Immunology BIOT 203 Fall 2023 Past Paper PDF

Summary

This document provides notes and updates on an Immunology course, including details about graded assignments like a group presentation, lecture schedules, case study dates and final exam formats. It also covers topics in tumor immunology, including tumor antigens, tumor evasion from the immune system.

Full Transcript

Important Updates
1.

Group Presentation – 20% of final grade
o

Must be enrolled in a group today for Final Presentation Assignment Today. If you do not you
will NOT be able to submit

2.

Next week is last lecture!!

3.

Case Study on November 29th – 15% of final grade

o

4.

stay tuned for more details to come.

Final Exam – 20% of final grade
o
o
o
o
o

In class – Dec 6, 2023
Cheat sheet allowed and format same as with midterm
Cumulative (All units) – 2/3 of questions from Modules 7-10
You will have 1h 40m
50 questions (MC, Matching, T/F)

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Tumor & Carcinogenic
Immunity
IMMU N OL OGY | B IOT 203
FA L L 2 0 2 3 | W E E K 1 0
D R . JON AT H A N ME MME

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Tumor & Carcinogenic Immunity
TOPICS

LEARNING OBJECTIVES

Tumor Antigens

Describe tumor-induced protective immune
response

Immune Response to Tumors
Tumor Evasion from Immune System
Immunotherapy for Tumors
Tumor Growth Promotion

Classify and describe tumor antigens
Explain methods by which tumors evade
immune response
Explain the role of immunotherapy for
tumors
Discuss the role of innate and adaptive
immunity in tumor growth promotion

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Tumor Immunity
Tumor

Oncogenic
Carcinogenic

Oncogenes

Oncology

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• Abnormal growth of cells with no purpose or function
• Benign tumor: does not invade surrounding tissues or spread to other areas of the
body
• Malignant tumor: does invade or spread; Cancer
• Causes tumor development
• Causes cancer development
• Genes that have the potential to become dominant oncogenic determinants in
tumorigenesis
• Mutated and/or expressed at high levels in tumor cells
• Medical field focused on the prevention, diagnoses, and treatment of tumors and cancer
• Practicing doctor: Oncologist

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Tumor Immunity

A
Resect tumor
surgically cured

Experimental demonstration: Tumors can induce
protective immune response
Tumors express antigens, but are weakly
immunogenic
◦ Derived from host cells and promote immune response
◦ T-cell mediated defense

B
A

Immune response often fails to prevent the growth
of tumors

B

◦ Derived from host cell (self)
◦ Rapid growth exceeds immune system capacity
◦ Tumors are specialized to evade immune response

Immune system can be stimulated to kill tumors
◦ Tumor immunotherapy

A

No tumor growth
rejected

B

B

Tumor growth

Tumor eradicated
rejected

accepted

Image credit: Abbas, Lichtman, & Pillai, 2007, p. 398

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Tumor Immunity
Red arrow:
malignant cells
Yellow arrow:
Lymphocyte-rich
inflammatory infiltrate
(T-c cells and
macrophages)

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Tumour Immunology and
Immunotherapy

https://youtu.be/K09xzIQ8zsg?si=7dFAIhlX7LStVKHz

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Recall:

Tumor Antigens
Mutated Genes (neoantigens)

Tumor-restricted antigens
◦ Expressed on tumor cells BUT NOT normal
cells
◦ Unique to individual tumors
◦ Shared among tumors of the same type

Oncogenic Virus Antigens
Abnormally Expressed Proteins
Oncofetal Antigens
Modified Glycolipid & Glycoprotein Antigens

Tumor-associated antigens
◦ Expressed on tumor cells AND normal cells
◦ Normal cell components with dysregulated
expression

Tissue-Specific Differentiation Antigens
*Potential application as therapeutic TARGETS!*

Image credit: Abbas, Lichtman, & Pillai, 2007, p. 402
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https://www.youtube.com/watch?v=AN8FMwDg0jM

RAS
BRAF
MEK
ERK

Mutated Genes
Oncogenic mutation of normal genes

Randomly mutated genes

Gene expression that promotes malignant
transformation

Tumors induced by the same carcinogen
(Chemical carcinogen, radiation) can
express different antigens

◦ Causes: Point mutation, deletions,
chromosomal translocations, viral gene
insertion

Ras mutations

◦ Ras proteins can be switched on by incoming
signals, which turn on other proteins that
activate genes involved in cell growth, survival
and differentiation
◦ Mutations in Ras genes can permanently
activate Ras proteins

Protein
synthesis

◦ An induced sarcoma promotes protective
immunity against itself, but NOT against
another induced sarcoma
◦ Diverse antigens arise because tumors
randomly mutate the host genes

