Lecture 6 Flashcards
THE ACTIVATION OF CYCLIN E/CDK2
As cyclinD-CDK4/6 complexes accumulate in mid-G1, cyclin Ddependent kinases sequester CKIs of the CIP/KIP/CDKN1
family facilitating cyclinE-CDK2 activation. At same time
expression of Cyclin E is occuring-E2F regulated.
As cells progress into late G1, active cyclin E-CDK2 phosphorylates
p27
(which inhibits Cyclin E-CDK2) which marks it for degradation by the
proteosome (SCFSkp2 Ubiquitin protein ligase involved).Allows for more
active cyclin E-CDK2 complexes to be generated-leads to
hyperphosphorylation of RB
SUMMARY: RB IS HYPERPHOSPHORYLATED WHICH
INACTIVATES RB
WHICH IS CRITICAL FOR CELL CYCLE PROGRESSION
“R-FACTOR”=CYCLIN D/CDK4 AND CYCLIN E/CDK2
CRITICAL DECISION MAKING POINT
RB-E2F
* Nuclear RB protein is a member of the “pocket proteins
The binding of HDAC (histone deacetylase) and the E2F transcription factor to the pocket
region of RB is important for its function.
* RB in hypophosphorylated state binds to HDAC and E2F (which blocks its transactivation
domain)-genes required for S phase gene expression (cyclin E/A are not expressed).
* Growth signal-RB is phosphorylated by cyclin/CDKs-leads to conformational change in RB
protein leading to sequential release of HDAC and E2F.
After the cell has progressed through the Restriction point or R-Point
then
removal of growth factors from the medium does not influence
whether it will go forward through S, G2 M.
The sequential phosphorylation of RB by Cyclin D/CDK4/6 and then Cyclin E-CDK2
complexes leads to the release of
E2F From RB. E2F is a key transcriptional regulator of
S-phase genes-Positive regulator of cell cycle progression. Active E2Fs1-3 induce
expression of late G1 genes, required for S phase. As the cell traverses the G1/S
transition into S phase cyclin A becomes activated and together with CDK2
phosphorylates both E2F and DP subunits; leads to their dissociation, and loss of
transcriptional activities. E2F1 is degraded.
Hsp (heat shock protein)-chaperone protein; E2Fs1, 2 and 3a are classified as
‘activating E2Fs’ positively
regulating S phase gene expression. CAK=CDK activating kinase leads to fully active cyclin/CDK
S-Phase gene expression leads to…
Synthesis of S-phase Machinery
* DNA polymerase, topoisomerase, ligase etc
* Initiation Factors
* Structural proteins (e.g. Histones)
*Proteins involved in synthesizing DNA precursor
nucleotides -thymidine kinase
*Spindle assembly checkpoint protein MAD2
