Fragment-based lead generation of reversible inhibitors for lysine-specific demethylases

Similar documents

BROMOscan Quantitative Ligand Binding Assays

STRUCTURE-GUIDED, FRAGMENT-BASED LEAD GENERATION FOR ONCOLOGY TARGETS

How To Understand Protein-Protein Interaction And Inhibitors

Lead generation and lead optimisation:

De novo design in the cloud from mining big data to clinical candidate

Academic Drug Discovery in the Center for Integrative Chemical Biology and Drug Discovery

Integrating Medicinal Chemistry and Computational Chemistry: The Molecular Forecaster Approach

Accelerating Lead Generation: Emerging Technologies and Strategies

Eudendron: an Innovative Biotech Start-up

Diabetes and Drug Development

Corporate Presentation November, 2013

Medicines for Neglected Diseases Workshop. Dennis Liotta, Ph.D. Director Emory Institute for Drug Discovery Atlanta, Georgia

Exelixis Showcases R&D Pipeline at JPMorgan Healthcare Conference

LEUKEMIA LYMPHOMA MYELOMA Advances in Clinical Trials

J.P. MORGAN 34TH ANNUAL HEALTHCARE CONFERENCE San Francisco, CA, USA January 11-14, 2016 NASDAQ: APTO TSX: APS

AP BIOLOGY 2008 SCORING GUIDELINES

Validated Cell-Based Assays for Rapid Screening and Functional Characterization of Therapeutic Monoclonal Antibodies

Making the most of academic drug target discoveries

A career on the science park

The Leading Gene Through Screen CRO

Building innovative drug discovery alliances. Evotec Munich. Quantitative Proteomics to Support the Discovery & Development of Targeted Drugs

博士論文 ( 要約 ) A study on enzymatic synthesis of. stable cyclized peptides which. inhibit protein-protein interactions

Pharmacology skills for drug discovery. Why is pharmacology important?

Call 2014: High throughput screening of therapeutic molecules and rare diseases

THE CANCER STEM CELL INHIBITORS VS-6063 AND VS-5584 EXHIBIT SYNERGISTIC ANTICANCER ACTIVITY IN PRECLINICAL MODELS OF MESOTHELIOMA

New epigenetic agents: therapeutic approach in cancer

Course Curriculum for Master Degree in Medical Laboratory Sciences/Clinical Biochemistry

Drug Safety of Stem Cells and other Novel Therapeutics

EVT Execute & EVT Innovate Leading drug discovery

Future Oncology: Technology, Products, Market and Service Opportunities

Catalysis by Enzymes. Enzyme A protein that acts as a catalyst for a biochemical reaction.

EVT Execute & EVT Innovate World-class drug discovery

Protein-responsive ribozyme switches in eukaryotic cells

PX Therapeutics : the partner for early stage biotherapeutics development Biotuesday, May

Biochemistry. Entrance Requirements. Requirements for Honours Programs. 148 Bishop s University 2015/2016

Version Module guide. Preliminary document. International Master Program Cardiovascular Science University of Göttingen

Early detection of breast cancer

Custom Antibodies & Recombinant Proteins

Daiichi Sankyo to Acquire Ambit Biosciences

Weill Graduate School of Medical Sciences of Cornell University Program in Pharmacology. Graduate School Curriculum

TECHNICAL INSIGHTS TECHNOLOGY ALERT

How To Use Berberine

8/20/2012 H C OH H R. Proteins

Analysis of structural dynamics by H/D-exchange coupled to mass spectrometry HDX-MS

Chapter 8: Energy and Metabolism

Lecture 4 Enzymes Catalytic proteins. Enzymes. Enzymes 10/21/10. What enzymes do therefore is:

New Advances in Cancer Treatments. March 2015

Energy & Enzymes. Life requires energy for maintenance of order, growth, and reproduction. The energy living things use is chemical energy.