Antigen presentation
Oncogenic/mutated self-proteins are synthesized and are presented via MHC class I
Image credit: Abbas, Lichtman, & Pillai, 2007, p. 402

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Oncogenic Virus Antigens
Oncogenic virus functions as tumor
antigen, promoting T cell response
Viral microbe integrates genomic
sequence into host DNA or RNA

Adaptive immunity prevents the growth of
DNA virus-induced tumors

The most immunogenic tumors
◦ Viral peptide antigens replicate!!
◦ Antigen processed and displayed via MHC
Class I

DNA virus-induced tumors

◦ Higher frequency of EBV lymphomas and HPV
cervical cancer reported for immunosuppressed
individuals
◦ Protective VIRAL immunity may be achieved
via immunization … reducing the risk of
developing the related cancer
◦ HPV vaccine

◦ Epstein-Barr virus → lymphomas
◦ Human papillomavirus → cervical cancer
Image credit: Abbas, Lichtman, & Pillai, 2007, p.
402
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Abnormally Expressed Proteins
Normal cellular proteins with abnormal
expression in tumor cells that promote
immune response

Explanation

Tyrosinase

Vaccine potential

◦ Enzyme involved in melanin biosynthesis
◦ Tc and Th cells from melanoma patients
recognize peptides derived from tyrosinase
◦ Recognize normal self antigen!

◦ Enzyme is produced in small quantities and
in a small number of cells
◦ Not recognized by immune system
◦ Tyrosine-restricted T cell response in
melanoma patients
◦ Vaccine has potential to stimulate response
to melanomas

Image credit: Abbas, Lichtman, & Pillai, 2007, p.
402
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Oncofetal Antigens
Proteins normally expressed in
developing fetal tissue, but not
expressed in adult tissue and
Overexpressed in cancer cells
◦ Oncofetal antibody is the product of

Carcinoembryonic antigen (CEA)
◦ Highly glycosylated membrane protein,
member of Ig superfamily
◦ Normal fetus: first two month of development
concentrated in gut, pancreas, liver
◦ Normal adult: low expression in colonic mucosa and
lactating breast

Oncofetal genes

◦ Carcinoma of liver, pancreas, stomach,
breast

Antigens also related to various
inflammatory conditions

α-fetoprotein (AFP)

Diagnosis: Serum concentrations of
oncofetal antigens
◦ Indicators of advancement
◦ Persistence or recurrence after treatment
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◦ Circulating glycoprotein synthesis and
secreted during fetal development
◦ Hepatocellular carcinoma, germ cell
tumor, gastric, pancreatic cancer

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Modified Glycolipid & Glycoprotein
Antigens
Elevated levels or abnormal expression
of surface glycolipid and glycoproteins

Melanoma
◦ Overexpressed glycolipids (GM2, GD2, GD3)
◦ Antibody and immunization clinical trials

◦ Cell surface properties are altered

Breast Ductal carcinomas
HYPERglycosylated

HYPOglycosylated

◦ MCU-1: membrane bound protein normally
expressed in breast ductal tissues
◦ Hyperglycosylated MCU-1
◦ Ductal carcinomas, MCU-1 contains tumorrestricted carbohydrate and peptide epitopes
◦ T cell and antibody response

Adapted from: https://www.researchgate.net/profile/Marc_Gregoire/publication/236062195/figure/fig1/AS:319913689403392@1453284775543/Structure-of-the-MUC1-glycoprotein-in-normal-and-tumor-cells.png

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MCU: Mitochondrial
Calcium Uniporter
Allows passage of Ca2+
into mitochondria
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Tissue-Specific Differentiation Antigens
Antigen found on the surface of the cell, specific to cell tissue. TSDA become abnormal on
surface of tumor.
Differentiation antigens

◦ Surface antigens that are normally expressed on the cells from which the tumor has originated
◦ Glycolipid and glycoprotein which may have abnormal structure, caused by tumor growth

TSDA can be used as Tumor Markers: Biomarkers which become elevated in the presence
of tumors.
Immunoassay used to determine the presence of Tumor by measuring level of tumor
markers.
Immunotherapy used to treat tumor.

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Immune Response to Tumors
Innate and adaptive immunity are shown to effectively kill tumor cells in vitro
Mechanisms that contribute to protective immunity in vivo
Enhance effector mechanisms to be tumor specific
However, effector mechanisms to PROTECT from tumors is NOT well defined
Explore evidence for various immunity effector mechanisms that may be
applicable to human tumors
Innate and adaptive immune system

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Innate Immune Response | NK Cells
NK cells respond to the absence of MHC I
molecules
◦ Tumor cells may lose MHC I expression

NK cell target IgG coated cells
◦ NK Fc receptor interacts with antibody bound
to tumor antigen
◦ Cytokines released
◦ Apoptosis of tumor cell

Enhanced NK Cell activity by cytokines
◦ IL-2 activated NK cells = Lymphokine activated
killer
◦ Applications in immunotherapy
By Simon Caulton - Own work, CC BY-SA 3.0,
https://commons.wikimedia.org/w/index.php?curid=29704984
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TNF signals through two transmembrane receptors
(TNFR1 and TNFR2) and regulates several critical
cell functions in a healthy system.

