engineered histone acetylation using dna-binding domains (dbd), chemical inducers of dimerization...
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Engineered histone acetylation using DNA-bindingdomains (DBD), chemical inducers of dimerization
(CID), and histone acetyltransferases (HAT)BCBP Research Proposal
Feynman Liang
Amherst College
5/2/2014
Feynman Liang (AC) DBDs, CIDs, and HATs 5/2/2014 1 / 14
Dynamical systems in biology
Figure 1: Negative feedback in PERregulation [1]
Figure 2: Resultant limit cycle [1]
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The mammalian circadean clock regulatory network
Figure 3: Focus on E-Box,CLK:BMAL1, PER:CRY [1]
Circadian acetylome showsCLOCK-dependentoscillatory patterns[2]
CLOCK is a HAT,inhibition of CLOCK HATactivity disrupts circadianrhythmicity [3]
PER:CRY bindsCLK:BMAL1 and recruitsSIN3:HDAC [4]
HDAC inhibitor relievesrepression of CRY andPER [5]
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So it seems that transcriptional regulation at the epigenetic level is apretty big deal. But what exactly is histone acetylation?
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Epigenetic regulation: histone acetylation
Figure 4: Acetylation in histone tails upregulates gene expression [6]
Figure 5: Mechanism of lysine acetylation [8]
Feynman Liang (AC) DBDs, CIDs, and HATs 5/2/2014 5 / 14
Goals
Disrupt the circadian rhythm at the epigenetic level
Construct a DNA-binding domain (DBD) mimicking DNA bindingprofile of CLOCK:BMAL1Use CID/CID inhibitor to toggle recruitment of HAT
Prototype a modular method for specifically modifying the histonecode
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Technicalities
Model organism: mouse cell cultures
Prerequisite recombineering
KO the WT CLOCK:BMAL1 proteinsInsert recombinant CLOCK-FKBP fusion protein, BMAL1, andHAT-FRB fusion protein (to be described)
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Designing the DNA-Binding Domain (DBD)
Figure 6: CLOCK and BMAL1recognize canonical E-box (CACGTG)[7]
Reuse CLOCK mutant withoutHAT activity [3], engineerBMAL1 mutant resistant toCRY inhibition
Effectively decouple negativefeedbackGood: DNA-sequenceaffinity matches desiredtargetBad: Don’t have PER:CRYcrystal structure
Verify DBD competitivelyinhibits WT with EMSA
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Recruiting HAT using CID
Heterodimerization: FKBP-Rapamycin-FRB
Competitively inhibited by FK1012 [11] (likely AP1903 [10] as well)
Figure 7: Cartoon of proposed DBD, CID, HAT system
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The Histone Acetyltransferase (HAT)
DBD-mutated CLOCK?
Type A: Gcn5, p300/CBP, TAFII250
Located in nucleusContain bromodomain to recognize acetylated lysines
Type B
Acetylation of newly synthesized histonesFound in cytoplasm
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Future steps (failure plans)
Optimize dimerization ligand’s lipophilicity and bioorthogonality(e.g.g bump-hole)
Use another TF that binds the canonical E-box (e.g. USF [9]) as DBD
Try other HATs
Bromodomain ligand for CID conjugate partner
Recruit endogeneous HAT“. . . not inhibit any enzymatic function in the recruited [HAT] andwould even be predicted to recruit complexes in a natural orientation”[12]Bromodomain inhibitor already discovered [13]
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References I
William Bechtel et al.
Thinking Dynamically about Biological Mechanisms: Networks of Coupled Oscillators.Foundations of Science 18(4), 707 (2013)
Masri et al.
Circadian acetylome reveals regulation of mitochondrial metabolic pathways.PNAS 110(9), 3339–3344 (2013)
Doi et al.
Circadian regulator CLOCK is a histone acetyltranferase.Cell 125(3), 497–508 (2006)
Duong et al.
A molecular mechanism for circadian clock negative feedbackScience 332(6036) (2011)
Yoshihisa et al.
Circadian and Light-Induced Transcription of Clock Gene Per1 Depends on Histone Acetylation and DeacetylationMol Cell Bio, 24(14), 6278–6287, (2004)
Rodd et al.
Current and Emerging Therapeutics for Cutaneous T-Cell Lymphoma: Histone Deacetylase InhibitorsLymphoma 2012(290685), (2012)
Wang et al.
Intermolecular recognition revealed by the complex structure of human CLOCK-BMAL1 basic helix-loop-helix domainswith E-box DNACell Research, 23:213–224, (2012)
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References II
Trcum
Lysine acetylation, “https://en.wikipedia.org/wiki/File:Lysine acetylation.png”Wikipedia, The Free Encyclopedia, (2014), Accessed 4-29-2014
Ferree-D’Amare AR et al.
Structure and function of the b/HLH/Z domain of USF.EMBO J, 13(1), 180-9 (1994)
Clackson et al.
Redesigning an FKBP-ligand interface to generate chemical dimerizers with novel specificity.PNAS, 95:10437–10442 (1998)
Ho et al.
Dimeric ligands define a role for transcriptional activation domains in reinitiationNature, 382:822-826 (1996)
Højfeldt et al.
Transforming ligands into transcriptional regulators: building blocks for bifunctional moleculesChem Soc Review, 40:4286–4292 (2011)
Filippakopoulos et al.
Selective inhibition of BET bromodomainsNature, 468:1067–1073 (2010)
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The End
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