Catalytic in vivo protein knockdown - UZH18fbe419-78c0-43c8-bed5... · 2017. 3. 1. · dBET1:...
Transcript of Catalytic in vivo protein knockdown - UZH18fbe419-78c0-43c8-bed5... · 2017. 3. 1. · dBET1:...
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Catalytic in vivo protein knockdown
Technical Journal Club
Mario Nuvolone
November 15th 2016
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www.tokresource.com
Current inhibitory‐based pharmacologic approach
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Limitations of inhibitory‐based pharmacologic approach
1) Limited to proteins with tractable ligand binding site
→ Limited drug space (≈25% of human proteome)
2) Need to maintain high systemic exposure for high in vivo inhibition
3) Potential off‐target binding and unwanted side effects
Toure & Crews. Angew Chem Int Ed 2016Ohoka et al. Curr Cancer Drug Targets 2016
DRUGGABLE: ReceptorsEnzymes
UNDRUGGABLE: Transcription factorsScaffolding proteins
Other non‐enzymatic proteins≈25%
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Alternatives approaches
1)Gene knockdown
2) Protein knockdown
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Alternatives approaches I: Gene knockdown
1) Based on anti‐sense oligonucleotides (ASOs) or RNA interference (RNAi)
2) Aims at decreasing translation of transcripts from disease‐causing genes
Wacheck & Zangemeister‐Wittke. Crit Rev Hematol Oncol 2006
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Limitations of Gene knockdown
Toure & Crews. Angew Chem Int Ed 2016Ohoka et al. Curr Cancer Drug Targets 2016
1) Pharmacokinetics profile:
• Limited stability of double‐ stranded RNA for RNAi
• ASOs preferentially accumulate in the liver
2) Off‐target issues
3) Requires time to achieve efficient knockdown (especially for target proteins with long half‐life)
→ Limited therapeu c applica ons
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1) PROTACs
2) Phtalimide conjugation
Protein knockdown
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Alternatives approaches II: PROTAC‐based Protein knockdown
Toure & Crews. Angew Chem Int Ed 2016Ohoka et al. Curr Cancer Drug Targets 2016
PROTAC: PROteolysis TArgeting Chimeras
1) Based on heterobifunctional compounds (named PROTAC) with:
• Ligand specific to the Protein Of Interest (POI)
• Linker
• Ligand specific to an E3 ligase
2) Favours the formation of a ternary complex:POI – PROTAC – E3
3) E3 ligase poly‐ubiquitilates the POI, leading to proteasome‐mediated degradation of POI
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Protac‐1
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Main result:First proof‐of‐concept for the PROTAC technology
Caveat:No cell permerability due to peptidic E3‐recruiting moiety of PROTAC‐1
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Ohoka et al. Curr Cancer Drug Targets 2016
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George & Kaelin New Engl J Med 2003
Von Hippel Lindau (VHL) – Hypoxia inducible factor 1 α (HIF1α)
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Development of potent small‐molecule inhibitors of the interaction between VHL and HIF1α
Buckley et al. J Am Chem Soc 2012Buckley et al. Angew Chem Int Ed Engl 2012
Small molecule inhibitors of VHL– HIF1α interaction
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linker
linker
ERRα ligand
RIPK2 ligand
VHL ligand
VHL ligand
VHL ligand designed based on previous structural studiesKd: 320 nM
Small molecule PROTACs: overview
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PROTAC_ERRα: design
VHL ligandlinkerERRα ligand
ERRα:(Estrogen‐related receptor α)‐ Orphan nuclear hormone receptor‐ Master regulator of cellular energy homeostasis
ERRα ligand:‐ Thiazolinedione‐based‐ Selective for binding to ERRα over other ERR isoforms‐ Not able to degrade ERRα alone
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PROTAC_ERRα: functionality
Epi: PROTAC_ERRα epi (inverted stereochemistry at *)Epoxomicin: Proteosome inhibitor
In MCF‐7 breast cancer cell line
PROTAC and proteasome requiredDC50 of PROTAC_ERR : ≈ 100 nM
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PROTAC_RIPK2: design
VHL ligandlinkerRIPK2ligand
RIPK2:‐ Serine‐threonine kinase‐ Important mediator of innate immune signaling‐ Involved in NF‐κB and MAPK activation‐ Implicated in Blau syndrome and sarcoidosis
RIPK2 ligand:‐ Modification of a previously identified inhibitor‐ Optimized through study of structure‐activity relationship
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PROTAC_RIPK2: functionality I
→ Biphasic response
In THP‐1 human monocyte cell line
→ DC50 of PROTAC_RIPK2 : ≈ 1.4 nM
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PROTAC_RIPK2: functionality II
In THP‐1 human monocyte cell line
PROTAC and proteasome requiredRIPK2 ligand and VHL ligand alone insufficient
Early degradation(RIPK2 half life is ≈60h)
RIPK2 levels recover after PROTAC washout
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PROTAC: specificity of VHL ligandChemoproteomic pulldown with VHL ligand
Member of the VHL complex are the only major targets of VHL ligandLTF: unspecific binding, also with the control, inactive VHL ligand
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PROTAC: ternary complex IImmunoprecipitation of VHL from THP‐1 lysatesMultiplex quantitative MS analysis with isobaric mass tags (TMT10 labels)
In the presence of PROTAC_RIPK2, not PROTAC_RIPK2_epi, there is co‐immunoprecipitation ofVHL and RIPK2
Biphasicresponse
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PROTAC: ternary complex IIIn vitro ubiquitination of radiolabelled RIPK2Quantification through PAGE/autoradiography and liquid scintillation of excised bands
PROTAC required for ubiquitinationBiphasic response
Sub‐stoichiometric catalysis
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PROTAC: catalytically active
PROTAC is unaltered andcan «recycle» further
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PROTAC_RIPK2: specificity for RIPK2 degradationCellular expression proteomicsTHP‐1 treated with PROTAC_RIPK2, PROTAC_RIPK2_epi or RIPK2 alone
≈7000 quantified proteins
Only RIPK2 and the unrelated MAPKAPK3 were underrepresented in PROTAC_RIPK2 treated cells
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PROTAC_ERRα: specificity for ERRα degradationCellular expression proteomicsMCF‐7 treated with PROTAC_ERRα or PROTAC_ERRα_epi
≈7000 quantified proteins
Only ERRα and the unrelated BCR were underrepresented in PROTAC_ERRα treated cells
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PROTAC_ERRα: in vivo activity
In mice bearing MDA‐MB‐231 tumorsPROTAC_ERRα (100 mg/Kg) or vehicle, 3x daily, i.p.