Innate Immune Response | Macrophage
Tumor necrosis factor | TNF
Activated macrophages show ability to kill
tumor cells with greater efficiency, compared
to when killing normal cells.

◦ Cytokine released by macrophages that
induces apoptosis in tumor cells
◦ Tumor cells have a receptor for TNF

It is unknown exactly how tumor cells
activate macrophages
◦ Direct recognition OR activation by interferon
gama (INF-γ)
◦ In vitro studies of INF-γ shown to inhibit tumor
growth and proliferation

Killing mechanism
◦ Enzymes, reactive oxygen species, nitric acid

By Fred the OysteriThe source code of this SVG is valid.This vector graphics image was created with Adobe Illustrator., GFDL,
https://commons.wikimedia.org/w/index.php?curid=36260143
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Video: https://www.youtube.com/watch?v=OPEdEU9FImg

Adaptive Immune Response | Tc Cells
Tc provide effective anti-tumor immunity in vivo
◦ Recognize and kill cells that express peptides from mutant cellular proteins, oncogenic viral
proteins

Tc response for tumor antigens may require cross-presentation of antigen by APCs
◦ Co-receptor and MHC I

Image credit: Abbas, Lichtman, & Pillai, 2007, p.
408
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Adaptive Immune Response | Th Cells
Role of Th is less understood
Release cytokines (TNF and IFN-γ)
◦ Enhance Tc development and specificity
◦ Promote MHC class I expression on tumor
cells, making them more attractive to Tc
◦ Activate macrophages
◦ Cytokine profile
◦ Chemokines, Interferons, Interleukins,
Lymphokines, Tumor Necrosis Factor

Image credit: Abbas, Lichtman, & Pillai, 2007, p.
408
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Adaptive Immune Response | Antibodies
Antibodies may be produced against tumor
antigens
◦ Epstein-Barr virus (EBV)-antigens on
lymphoma cells
◦ There is no effective vaccine available yet to
treat this virus

Antibody-dependent cell-mediated
cytotoxicity

Little evidence for effective humoral
immunity

Antibody response, B cells are activated to
secrete immunoglobulins

Potential for prevention

◦ Fc receptor macrophage or NK cell

◦ Circulate in the bloodstream, binding to the
foreign antigen/virus

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◦ Vaccination against oncogenic viruses
◦ EBV vaccine trials have been conducted for
Phase I virus using a modified version of
modified vaccinia Ankara vaccine

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Evasion of Immune Response of Tumors
Anti-tumor immunity

Tumor immune evasion

• Tumor antigens promote T-cell response
and antibody production

• Tumor antigens are not expressed
• Mutation or downregulate expression of
MHC molecules
• Immunosuppressive substances are
produced
• Induce tolerance to tumor antigens

• tumor cells can be killed by Tc, NK,
macrophage

Understand how tumor cells EVADE immune destruction à
design interventions to increase immunogenicity of tumors
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VIDEO: Cancer: Evading the Immune System
https://www.youtube.com/watch?v=ovaUf53LPMA

Evasion
Specific immunological tolerance is induced by tumor
antigens
◦ Tumor antigens may be self-antigens

T cell response is supressed by regulatory T cells
Expression of tumor antigens is downregulated or lost
Tumor cells not expressing MHC class I do not induce Tc
cells
Tumor cells produce products that suppress anti-tumor
response, inhibiting T cell activation
Image credit: Abbas, Lichtman, & Pillai, 2007, p. 408

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Tumor Growth Promotion
Chronic inflammation and infection
◦ Risk factor for cancer development
◦ Cancer is an indirect result of carcinogenic effects
of chronic inflammatory states

Gastric cancer related to chronic H. pylori
infection
Liver cancer (HCC) related to Heb B and Hep
C viral infections

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Inflammation
• Tissue damage
or infection
• Cells divide,
grow,
repair/rebuild
tissue
• Inflammation
ends à healthy
tissue

Chronic
inflammation
• Inflammation
does not end
• Reoccurring
infections,
autoimmune
response,
obesity
• DNA damage à
cancer

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Tumor Growth Promotion | Adaptive Immunity
Promote chronic activation of innate
cells
◦ T-cell mediated activation of
macrophage (persistent intercellular
microbial infection)

Enhance tumor-promoting actions of
innate immunity
Activation of Treg cells by tumors can
suppress anti-tumor immunity of Tc
and Th cells.