Productive and promiscuous hits Biophysics/label free assays in hit discovery and verification

Crossing the drug development divide

Industry Perspective: Advantages of Open Access and Walkup LC/ MS Supporting Protein Drug Discovery and Development

Leading Innovation Efficiency Evotec Company Overview

Enzymes reduce the activation energy

Mechanism of hormone action

High throughput screening, high content screening, primary and stem cells. new techniques now converging

Preliminary MFM Quiz

Corporate Overview. Dr Robert Scoffin CEO. http;// STAND NUMBER: 27

Chapter 8. Summary and Perspectives

Automating Cell Biology Annual general meeting, September 7, Phase Holographic Imaging

Publikationsliste Claudia Götz

Achieving Regulatory Success: Areas of focus for biotechnology companies. Michael J. Schlosser, PhD, DABT April 21, 2013

High-Throughput Screening at The University of Chicago Cellular Screening Center. Sam Bettis Technical Director

Bispecific antibodies with native chain structure

Summary of Discussion on Non-clinical Pharmacology Studies on Anticancer Drugs

Course Curriculum for Master Degree in Medical Laboratory Sciences/Clinical Microbiology, Immunology and Serology

How To Understand Enzyme Kinetics

The Biological Basis of Cancer. Annie Young, Professor of Nursing, University of Warwick, University Hospitals Coventry and Warwickshire

12. November 2013 Jan Endell. From library to bedside: Potential of the anti-cd38 antibody MOR202 in combination therapy of multiple myeloma

Advanced BioDesign Outlines Solutions. Antibody Overview. by Advanced BioDesign. Project Start. Immunogenicity. Selecting Your Antigen

Problem Set 1 KEY

How many of you have checked out the web site on protein-dna interactions?

MATWIN Programme 2015 Support for the Proof of Concept Project Application Form

Contact Information Korea Health Industry Development Institute

STRATEGY PROGRAM NEXT LEVEL BERLIN, 9 JUNE 2016

How To Understand The Chemistry Of A 2D Structure

Acute Myeloid Leukemia Therapeutics Market to 2020

CHEM 451 BIOCHEMISTRY I. SUNY Cortland Fall 2010

Non-clinical development of biologics

The Need for a PARP in vivo Pharmacodynamic Assay

Interaktionen von RNAs und Proteinen

Control of Gene Expression

A disease and antibody biology approach to antibody drug discovery

KMS-Specialist & Customized Biosimilar Service

Transcription:

Fragment-based lead generation of reversible inhibitors for lysine-specific demethylases www.beactica.com Ulf Bremberg CSO Beactica AB Drug Discovery 2015 Elrig 3 Sept 2015

Presentation overview Beactica Drug Discovery and Epigenetics Academia / CROs / Biotech and Pharma collaborations finding an optimal blend Epigenetic programme KDM4C/JMJD2C (or KDM4X) Epigenetic programme LSD1/KDM1A 2 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

What is Beactica? Founded in 2006 by Dr Per Källblad and Prof. Helena Danielson based on research carried out at Uppsala University Molecular interactions, enzymology and drug design. Pioneered Fragment-Based Drug Discovery by SPR Dual business model Contract Research Collaborations and internal programmes Headquarters in Uppsala, Sweden 3 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Beactica s Target Class Experience Enzymes Kinases Proteases Polymerases Metalloenzymes Oxidoreductases Phosphodiesterases Histone demethylases Others Ion channels Nuclear receptors Protein protein interactions Antibodies Work in progress GPCRs Spurny et al. (2015) PNAS, 112(9):2543 2552 4 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Epigenetic Mechanisms Covalent Modifications of Histones and DNA Arrowsmith et al. (2012) Nat Rev Drug Disc 11, 384 5 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Lysine Demethylase (KDM) Family of Epigenetic Erasers Arrowsmith et al. (2012) Nat Rev Drug Disc 11, 384 Labbé et al. (2014) Am J Transl Res 6:1-15 6 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Beactica - Drug Discovery Pipeline Novel potentially first-in-class small molecule therapeutics in areas of unmet medical need Area (Mechanism) Assay development Hit identification Fragm. Lead Generation Lead Generation Lead Optimization Pre-Clinical Phase Clinical Phase I-III Cancer/Alzheimer's/Antiviral (LSD1/KDM1A) Cancer (KDM4X/JMJD2X) Exploratory projects 7 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Collaborating with Academia / CROs / Biotech and Pharma searching for an optimal blend www.beactica.com

Collaborations A small biotech perspective Organization Academia Advantages for small biotech Expertize, capabilities and publications Advantages for partner Publications, industrial collaboration and visibility Larger biotech / Pharma Expertize, capabilities and funding External innovation - access to unique technology / target / project / IP CRO Anything that pays but expertize and commitment necessary to stay in business Collaborations are based on personal trust, the organizations involved are secondary 9 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Fragment-Based Drug Discovery Programme KDM4C (or KDM4X) www.beactica.com