Reduced ERRα levels in different tissues of PROTAC_ERRα‐treated mice
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1) PROTACs
2) Phtalimide conjugation
Protein knockdown
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Bartlett et al. Nat Rev Cancer 2004Rehman et al. Ther Adv Hematol 2011
Thalidomide: the rise and fall… and rise
‐ Synthetic glutamic‐acid derivative
‐ Sedative and anti‐emetic activity
‐ Prescribed also to pregnant women for morning sickness
‐ In 1961, reports of birth defects led to market withdrawal
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Rehman et al. Ther Adv Hematol 2011
Thalidomide: the rise and fall… and rise
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Thalidomide binds to cereblon (CRBN), a component of a cullin‐RING ubiquitin ligasecomplex
CRBN binding mediates thalidomideteratogenicity
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BRD4 as a target
‐ Transcriptional coactivator
‐ Binds to acetylated Lys of:• histone proteins• transcription factors
‐ Its downregulation leads:• MYC downregulation• antiproliferation response
‐ Implicated in:• Cancer• Inflammation• Heart disease
‐ Desireble target for selective degradation
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dBET1 to target BRD4
→ dBET1 was designed to have preserved BRD4 and
JQ1 displaces BRD4 from chromatinCarboxyl group tolerates chemical substitution
Thalidomide binds CRBN ligaseAryl ring tolerates chemical substitution
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dBET1 binding to BRD4: affinityBRD4 displacement assay
→ dBET1, not the stereochemical control dBET1(R), has preserved BRD4 binding
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dBET1 binding to BRD4: structure
High‐resolution crystal structure (1.0 Å) of dBET1 bound to BRD4:
Molecular recognition similar to JQ1
Docking of D into published structureof CRBN bound to thalidomide:
dBET1 can bridge BRD4 and CRBN without destructive steric interactions
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dBET1 binding to BRD4: ternary complex formationHomogeneous proximity assayLuminescence arises from proximity of CRBN complex and BRD4‐bound acceptor beads
Biphasic responseFree JQ1 or thalidomide inhibits ternary complex formation in a stereospecific manner
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dBET1: effect on cellsIn MV4;11 cells (human AML cell line)
Half maximal effective dose (EC50): 430 nMdBET1(R) inactive
Early degradationPartial recovery of BRD4 levels at 24h: dBET1 instability?
RIPK2 levels
In SUM149 cells (human breast cancer cell line)Based on cell‐count normalized, high‐content assay
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dBET1: mechanism of actionIn MV4;11 cells (human AML cell line)
dBET1 and proteasome required
Pre‐treatment with JQ1 or thalidomide prevent dBET1‐mediated BRD4 downregulation→ Requirement for both BRD4 and CBN engagement
dBET1‐mediated BRD4 downregulation is CRBN‐dependent
Carfilzomib: proteasome inhibitor
In MM1.S cells (human MM cell line, either WT or CRBN‐/‐)
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dBET1: specificityCellular expression proteomicsMV4;11 treated with dBET1, JQ1, or vehicle for 2 hMultiplex quantitative MS analysis with isobaric mass tags
vs vehicle vs vehicle
JQ1 resulted in MYC and PIM1 downregulation
dBET1 resulted in MYC, PIM1 and BRD2, 3 and 4 downregulation
Changes in BRD4 at protein, not transcript level, as confirmed by immunoblot andRT‐PCR
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dBET1: anti‐proliferative response in vitro
dBET1 treatment results in increased apoptosis with respect to JQ1 in different cell lines and in primary AML blasts
MV4;11 cells: human AML cell lineDHL4: human lymphoma cell line
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dBET1: anti‐proliferative response in vivo I
dBET1 treatment results in reduced tumor mass, BRD4/MYC levels and proliferation
Murine hind‐limb xenograft model of MV4;11 AMLdBET (50 mg/kg) or vehicle 1x day i.p. for 14 d
Murine disseminated leukemia MV4;11 AML modeldBET or JQ1 (both at 63.8 µmol/kg) or vehicle 1x day i.p. for 19 d
dBET1 and JQ1 treatments result in reduced tumor burden
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Catalytic in vivo protein knockdownAdvantages:
‐ Potentially applicable to broad spectrum of endogenous proteins‐ Catalytic activity makes PROTACs more potent than the target‐bindingproteins from which they are derived
‐ Slower recovery from inhibition, because de novo synthesis of thetarget is required
Disadvantages:‐ PROTAC linker lenght and composition have to be optimized for each
target‐ Limited to cytosolic proteins (?)‐ Possible poor oral bioavailability of PROTACs
Bondeson et al. Nat Chem Biol 2015Winter et al. Science 2015Deshaies. Nat Chem Biol 2015Toure & Crews Angew Chem Int Ed 2015Ohoka et al. Curr Cancer Drug Targets 2016
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