Presentation is loading. Please wait.

Presentation is loading. Please wait.

EUKARYOTIC CELL SIGNALING VII Abnormal Signaling in Cancer Signaling to p53 Dr. Ke Shuai Office: 9-240M Factor Tel: X69168

Published byStuart French Modified over 8 years ago

Similar presentations

Presentation on theme: "EUKARYOTIC CELL SIGNALING VII Abnormal Signaling in Cancer Signaling to p53 Dr. Ke Shuai Office: 9-240M Factor Tel: X69168"— Presentation transcript:

1 EUKARYOTIC CELL SIGNALING VII Abnormal Signaling in Cancer Signaling to p53 Dr. Ke Shuai Office: 9-240M Factor Tel: X69168 E-Mail: kshuai@mednet.ucla.edu

2 Cancer Development Multi-hit models of cancer induction: the development of a cancer requires several mutations. 1) The incidence of most types of human cancers increases markedly with age. 2) Most mutations in human tumors are somatic and inherited mutations increase cancer risk. 3) Cooperative effects by mutations contribute to cancer development.

3 Oncogenes and Tumor Suppressor Genes 1) Oncogenes: altered cell growth promoting regulatory genes, resulting in the overproduction or increased activity of these proteins. 2) Tumor-suppressor genes: encode proteins that inhibit the progression of tumors. 3) Oncogenes alone are not sufficient to cause cancer. Inactivation of tumor suppressors is a major event leading to the development of cancer.

4 Genetic Alternations Mutations: point mutations Deletions: the removal of a segment of DNA Translocations: chromosomal translocation that leads to the inappropriate expression of the gene or the generation of a fusion gene. Amplification: localized reduplication (gene amplification) of a DNA segment, leading to overexpression of the encoded proteins.

5 Induction of cancer by alternations in several types of proteins involved in cell growth control

6

7

8

9

10 Signaling to p53 P53 protein becomes stabilized in response to DNA damage and stress signals.

11 The structure of p53

12 Mechanisms for p53 Activation 1. Phosphorylation 2. MDM2 dissociation 3. Recruitment of co-activators 4. Acetylation 5. Dephosphorylation and binding to adaptor protein 14-3-3

13 The p53-Mdm2 Autoregulatory Loop

14 Oncogene and DNA Damage Activate p53 by Distinct Mechanisms

15 The regulation of p53 functions

16 Smoking is associated with p53 mutation in oral and lung cancers Inactivation of p53 in cancer Vertical lines represent the frequency at which mutations are found at each residue in various human tumors. P53 is stabilized by phosphorylation. MDM2 protein binds at the indicated site and represses transcriptional activity of p53. P53 is also inhibited by viral proteins such as E6 from human papillomavirus and E1b from adenovirus.

17 Cancer Therapies 1). Conventional cancer therapies: surgery, radiation, chemotherapy 2). Potential new therapies: gene therapy; specific inhibitors (e.g. of tyrosine kinase); antibodies (e.g. anti-EGFR antibodies). 3). Early diagnosis: offers better treatment, cosmetic and functional outcome, and survival.

Download ppt "EUKARYOTIC CELL SIGNALING VII Abnormal Signaling in Cancer Signaling to p53 Dr. Ke Shuai Office: 9-240M Factor Tel: X69168"

Similar presentations

Mitosis & Cancer: When Making New Cells Goes Terribly Wrong!

Mitosis & Cancer: When Making New Cells Goes Terribly Wrong!
Early Embryonic Development Maternal effect gene products set the stage by controlling the expression of the first embryonic genes. 1. Transcription factors.

Early Embryonic Development Maternal effect gene products set the stage by controlling the expression of the first embryonic genes. 1. Transcription factors.
Chapter 19 Lecture Concepts of Genetics Tenth Edition Cancer and Regulation of the Cell Cycle.

Chapter 19 Lecture Concepts of Genetics Tenth Edition Cancer and Regulation of the Cell Cycle.
P53 The Master Guardian of the Genome. p53 gene mutations in human tumors Greenblatt et al. (1995) Cancer Res. 54:4855 50%

P53 The Master Guardian of the Genome. p53 gene mutations in human tumors Greenblatt et al. (1995) Cancer Res. 54: %
p53 Revealed character as a tumor suppressor gene in 1989.

p53 Revealed character as a tumor suppressor gene in 1989.
Cancer: a genetic disease of inherited and somatic mutations n Gene mutations and/or genetic instability are involved in many cancers. n Viruses and environmental.

Cancer: a genetic disease of inherited and somatic mutations n Gene mutations and/or genetic instability are involved in many cancers. n Viruses and environmental.
Introduction to Oncology Dr. Saleh Unit 9 R.E.B, 4MedStudents.com 2003.

Introduction to Oncology Dr. Saleh Unit 9 R.E.B, 4MedStudents.com 2003.
AP Biology 2008-2009 Regulation of Cell Division.

AP Biology Regulation of Cell Division.
Chap. 24 Problem 1 The difference between a benign tumor and a malignant one mostly involves the latter's ability to invade and metastasize to other tissues.

Chap. 24 Problem 1 The difference between a benign tumor and a malignant one mostly involves the latter's ability to invade and metastasize to other tissues.
Cancer Genetics Is Cancer a Genetic Disease? Cancer is not a classic genetic disease, instead, Genetic background (set-up) has a definite role in cancer.

Cancer Genetics Is Cancer a Genetic Disease? Cancer is not a classic genetic disease, instead, Genetic background (set-up) has a definite role in cancer.
Cancer Cancer originates in dividing cells –Intestinal lining (colon) –Lung tissue –Breast tissue (glands/ducts) –Prostate (gland) –White blood cells.

Cancer Cancer originates in dividing cells –Intestinal lining (colon) –Lung tissue –Breast tissue (glands/ducts) –Prostate (gland) –White blood cells.
P53 The Master Guardian. R point Cell cycle control involves several checkpoints and checkpoint (molecular breaking) mechanisms.

P53 The Master Guardian. R point Cell cycle control involves several checkpoints and checkpoint (molecular breaking) mechanisms.
Theories of cancer genesis

Theories of cancer genesis
34 Cancer.

34 Cancer.
THE GENETIC OF CANCER Increased mitosisTumor formation Tumor suppression gene Hyperactive growth TranslocationPoint mutationAmplification Normal growth.

THE GENETIC OF CANCER Increased mitosisTumor formation Tumor suppression gene Hyperactive growth TranslocationPoint mutationAmplification Normal growth.
Copyright (c) by W. H. Freeman and Company Chapter 24 Cancer.

Copyright (c) by W. H. Freeman and Company Chapter 24 Cancer.
MDM2: Oncogene Chan Lee. Discovery of MDM2: starting with tumor suppressor p53.

MDM2: Oncogene Chan Lee. Discovery of MDM2: starting with tumor suppressor p53.
P73 Shatil Amin March 27 th 2003. ..Content I.Structure and Function II.Regulation III.Is it involved in human cancers?

P73 Shatil Amin March 27 th Content I.Structure and Function II.Regulation III.Is it involved in human cancers?
Tumor Markers Epidemiology 243: Molecular Epidemiology.

Tumor Markers Epidemiology 243: Molecular Epidemiology.
21 and 23 March, 2005 Chapter 15 Regulation of Cell Number: Normal and Cancer Cells Regulated and unregulated cell proliferation.

21 and 23 March, 2005 Chapter 15 Regulation of Cell Number: Normal and Cancer Cells Regulated and unregulated cell proliferation.

Similar presentations

Ads by Google