Tumor supressor genes
VijayShankar4
5,364 views
23 slides
Dec 25, 2017
Slide 1 of 23
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
About This Presentation
TUMOR SUPPRESSOR GENES: Retinoblastoma Gene, Knudson's Two Hit Hypothesis
Slide Content
TUMOR SUPRESSOR GENES
Insensitivity to Growth Inhibition
Insensitivity to Growth Inhibition
Learning outcomes
•Tumor suppression genes-general aspects
•Retinoblastoma gene
•Knudson’s two Hit Hypothesis
•Role of RB in regulation of cell cycle
•Mechanism of inactivation of RB
•Tumors associated with RB gene mutations
•Tumor suppression genes-general aspects
•Retinoblastoma gene
•Knudson’s two Hit Hypothesis
•Role of RB in regulation of cell cycle
•Mechanism of inactivation of RB
•Tumors associated with RB gene mutations
Tumor suppressor genes(TSG)
•Tumor suppressor proteins( products of TSG)
•Regulate cell growth by applying brakes to cell
proliferation ( Growth Inhibition)
•Failure of growth inhibition is seen in carcinogenesis
•Loss of function of these genes is a key event in
carcinogenesis
•Tumor suppressor proteins( products of TSG)
•Regulate cell growth by applying brakes to cell
proliferation ( Growth Inhibition)
•Failure of growth inhibition is seen in carcinogenesis
•Loss of function of these genes is a key event in
carcinogenesis
Gene Location Assoc. Human tumors
1.RB Nucleus(13q14) Retinoblastoma
Osteosarcoma
2. TP53 Nucleus(17p13) Ca lung,colon. head, neck &
breast
3. APC Cytosol Ca colon
4. Others
-WT1&2
-NF1&2
-BRCA1&2
Nucleus
Plasma membrane
Nucleus
Wilm’stumor
Neurofibromatosis 1 & 2
Ca breast, ovary
1.RB Nucleus(13q14) Retinoblastoma
Osteosarcoma
2. TP53 Nucleus(17p13) Ca lung,colon. head, neck &
breast
3. APC Cytosol Ca colon
4. Others
-WT1&2
-NF1&2
-BRCA1&2
Nucleus
Plasma membrane
Nucleus
Wilm’stumor
Neurofibromatosis 1 & 2
Ca breast, ovary
Loss of Heterozygosity
Both Normal alleles of
Tumor Suppressor gene(TSG)
One normal allele(active)
another abnormal
allele(inactive) of TSG
Both abnormal alleles
( inactive ) of TSG
heterozygous
Loss of heterozygosity
Normal Function of
Tumor Suppressor Gene ( TSG)
Normal Function of
Tumor Suppressor Gene ( TSG)
Loss of Function of
Tumor Suppressor Gene ( TSG)
TUMOR
Deletion
Mutation
Both Normal alleles of
Tumor Suppressor gene(TSG)
One normal allele(active)
another abnormal
allele(inactive) of TSG
Both abnormal alleles
( inactive ) of TSG
heterozygous
Loss of heterozygosity
Normal Function of
Tumor Suppressor Gene ( TSG)
Normal Function of
Tumor Suppressor Gene ( TSG)
Loss of Function of
Tumor Suppressor Gene ( TSG)
TUMOR
Deletion
Mutation
Retinoblastoma Gene ( RB Gene)
•First discovered Tumor suppressor gene
•Chromosome 13q14
•Retinoblastoma: is a childhood tumor with inactivation of this gene.
•First discovered Tumor suppressor gene
•Chromosome 13q14
•Retinoblastoma: is a childhood tumor with inactivation of this gene.
