Tumor genetics

Minna Thullberg

minna.thullberg@labmed.ki.se

08-585 87985

Basic concepts of carcinogenesis

Phenotypes of cancer cells

What is an oncogene

What is a tumor suppressor gene

Inherited versus sporadic cancer

The molecular pathway concept

Cancer is a disease of the genes

Discussion and microarray

Summary of the most important stuff

Break

G0 (i)

G1G2

S

M

X R

nucleus

cell

chromosomes

G0 (t)

Cells in the cell cycle

Cells in arrestTerminally differentiated

Latent ability to regenerate

Do not form tumors

Form tumors occasionally

Dividing cellsForm tumors with highest frequency

Multistep carcinogenesis

normal cells

genetic changeclonal expansion

genetic change

clonal expansion

genetic change

invasive tumor

Cancer is a genetic disease which develops stepwise

Normalepithelium

Hyperprolifer-ating epithelium

Earlyadenoma

Intermediate

adenomaLate

adenomaCarcinoma Metastasis

Chromosome:Alteration:

Gene:

5q

mut. or lossAPC

DNAhypo

methylation

12p

mut.K-ras

18q

lossDCC

17p

lossp53

otheralterations

Vogelstein 1990

Abnormal shape

loss of anchorage dependence

loss of serum dependenceloss of contact inhibition

Divide when they shouldn't

TRANSFORMED CELLS

Chernoff J

Phenotypes of cells in a tumor

Loss of Differentiation

Increased Proliferation

Heterogeneity

All tumors seem to be different

Common characteristics of cancer cells

Increased cell proliferation due to* Growth without growth factors* Insensitivity to growth inhibitors

Resistance to apoptosis (committed cell death)

Indefinite lifespan= limitless replicative potential

Sustained angiogenesis

Tissue invasion metastasis

Genetic instability due to e.g.Protection against apoptosis or defect DNA repair

In the invasive tumor

Proliferation

e.g. Extracellular matrixCell-cell contact

Gene transcription

Growth inhibition

Growth stimulation

Adhesion

Growth factorreceptors

kinasesGTPases

Signal transduction

Transcription factors

e.g. Growth factors e.g. Growth inhibitors

Growth inhibitorreceptors

Contact inhibition

kinases

GTPasesContact receptors

Cell-cell contact

Arrest or Apoptosis

Cellular response of STRESS

Extracellular stress

HEAT

Chemical

Cytokines

Intracellular stress

DNA damage

Ca2+ concentrationcaspase

caspase

Stress receptor

Stress sensor

Protease cascade apoptosis

p53 ATM

P53 and/or ATM trigger arrest or apoptosis upon DNA damage

Cell cycle arrestimbalance

Parslow M

Telomere tandem

Parslow M

Telomeres protect the end of chromosomes

The telomeres get shorter for each round of replication

Until a certain limit when the cell stops to divide

Cell division with too short telomeres induces gene instability

Stem cells and most cancer cells express TELOMERASEan enzyme which synthesize telomeres and induces unlimited life-span

What is an oncogene?

Induces proliferation

Induces resistance to apoptosisInduces transformation

Upregulated in human tumors

or

A Proto-oncogene can become an oncogene

by a genetic change

Viral oncogenes (HPV)

Proto-oncogenes are:

Growth factors

Growth factor receptors

Signal transduction proteins (kinases, G-proteins)

Transcription factors

Cell cycle proteins

Inhibitors of apoptosis

Telomerase?

Proliferation

e.g. Extracellular matrixCell-cell contact

Gene transcription

Growth inhibition

Growth stimulation

Adhesion

Growth factorreceptors

kinasesGTPases

Signal transduction

Transcription factors

e.g. Growth factors e.g. Growth inhibitors

Growth inhibitorreceptors

Contact inhibition

kinases

GTPasesContact receptors

Cell-cell contact

Proto-oncogenes are transformed into oncogenes by:

Activating mutations

Translocations

Transactivation

Integration of virus

Gene amplification

Genetic changes can be triggered by

DNA replication

Metabolism creating reactive metabolites

Stress from outside:

UV light, smoking, chemicals

From living:

A Tumor suppressor is normally controlling cell growth or apoptosis

And is lost or inactivated in cancer

Tumor suppressor

Normal situation

father

mother

functional proteins

2 alleles

fathermother

functional proteins

mutation

defect proteins

Inherited or spontaneousgenetic change

2 genetic hitsonly defect proteins

gene deletion NO functional proteins

disease

Further genetic changein the second allele

Tumor suppressor

Mechanisms of tumor suppressor gene inactivation

Inactivating mutations

Gene deletions

Viral oncogenes

Promotor silencing

Viral oncogenes e g in HPV express proteinswhich bind and inactivate p53 and pRbtwo guards of apoptosis and cell proliferation

Changes in the structure of a gene’s promotorcan lead to silencing of that geneand no protein will be expressed

Inherited cancer

Inherited predisposition for tumor disease

occurs typically through a mutation in a tumor suppressor gene

The tumor developswhen the second allele is also deleted or inactivated.

In spontaneous developed tumors there need to betwo hits in the tumor suppressor genesWhich take longer time

Examples of inherited cancer ”syndromes”

Retinoblastom(retina) pRb cell cycle control

Polyposis Coli (colon) APC differentiation

Ataxia Telangiectasi (general) ATM DNA repair

Breast Cancer BRCA1, BRCA2 DNA repair

Melanoma p16 cell cycle

G1G2

S

M

G0

X R

nucleus

cell

chromosomes

The Cell Cycle

G1G2

S

M

G0

XRCyclin D-CDK4

Cyclin D-CDK6

Cyclin E-CDK2

Cyclin A-CDK2

Cyclin A-CDC2

Cyclin B-CDC2

p16

Rb RbP

P P

cyclin D

cdk 4/6

p16

-Gene amplification-Chromosomal rearrangement-Proviral integration-Protein stabilisation

-Gene deletion-Inactivating mutations-Promotor silencing by DNA methylation

-Gene deletion-Loss of function mutations-Functional inactivation byviral oncoproteins

-Gene amplification-Loss of p16 binding

Hanahan and Weinberg, Cell, 2000

As for the genetic reprogramming of this integrated circuit in cancer cells, some of the genes known to be functionally altered are highlighted in red.

Summary

Cancer develops stepwise through genetic changes

Several genes are affected and it seems likeall tumors are different

An oncogene promote tumor growth

A tumor suppressor normally control cell growth,or apoptosis but it is functionally lost in tumors

Common characteristics of cancer cells

Increased cell proliferation due to* Growth without growth factors* Insensitivity to growth inhibitors

Resistance to apoptosis (committed cell death)

Indefinite lifespan= limitless replicative potential

Sustained angiogenesis

Tissue invasion metastasis

Genetic instability due to e.g.Protection against apoptosis or defect DNA repair

In the invasive tumor