KDM4C (JMJD2C) An Epigenetic Oncology Target Proposed Indications: Cancer (e.g. breast cancer, medulloblastoma) Function: Regulates expression of tumour suppressor genes through demethylation of histones (H3K9, H3K36) Clinical Trials: None currently ongoing. Beactica s Programme: Reversible binders based on 4 different chemical series One series not binding to the metal in the active site Major challenge Selectivity! 11 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

KDM4C - Fragment screening campaign 2150 Compound fragment library 63 Screening hits SPR fragment screen SPR K D determination SPR Competition with reference compounds DSF analysis of hits Ligand-based fragment lead generation 3 Fragment lead series 1 Back-up series 12 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

KDM4C Series 1 Response (RU) 30 20 10 0-5 0 5 10 15 20 25 30 35 Time (s) Response (RU) 30 20 10 0 0 2 4 6 8 10 Conc (µm) Monodentate non-ionic ligands Lowest K D : 1.5 µm Highest LE: 0.81 MW lowest K D : 210 Da High ligand efficency X-ray structure 13 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Most literature inhibitors are chelators CH 3 O O OH N H N O N N NH O N N N N OH N JIB-04 KDM4A = 0.44 µm KDM4B = 0.43 µm KDM4C = 1.1 µm KDM4D = 0.3 µm KDM4E = 0.34 µm Cl Compound 7 KDM4E = 6.6 µm O OH O 2,4-PDCA KDM4A = 0.6 µm KDM4E = 1.1 µm N OH GSK-J1 KDM4A = 0.050 µm KDM4B = 0.073 µm KDM4C = 0.034 µm (not cell active) N Heinemann et al, Nature 2014 Thinnes et al, BioChemBiophysActa 2014 Labbe et al, AmJTranslRes 2014 14 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Beactica Co-crystal Structures 3 chemical series (blue, green, red) in total 5 co-crystal structures Nickel (white) instead of Fe 2.4-2.8 Å resolutions No chelators (0-1 bonds to metal) In collaboration with Saromics AB 15 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

KDM4C Selectivity targets KDM4A/4B (and more) [Animation not available] KDM4A (3RVH) in blue KDM4B (4LXL) in brown KDM4C (4XDO) in silver The largest differences ~7Å from the iron core Selective inhibitors will be challenging to develop, but may not be required in oncological indications Pilka et al, Drug Discovery Today, 2015 16 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

KDM4X summary Fragment-based drug discovery programme, currently in fragment lead generation Multiple diverse series in development from fragment hits Reversible catalytic site inhibitors Focus on non-chelating, non-ionic series Parallel SPR evaluation with KDM4A/B/C Beactica is searching for a partner to sponsor the research with a future option to licence the programmes Crystal structure of Beactica compound bound to KDM4C 17 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

