculin or purified
mycobacterial antigens

IFN-

23
Type IV: Clinical Manifestations/Examples
2. Contact dermatitis
▫ Sensitizing allergen (e.g., metals, chemicals, topical drugs, plant saps, soaps/fragrances, etc) is a
hapten that complexes with proteins in the skin or mucosa
▫ Characterized by an eczematous, blistering reaction at the site of contact with the allergen after
48-72 hrs Henna
Shoes
(unknown
etiology)

Poison ivy
https://www.dermnetnz.org
/topics/shoe-contact-
dermatitis

http://www.nejm.org/

http://www.allergykc.com/ListGallery.
asp?ImageCategory_Code=1005
24
Type IV: Diagnostic Testing & Treatments
In vivo test: Patch test
▫ An assay to determine the cause of a Type IV hypersensitivity (e.g.,
contact dermatitis)
 A small square of material (cotton, linen, paper) impregnated with the
suspected allergen is applied to the skin for 24-48 hours
▫ The development of redness, edema, and formation of vesicles
constitutes a positive test https://en.wikipedia.org/wiki/Patch_test
+++ reaction ++ reaction + reaction +/- reaction

 You will not be tested
on how to score
these reactions.

Treatments vary but typically include:
▫ Avoidance/removal of the allergen
▫ Oral antihistamines and hydrocortisone to reduce itching & inflammation
▫ Antibiotics to treat any secondary bacterial infections
25
Summary Figure

This figure shows all four
hypersensitivity reactions.
We focused only on Types
II-IV for this lecture.

Note: I will expect you to
be able to compare/
contrast all four
hypersensitivities for the
exam so refer to L22 for
details on Type I
hypersensitivities.

Erythroblastosis fetalis =
hemolytic disease of the newborn

26
 Summary Figure

This figure shows all
four hypersensitivity
reactions. We focused
only on Types II-IV for
this lecture.

Note: I will expect you
to be able to compare/
contrast all four
hypersensitivities for
the exam so refer to
L22 for details on Type
I hypersensitivities.

27