Jen, J., Lin, L.-L., Chen, H.-T., Liao, S.-Y., Lo, F.-Y., Tang, Y.-A., … Wang, Y.-C. (2015). Oncoprotein ZNF322A transcriptionally deregulates alpha-adducin, cyclin D1 and p53 to promote tumor growth and metastasis in lung cancer. Oncogene, 35(18), 235

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Tumor Growth Promotion | Innate Immunity
Chronic activation of macrophages
◦ Most direct tumor-promoting culprits of all
immune cells
◦ Characterized by the formation of new blood
vessels and tissue remodelling

Malignant transformation of cells
◦ Generation of DNA-damaging free radicles
◦ Mutations in tumor-supressing genes

Recall that electrons like to be paired
Free radicals: atoms with unpaired electrons
◦ Electron is ‘stolen’ when interacting with oxygen
◦ Initiate CHAIN REACTION

Antioxidants: donate electron to free radicles

Chemical massagers released by mast
cell, neutrophils, macrophages
◦ Encourage cell cycle progression
◦ Promote survival of tumor cells
https://www.h2miraclewater.com/wp-content/uploads/2015/03/free-radical.png
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Tumor Growth Promotion | Innate Immunity
Chronic activation of macrophages
◦ Most direct tumor-promoting culprits of all
immune cells
◦ Characterized by the formation of new blood
vessels and tissue remodelling

Malignant transformation of cells
◦ Generation of DNA-damaging free radicles
◦ Mutations in tumor-supressing genes

Recall that electrons like to be paired
Free radicals: atoms with unpaired electrons
◦ Electron is ‘stolen’ when interacting with oxygen
◦ Initiate CHAIN REACTION

Antioxidants: donate electron to free radicles

Chemical massagers released by mast
cell, neutrophils, macrophages
◦ Encourage cell cycle progression
◦ Promote survival of tumor cells
https://www.h2miraclewater.com/wp-content/uploads/2015/03/free-radical.png
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Tumor Growth Promotion | A Paradox
Protective
anti-tumor
adaptive immune
response

Paradox
Challenge
Opportunity
Intervention
Beneficial balance

Control chronic
inflammatory
conditions

Anti-tumor adaptive immune response is not compromised
Control of chromic inflammatory conditions
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Goal: Promote active immune response against tumor cells
https://www.youtube.com/watch?v=K09xzIQ8zsg

Immunotherapy for Tumors
Tumor-specific immune effector

•Highly specialized and individualized

Active enhancement of immune
response

•Vaccination with tumor cells and/or antigens
•Administer tumors modified to express elevated levels of costimulators, stimulating T cell response
•Systemic administration of cytokines

Immune Checkpoint blockade
therapy
Adoptive T-cell immunotherapy
(CAR T-cell therapy)
Passive immunotherapy

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•Block inhibition pathways
•Block CTLA-4, PD-1

•Patient’s immune cells are removed and modified, re-injected
•Intensifies natural immune response

•Anti-tumor antibodies
•Antibodies-drug conjugate (immunotoxins)
•Tumor-reactive T cells and NK cells that have been isolated and proliferated in vitro

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Tumor Vaccines
Tumor-antigen pulsed dendritic cells

◦ Dendritic cell incubated with tumorantigen peptide
◦ APC expressing MHC/antigen is target for
Tc cells
◦ Tumor-specific Tc cells are activated

DNA or transfected dendritic cell
◦ Transfect: introduced ‘naked’ nucleic acid
into cells
◦ Direct or indirect
◦ APC expressing MHC/antigen is target for
Tc cells
◦ Tumor-specific Tc cells are activated
Image credit: Abbas, Lichtman, & Pillai, 2007, p. 411

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Exercise and Cancer Prevention
- decreased incidence of metabolic
syndrome (second to smoking in cancer
risk)
- reduced basal insulin levels, improved
glucose handling and digestion
- increased metabolic maintenance in the
body (mitochondrial content, especially
muscle)
- improved regulation of growth factors that
can be tumorigenic
- Reduced systemic inflammation and
improved immune function è

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Progress
Tracking
Assessment
#9
Available on Blackboard in Unit
Learning Materials
◦ You are in encouraged to
collaborate with your peers but
must submit your own
individual product.
◦ Submit via Blackboard using
the assignment submission link
before the end of the day

By Simon Caulton - Own work, CC BY-SA 3.0,
https://commons.wikimedia.org/w/index.php?curid=29704984

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