Fragment-Based Drug Discovery Programme LSD1 www.beactica.com

LSD1 (KDM1A) An Epigenetic Oncology Target Proposed Indications: Cancer (e.g. AML, Bladder, Colorectal, Breast, Liver, Lung, Prostate, Glioblastoma), Alzheimer, Viral infection Function: Regulates expression of disease-related genes through demethylation of histones (H3K4, H3K9) Clinical Trials: Currently five ongoing studies, all in oncology with irreversible inhibitors Beactica s Programme: Reversible inhibitors based on 3 5 different chemical series Allosteric binders with potentially orthogonal modulation of enzyme activity 19 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 Enzyme structure [Animation not available] 4KUM, Luka et al LSD1 and CoREST Stavropoulos et al, NatStructMolBiol 2006 20 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 Mechanism of H3K4 demethylation Stavropoulos et al, NatStructMolBiol 2006 21 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 Function depending on protein complex context Amente et al, BiochimBiophysActa 2013 22 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 An important part of the emerging epigenetic puzzle Ooi et al, Nature Reviews Genetics 2007 Bhan et al, BiochimBiophysActa 2015 Pilotto et al. PNAS 2015 23 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 Ongoing clinical trials GlaxoSmithKline in Phase I/II with GSK2879552 (Relapsed/refractory AML patients) GlaxoSmithKline in Phase I/II with GSK2879552 (Relapsed/refractory SCLC patients) University of Miami in Phase I/II with tranylcypromine + ATRA (AML and MDS patients) Martin-Luther-Universität Halle-Wittenberg in Phase I/II with ATRA+tranylcypromine (Relapsed/refractory AML patients) Oryzon in Phase I with ORY-1001 (Relapsed/refractory AL) From Clinicaltrials.gov and Clinicaltrialsregister.eu the 17 th of August, 2015 24 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 - Ligand-based Fragment Lead generation 1946 Compound fragment library - SPR fragment screen - SPR K D determination 1000 12 screening hits - SPR Identification of binding site by competition with reference compounds - DSF analysis of hits - Inhibition analysis hits Lowest KD (µm) 100 10 1 0 100 200 Series 1 Series 3 Series 5 - Ligand-based Fragment lead generation 0.1 Number of tested analogues 3 Fragment lead series 2 Back-up series 25 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 Prioritized series Response (RU) Response (RU) 110 90 70 50 30 10 0 10 20 30 40 50 Conc (µm) 120 100 80 60 40 20 0-20 -5 0 5 10 15 20 25 30 35 Time (s) Series 1 Active site ligands Lowest K D : 2.7 µm Highest LE: 0.34 MW lowest K D : 330 D Response (RU) 40 30 20 10 Response (RU) 0 40 30 20 10 0 0 1 2 3 4 5 Conc (µm) -5 0 5 10 15 20 25 30 35 Time (s) Series 3 Active site ligands Lowest K D : 380 nm Highest LE: 0.36 MW lowest K D : 370 D Response (RU) Response (RU) 80 60 40 20 0 0 100 200 300 400 500 Conc (µm) 80 40 50 60 70 30 10 20 0-5 0 5 10 15 20 25 30 35 Time (s) Series 5 Allosteric series Lowest K D : 16 µm Highest LE: 0.38 MW lowest K D : 250 D Enzymatic inhibition does not correlate with affinity 26 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 Difficult to crystallize Any answers from Thermodynamics? 30 Series 1 Series 3 Base Neutral Acid Base Neutral Acid 20 10 Van t Hoff analysis kj/mol 0-10 -20 Cmp01 Cmp02 Cmp03 Cmp04 Cmp05 Cmp06 dh (kj/mol) TdS (kj/mol) dg (kj/mol) -30-40 -50-60 27 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 - Crystallography changes the game Catalytic site binders (Series 1 and 3) Allosteric site binders (Series 5) [Animation not available] [Animation not available] Resolution 2.41-2.65 Å In collaboration with Proteros GmbH 28 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 Inhibitor Evaluation in Cells and In Vivo Established link with Tim Somervaille at the Cancer Research UK Manchester Institute Haematologist with focus on leukaemia Cellular screening facility Validated LSD1 as candidate therapeutic target in AML Assays Cell-based assays to evaluate LSD1 inhibitors as potential drugs against e.g. AML Lynch et al. (2013) CD86 expression as a surrogate cellular biomarker for pharmacological inhibition of the histone lysine-specific demethylase, Analytical Biochemistry, 442:104 106. Harris et al. (2012) The Histone Demethylase KDM1A Sustains the Oncogenic Potential of MLL-AF9 Leukemia Stem Cells, Cancer Cell, 21:473 487 Primary cell materials - evaluated in vitro or by xenograft 29 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 and CoREST - Allosteric binders Beactica allosteric series binds at the hingeregion of the tower domain, essential for protein-complex formation [Animation not available] Potential protein-protein interaction inhibitor of CoREST / ER / AR / PKC Major challenges Evaluation with relevant assays Choosing indication 30 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

LSD1 - Summary Fragment-based drug discovery programme, currently in lead generation Multiple diverse series in development from fragment hits Validated in three different assays Reversible interaction mechanism Catalytic site inhibitors and allosteric binders Allosteric binders offer a potentially orthogonal mechanism of action [Structure not available] Beactica is searching for a partner to sponsor the research with a future option to licence the programmes Crystal structure of Beactica allosteric binder with LSD1 31 Drug Discovery 2015 Elrig 3 Sept 2015 Ulf Bremberg, CSO

www.beactica.com