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CANCER: A GENETIC DISEASE
Mutations in genes that control cell growth and
division are responsible for cancer.
(cell proliferation and differentiation)
Carcinogens  DNA mutations
CANCER

Cancers arise when critical genes are mutated,
causing unregulated proliferation of cells.

These rapidly dividing cells pile up on top of each
other to form a tumor.

When cells detach from the tumor and invade
surrounding tissues, the tumor is malignant and
may form secondary tumors at other locations in a
process called metastasis.

A tumor whose cells do not invade surrounding
tissues is benign.
Tumor – is a condition where there is abnormal cellular growth
thus
forming a lesion or in most cases, a lump in some part of your
body.
Benign tumor – grows in confined area
Malignant tumor – capable of invading surrounding tissues
Cancer – degenerative disease with a cellular condition where
there is uncontrolled growing mass of cells capable of invading
neighboring tissues and spreading via body fluids to other parts of
the body.
Named for site of origin
Carcinomas – epithelial cells; cover external & internal body
surfaces (90%)
Sarcomas – supporting tissue; bone, cartilage, fat, connective
tissue, pancreas, Liver.
Lymphoma & leukemias – blood & lymphatic tissue
(leukemia reserved for cancers that reside in bloodstream
not as solid tissue)
COMPARISON OF NORMAL AND TUMOR
GROWTH IN THE EPITHELIUM OF THE SKIN
COMPARISON OF NORMAL AND TUMOR
GROWTH IN THE EPITHELIUM OF THE SKIN
Location/distribution
NORMAL CELLS VS. CANCER CELLS
Normal cell proliferation
Cancer cell proliferation
Anchorage dependent
Anchorage independent
Density-dependent inhibition
Can grow on top of one
another
Immortal
Limited number of cell
divisions
Telomere shortening
Proliferation dependent upon
extracellular signals
Checkpoints activated at
appropriate times
Apoptosis functional
Telomere maintenance
Constant signal to divide
independent
Loss of checkpoint
Apoptosis inhibited
BASIC PROPERTIES OF A CANCER CELL
In
culture, normal cells can be
transformed by chemicals or viruses.
Different types of cancer cells share a
number of similarities:
Aberrant
chromosome
numbers
(aneuploidy)
High metabolic requirements
Unregulated growth
Synthesis of unusual cell surface proteins
Stages in the Process of Invasion and
Metastasis
Basal lamina
Invasion
Metastasis
Matrix
CELL CYCLE CHECKPOINTS

Transitions between different phases of the cell
cycle (G1, S, G2, and M) are regulated at
checkpoints.

A checkpoint is a mechanism that halts
progression through the cycle until a critical
process is completed.
CANCER AND GENES

Oncogenes are genes that, when mutated,
actively promote cell proliferation.

Tumor suppressor genes are genes that, when
mutated, fail to repress cell division.
SEVERAL MUTATED OR ALTERED GENES IN CANCER
Cancer cells contain several (6-8) mutated genes.
Several categories of genes
1. Oncogenes
-An oncogene is a gene that when mutated or altered contributes to
converting a normal cell into a cancer cell.
- The term oncogene is derived from the Greek word "oncos," meaning
tumor.
- The cellular oncogenes in their normal form are called protooncogenes and do not cause cancer. They code for a variety of normal
enzymes, growth factors and receptors that relay signals to a cell's
nucleus, stimulating growth.
- The activation to oncogene may result in overproduction of growth
factors; flooding of the cell with replication signals; and/or
unrestrained cell growth.
- The activation of a proto-oncogene to oncogene can occur in several
ways:
-mistakes during DNA replication, ie. point mutation,
chromosomal rearrangement, gene amplification
-from damage to DNA cause by exposure to chemicals or radiation
-from viral infection and insertion into the DNA resulting in more
active production of oncogene
- from other causes not yet known
To other points about oncogenes:
- Oncogenes act as dominants; if the cell has one normal gene at a
locus and one mutated gene, the abnormal product takes control.
- No single oncogene can, by itself, cause cancer. It can increase the
rate of mitosis of the cell. Dividing cells are at increased risk of
acquiring mutations.
- Oncogenes may be transmitted from generation to generation when
a proto-oncogene mutates in the germ line. This results in a
dominantly inherited tumor predisposition. For example, multiple
endocrine neoplasia type 11 (MEN 2) is the outcome of a germline
transmission of an activated RET oncogene.
2. Tumor Suppressor genes
- Suppress tumor formation.
- Their protein products act to inhibit cell growth and the
division cycle.
-
Mutations in tumor suppressor genes cause the cell to
ignore one or more of the components of the network of
inhibitory signals, resulting in a higher rate of
uncontrolled cell proliferation.
-
Tumor suppressors behave as recessives. Both normal
alleles must mutate before cancerous growth begins.
Examples of Tumor Suppressor genes
1.
p53
-53 kD protein that prevents a cell from completing the cell cycle if its
DNA is not properly replicated in S phase. It responds to cell damage.
- It binds to transcription factor (E2F) and prevents E21F from binding
to the promoters of the proto-oncogenes c-myc and c-fos, needed for
mitosis
- The p53 protein may triggers programmed cell death (apoptosis) if
the damage to the cell is too great to be repaired.
- Defects in the p53 gene are found in most cancers.
VIRUSES ASSOCIATED WITH HUMAN CANCERS
Family
Virus
Cancer
Human papillomaviruses
Genital tumors
Squamous cell carcinomas
Oropharyngeal carcinomas
Herpesviridae
Epstein-Barr virus
Nasopharyngeal carcinoma
African Burkitt’s lymphoma
B cell lymphoma
Hepadnaviridae
Hepatitis B virus
Hepatocellular carcinoma
Retroviridae
Human T lymphotrophic viruses
Human immunodeficiency viruses
Adult T cell leukemias
AIDS-associated tumors (due to
impaired T cell responses
Flaviviridae
Hepatitis C virus
Hepatocellular carcinoma
Papillomaviridae
GENERAL FEATURES OF VIRAL CARCINOGENESIS



