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Cell transformation

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Cell transformation Mechanisms of effect of oncogenes and tumor suppressor genes – PowerPoint PPT presentation

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Title: Cell transformation


1
Cell transformation
  • Mechanisms of effect of oncogenes and tumor
    suppressor genes

2
Plan of seminar
  • A short introduction to the topic
  • Oncogenes/Protooncogenes/Oncosupressors
  • Viruses and tumors
  • The easy task

3
Cell transformation
  • Metamorphosis of a normal cell to cancer cell
  • It is irreversibile
  • Gradual/multistep

4
Comparision of a normal and a cancer cell
  • Cancer cell
  • An immortality (see HeLa cells)
  • A loss of contact inhibition
  • An independence on surrounding
  • A changes in surfaces molecules and chromosomes
  • A resistance to apoptosis
  • Normal cell
  • A limited potential to dividing
  • A contact inhibition
  • Great dependence on other cells

!!! A cancer cells does not divide more quickly
than a normal cell, but continually !!!
5
Tumor
  • Benign - a solid structure, formed by cancer
    cells and normal cells (stroma), in principle
    compact localization, can be removed
  • Malignant - spreading of cancer cells to body
    (metastasis), mostly beginning of cancer

6
DNA modifications - mutations
  • Induced mutations (induced by mutagenes),
    spontaneus mutations
  • There is a relationship between mutations and
    cell transfromation
  • The types of mutations
  • The sources of mutations - mutagenes


7
Mutagenes
  • Physical UV radiation, X rays, gama radiation
    (leukaemia, skin cancer)
  • Chemical Substances interacting with DNA,
    capable of mutate this
  • Biological viruses, other parasites (cervical
    cancer, hepatocelular carcinoma)

8
Protooncogene/Oncogene
Protooncogene - original protein
Oncogene - altered protein
9
Oncoproteins/Oncosupresors
Oncoprotein - protein with altered function or
level of expression inducing cell transformation.
The heredity is dominant - one chanched allele
can cause transformation in all daughter cells.
Onkosupressor antioncogene - protein, that
prevents transformation. The heredity is recesive
- both alleles has to be damaged not to protect
the daughter cells against transformation.
10
Loss of extracellular regulatory domains causes
continuous activation of receptor tyrosine
kinases
The point mutation of Ras can cause its
continuous activation
Point mutatin in the GTP- cleavage domain. GTP
can not be cleaved - it is continuously activated
Moreover, some aminoacids can be phosphorylated
and it leads to inhibition of the protein. If the
aa is mutated, oncogen is created.
11
Signaling pathways and proteins, that can be
altered
P53, pRb
Bcl-2
12
  • Groove factors
  • v-sis c-sis gene for B chain of PDGF
  • v-hst-1 c-hst gene for FGF-4
  • autocrine stimulation
  • Receptor tyrosinkinases
  • v-erbB c-erb EGFR gene erhytroblasts,
    fibroblasts,
  • v-fmsc-fms M-CSFR gene
  • met c-met HGFR gene
  • trkA c-trkA NGFR gene

Non receptor tyrosinkinases v-abl c-abl,
v-src c-src, v-mos c-mos G
proteins v-Hras c-Hras, v-Kras
c-Kras N-ras c-Nras
Transcription factors v-fos c-fos v-myc
c-myc v-myb c-myb v-jun c-jun
Serin-threoninkinases v-Raf c-Raf gene
The list of protooncogenes from previous slide
12
13
  • Tumor supressor genes (antioncogenes)
  • p53 gene
  • pRb gene
  • genes for proteins involved
  • in DNA reparation

