Transcript Slide 1
Carcinogenesis
Stages & Mechanisms
Eva Szabo &
Gail L. Shaw
http://www.moffitt.usf.edu/pubs/ccj/v4n2/article1.html
http://www2.scitech.sussex.ac.uk/undergrad/coursenotes/ehh/lec4/4.html
http://www.belleonline.com/n2v91.html
Epigenetic Mechanisms of Chemical Carcinogenesis
James E. Klaunig, Lisa M. Kamendulis, and Yong Xu
Division of Toxicology, Department of Pharmacology and Toxicology,
Indiana University School of Medicine
http://www1.elsevier.com/homepage/sab/oncoserve/cl_si/cl1/stampfer.htm
Clinical relevance: There is mounting evidence
that cellular senescence acts as a "cancer brake"
because it takes many divisions to accumulate all
the changes needed to become a cancer cell. In
addition to the accumulation of several mutations
in oncogenes and tumor suppressor genes,
almost all cancer cells are immortal and, thus,
have overcome the normal cellular signals that
prevent continued division. Young normal cells
can divide many times, but these cells are not
cancer cells since they have not accumulated all
the other changes needed to make a cell
malignant. In most instances a cell becomes
senescent before it can become a cancer cell.
Therefore, aging and cancer are two ends of the
same spectrum. The key issue is to find out how
to make our cancer cells mortal and our healthy
cells immortal, or at least longer-lasting. Inhibition
of telomerase in cancer cells may be a viable
target for anti-cancer therapeutics while
expression of telomerase in normal cells may
have important biopharmaceutical and medical
applications. In summary, telomerase is both an
important target for cancer and for the treatment
of age-related disease.
http://claim.springer.de/EncRef/CancerResearch/samples/0001.htm
Breast Cancer Continuum:
intervention possibilities
Prevention of Recurrence
Women at
Increased
Risk
PreMalignant
Conditions
1.7 % to
14%
LCIS 6.5%
ADH 5.1%
NonInvasive
Cancer
DCIS 7.2%
Prevention of Clinically
Detectable Breast Cancer
Tumors
< 1cm
11.8%
Early Stage
node neg
25.1%
Prevention of
Progression
Early Stage
node pos
47.1%
Prevention of Contralateral
Breast Cancer 3.2%
Late Stage
Cancer
Recurrence
of Breast
Cancer
Breast Cancer staging
With thanks to Professor W.Jonat
Breast Cancer staging 2
With thanks to Professor W.Jonat
Breast Cancer staging 3
With thanks to Professor W.Jonat
Stages of tumour development
Malignant cell
Proliferation
Cytotoxics
Endocrine
EGFR inhibitors
HER2 antibodies
Angiogenesis
Antiangiogenics
Novel
agents
Vascular
targeting
agents Novel
agents
Invasion
Metastatic
Cancer
Invasion
Dissemination
of other organs
of other
organs
Neovascular
endothelial
maintenance
Staging Classification of Breast Tumour
OVEREXPRESSION OF p68 RNA HELICASE IN COLORECTAL TUMORS
We and others have shown that p68
RNA helicase is overexpressed in
colon cancer. In particular, hyperplastic
polyps which eventually develop via
adenomas into malignant
adenocarcinomas, are devoid of
significant p68 RNA helicase
immunostaining (see Figure).
However, adenomas as well as
adenocarcinomas show p68 RNA
helicase overexpression, suggesting
that p68 RNA helicase may contribute
to the malignant transformation of
colon cells.
Janknecht Laboratory , Mayo Clinic
http://mayoresearch.mayo.edu/mayo/research/janknecht_lab/overexpression.cfm