Most are DNA viruses (exceptions: some retroviruses and
flaviviruses)
Influence the cell cycle by
 Encoding proteins that direct cell cycle progression
 Integrating near cellular genes that control cell cycle
progression
The Central Principle of Viral Carcinogenesis

Viruses can cause cancers in humans and animals

Tumor viruses frequently establish persistent infections

Host susceptibility factors are important determinants

Viruses are seldom carcinogenic on their own

Virus infections are far more common than viral cancers

Prolonged periods (years) are usually required for viral carcinogenesis

Viral strains may be different in their capacity to cause cancers

Cancer viruses modulate cell cycle progression

Animal models can reveal mechanisms of viral carcinogenesis
TUMOR-INDUCING RETROVIRUSES AND VIRAL
ONCOGENES


Retroviruses have an RNA genome.
The Rous sarcoma virus, the first tumor-inducing virus,
contains four genes




gag encodes the capsid protein of the virus
pol encodes the reverse transcriptase
env encodes a viral envelope protein
v-src encodes a protein kinase that inserts into the plasma
membranes of infected cells. The v-src gene is an oncogene
that is responsible for the virus’s ability to induce abnormal
cell growth.
© John Wiley & Sons, Inc.
PROTEINS ENCODED BY VIRAL ONCOGENES
Growth factors similar to those encoded
by cellular genes
 Proteins similar to growth-factor and
hormone receptors
 Transcription factors homologous to
cellular proteins
 Any protein

INTERACTIONS OF TUMOR VIRUSES WITH THEIR
HOSTS



Persistent infections
 All known human tumor viruses establish persistent
infections
 Genetic differences in individuals results in differential
susceptibilities
Host immune response
 Persistent viruses must evade the host immune response
 Different viruses have evolved different evasion mechanisms
Mechanisms of action by human cancer viruses
 Viral gene is able to subvert cell cycle control
 Viruses alter the expression of normal cell cycle progression
genes
 Either results in cellular transformation into an oncogenic
state
INTERACTIONS OF TUMOR VIRUSES WITH THEIR
HOSTS

Cell susceptibility to virus
 Tumor viruses possess cell specificity and do not
infect other cells
EBV infects B cells
 HTLV infects T cells


Retention of viral nucleic acid in a cell
 Viral genes are always present in the transformed
cells
RETROVIRUSES


Structure and composition
 Diploid single-stranded RNA viruses (5-8 kb)
 Helical ribonucleoprotein
 Enveloped
Genetics
 Only diploid viruses
 About 10 genes, 16 proteins

reverse transcriptase

protease

envelope

gag

tax

rex
RETROVIRUSES


Epidemiology
 Typical infectious viruses (exogenous)
 Sexual transmission
 IV drug abusers
 Other, unknown transmission mechanisms
Classification
 Leukemia viruses


Alpharetrovirus

Gammaretrovirus
Nontransforming retroviruses

Deltaretrovirus

Lentivirus
MECHANISMS OF RETROVIRAL CARCINOGENESIS



Infection leads to uncoating in the cytoplasm
Reverse transcriptase makes a double-stranded DNA copy

An RNA-dependent DNA polymerase

A DNA-dependent DNA polymerase

A DNA-dependent RNA polymerase
The ds-DNA translocates into the nucleus where it randomly
integrates in host cell chromosome


This version of the viral genome is termed the provirus
Two replication strategies

Induce cell division - leads to copies of the viral genome in each daughter cell

Productive infection - spread of virus to other cells
DNA TUMOR VIRUSES
Virus
Viral Oncoproteins
Cellular Targets
Polyomavirus SV40
Large T antigen
Small t antigen
p53 and pRb tumor suppressor genes
PP2A
Human
papillomavirus
E6
E7
p53, DLG, MAGI-1, MUPP1
pRb
Bovine
papillomavirus
E5
PDGFβ receptor
Adenovirus
E1A
E1B-55k
pRb
p53
Adenovirus 9
E4ORF1
DLG, MAGI-1, MUPP1
Epstein-Barr virus
LMP1
vIL10
BCL2 homolog
TRAFs
IL-10 receptor (soluble viral cytokine)
Rescues cell from apoptosis
DNA TUMOR VIRUSES

Papillomaviruses
 Features
Non-enveloped icosahedral (55 nm)
 Circular ds-DNA (8 kb)
 Nuclear replication
 Stimulate cellular DNA synthesis
 Highly restricted host range and tissue range

 Many
human types
Only a few are known to cause cancers
 Cervical cancer is the most important
 Vaccine is now available

 Cause
warts (abnormal cellular proliferation)