13
14
pRb
Rb is fosforylated by complex of G1 cdk/cyclin.
Subsequently it is released from E2F protein. E2F
then induces a expression of S - phase proteins.
Mutations of Rb lead to continual activation of
E2F.
15
p53
Human Li-Fraumeni Syndrome (rare inherited
cancer heterozygous p53 mutation)
p53 blocks a cell cycle at G1 phase (by
production of p21). Impaired DNA can be repaired.
If the damage is to serious and there is no
possibility to repair it, p53 induce production
of Bax protein and it activates a mitochondrial
pathway of apoptosis.
16
Viruses and tumors
16
17
HCV
  • Chronical persistent infection observed in adult
    immunocompetent patient (70 85 pacientu) it
    can lead to hepatocelular carcinoma by the same
    mechanisms like HBV
  • Transmission by blood - nonsterile injection
    needles, blood transfusion, drug users, sexual?
  • Treatment Interferon a, ribavirin (20 - 30,
    toxic)
  • 130 000 000 HCV positive persons 0,1 (UK) - 20
    (Egypt) Pakistan (4.8) and China (3.2),
    more than 350 000 people die from HCV-related
    liver diseases each year
  • Vakcinace there is no vaccination
  • Prevention control of blood and blood derivates,
    disposable sterile needles

18
Hepadnaviruses
  • In 20 cases hepatitis B goes to chronical phase
  • The hepatocelular carcinoma can be developed in
    decades
  • The development of tumor is associated with
    abnormal loss of hepatocytes in 95 of cases.
    They are removed by immune system due to
    infection by the virus.
  • The damaged liver tissue recover and so
    permanently proliferating hepatocytes gain
    mutations that lead to cell transformation.
  • There are 350 mil. HBV infected worldwide
  • Transmission by blood, throught injections
    (drugs, tatoo, hospitals) and sexual
  • There is commonly used hexavaccine or combined
    vaccines against HBV nad HAV

19
Papilomaviruses
  • More than 100 species (about 40 was sexual
    transfer described, cca 15 have oncogenical
    potential)
  • Strongly species - specific, infection of skin
    and mucous membrane where can induce formation of
    tumors
  • Most common sexual transmitted infection (to 80
    humans infected during the life)
  • Most common cause of world-wide incidence of
    cervical carcinoma are HPV types 16 (53-70 ) and
    18 (13-26 )
  • Cervical carcinoma is caused by HPV 16 a 18 in
    approximately 0,1 infected women
  • World-wide 500,000 new cases a year, 275,000
    humans die a year. Usually suppressed by immune
    system, no tumor is formed, chronical infections
    are high risk, e. g. Viral genom can be
    integrated
  • Typical cancer cells produced E6 and E7

20
Oncogenes of papilomaviruses
  • Protein E6
  • degradation p53
  • interaction with Bak (inhibition of apoptosis)
  • activation of telomerases
  • Protein E7
  • Inhibition of Rb protein
  • Inactivation of p21Cip and p27Kip

A) Viral oncogenes, that have no model in
infected cells
21
Herpesviruses
  • Epstein-Barr virus - HHV4 (EBV) Burkitt s
    lymfom
  • South - east Africa - EBV other factors -
    malaria, imunosupression etc
  • Very often there is translocation of gene of
    primary response gene, myc, next to the gene
    for antibodies. In result, fused gene is created
    and deregulation of cell signallization follows
  • Moreover, herpesviruses are infectious agents
    causing nasofaryngal carcinoma, Kaposi sarkoma
    and and others infectious diseases

B) Herpesviral oncogenes oncogenes, that have
model gene in cell proteins, they were
incorporated into the viral genom many thousands
years ago
22
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23
Retroviruses and tumors
  • C) Viral oncogenes of acute oncoviruses -
    cellular protooncogenes, that are incorporated
    into viral genom de novo during infection, this
    deactivates the virus, they do not cause any know
    disease
  • Retroviruses can incorporated into cellular
    genom (it is the same in 5 in hepatocallular
    carcionma induced by hepadnaviruses), cellular
    protooncogene is then expressed from viral
    promotor

  • deregulation, very rare
  • Tumors can be also induced by protein Tax (viral
    oncogene without cellular template) of virus
    HTLV-1
  • Japan 10 infected, Jews in Ethiopia, 0,1
    leucemia, very long incubation period - to 35
    years, HTLV - 1, HTLV -2,  transmission like HIV
    virus, 15 25 milionu infict. HTLV -1

24
Task
  • Classify the terms in bold from this presentation
    into following groups
  • Oncogenes
  • Oncosupressors
  • Protooncogenes
  • The others
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