Knudson’s two-hit hypothesis
•Two mutations ( hits) involving both the alleles of TSG ( here RB
gene) is a basic requisite for the development of tumor
•Retinoblastoma can occur as hereditary or sporadic form
•Explanation for the same is given by Knudson’s two-hit hypothesis
•Two mutations ( hits) involving both the alleles of TSG ( here RB
gene) is a basic requisite for the development of tumor
•Retinoblastoma can occur as hereditary or sporadic form
•Explanation for the same is given by Knudson’s two-hit hypothesis
Hereditary
Retinoblastoma
Sporadic
Retinoblastoma
1
st
Hit
Inherited
Mutation
2
nd
Hit
Acquired
Mutation
1
st
Hit
Acquired
Mutation
2
nd
Hit
Acquired
Mutation
Knudson’s two-hit hypothesis
Retinoblastoma
Sporadic
Retinoblastoma
1
st
Hit
Inherited
Mutation
2
nd
Hit
Acquired
Mutation
1
st
Hit
Acquired
Mutation
2
nd
Hit
Acquired
Mutation
Knudson’s two-hit hypothesis
RB Gene
•RB protein-product of RB gene
•Key role in regulation of the cell cycle
•“Governor” of the cell cycle
•RB protein-product of RB gene
•Key role in regulation of the cell cycle
•“Governor” of the cell cycle
M
S
G1G2
Gap 1
Gap 2
Cells crossing this
will have to
complete mitosis
RB acts here !
S
G1G2
Gap 1
Gap 2
Cells crossing this
will have to
complete mitosis
RB acts here !
E2F
Transcriptional Activation
G1 –S phase
Transcriptional Activation
G1 –S phase
Hypophosphorylated
RB
RB
Histone Methyl
Transferase
Histone
Deacetylase
Chromatin Remodeling factors
Transcription
No Progression
to S phase
Hypophosphorylated
RB
Transferase
Histone
Deacetylase
Chromatin Remodeling factors
Transcription
No Progression
to S phase
Hypophosphorylated
RB
E2F
Hyperphosphorylated
RB
Cyclin D-CDK4
Cyclin D-CDK 6
Cyclin E-CDK2
Hyperphosphorylated
RB
Cyclin D-CDK4
Cyclin D-CDK 6
Cyclin E-CDK2
Transcriptional Activation
G1 –S phase
E2F
G1 –S phase
E2F
Hyperphosphorylated
RB
RB
So, How does RB gets inactivated ?
Or
How does the Antiproliferative activity of RB is nullified?
1. Germline & somatic
Loss of function Mutations of RB Gene
2. Gene Amplifications of CDK 4 and
Cyclin D genes
Or
How does the Antiproliferative activity of RB is nullified?
1. Germline & somatic
Loss of function Mutations of RB Gene
2. Gene Amplifications of CDK 4 and
Cyclin D genes
3. Functional inactivation of RB
•HPV 16
HPV E7 protein ( Viral Oncoprotein)
Binds to same RB pocket that sequesters E2F
Functional inactivation of RB
Release of E2F
Multiplication of cells
Cervical Carcinoma
•HPV 16
HPV E7 protein ( Viral Oncoprotein)
Binds to same RB pocket that sequesters E2F
Functional inactivation of RB
Release of E2F
Multiplication of cells
Cervical Carcinoma
Tumors associated with RB Gene mutations
1.Retinoblastoma
2.Osteosarcoma
3.Glioblastomas
4.Small cell carcinomas of lung
5.Breast cancers &
6.Bladder cancers
1.Retinoblastoma
2.Osteosarcoma
3.Glioblastomas
4.Small cell carcinomas of lung
5.Breast cancers &
6.Bladder cancers
Summary
•Tumor suppression genes
•Retinoblastoma gene
•Knudson’s two Hit Hypothesis
•Role of RB in regulation of cell cycle
•Mechanism of inactivation of RB
•Tumors associated with RB gene mutations
•Tumor suppression genes
•Retinoblastoma gene
•Knudson’s two Hit Hypothesis
•Role of RB in regulation of cell cycle
•Mechanism of inactivation of RB
•Tumors associated with RB gene mutations
http://ilovepathology.com/
THANKS FOR WATCHING
THANKS FOR WATCHING
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 5,364
- Slides 23
- Favorites 20
- Age 2898 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
30 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
32 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
30 views
14
Fertility awareness methods for women in the society
Isaiah47
29 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
26 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
28 views