Scaffold design - chembiol.ttk.huchembiol.ttk.hu/ea/PMR2ea.pdf-A mixture of compounds (split and mix...
Transcript of Scaffold design - chembiol.ttk.huchembiol.ttk.hu/ea/PMR2ea.pdf-A mixture of compounds (split and mix...
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Scaffold design
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General
• Structurally well-defined host with atoms in an arranged array
• Receptors with special binding moieties
• Binding is governed by molecular recognition forces
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General
• Complementarity - the greater the degree of guest envelopement the greater the selectivity
• Sometimes high selectivity is not sought (a group af analyte is to be recognized)
• Amphipilicity (hydrophobic interor, hydrophilic exterior)
• Preorganization
• Convergence
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Complementarity
• Pairwise interactions between host and guest
• Adopts Fischer’s key-and lock principle
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Preorganization• Binding by flexible unorganized scaffolds is
entropically not favored
• Preorganization overcomes the entropy factor
• Structurally restricted scaffolds
• Dispute on too much rigidity / optimal angles etc.
• Induced fit (guest induced organization of bestgeometries)
• Strong interaction (high DH) vs. entropy
• Loose and flexible interaction not strong
• Balance between preorganization and induced fit
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Convergence
• Creation of concave cavity
• Macrocycles and clefts
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Design strategies
• de novo synthesis
– Former examples / decoration with new functions
– Intuition
– Modeling (computational)
– Gut instinct
• Combinatorial search
– Impart some minimal level of design
– Make a library of receptors and screen them
• Molecular imprinting
– Eliminates the need for choosing a scaffold
– Polimerization around the chosen analyte
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de novo synthesis of ligands
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Computational tools to model host-guest interactions
• Evaluate complementarity
• Predicting affinity / selectivity
• May reveal distances / geometries / strain
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Mining Minima algorithm (M2)
• Computes free-energy of binding
• Configuration energy is the sum of contribution
of low enegy conformations
• In conjunction with ConCept program to rank
potential receptor structures
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Mode Integration Algorithm (MINTA)
• Includes exhaustive conformational search to
identify low-energy conformers
• Calculates binding-free-energy
• Used for virtual screning of libraries
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The CAVEAT program
• Based on a vector relationship among bonds
• Searches 3D databases for templates
• Sorts the hits into group of structures with same
parent framework
• Need for searchable databases
- Cambridge Structural database (CSD)
- Chemical Abstract Services 3D database (CAS-
3D) – for chiral ligand searches
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Example for scaffold design with CAVEAT
• Scaffold is simplified to Me
• Me-Y(Y’) define vectors
• Identifies potential structures
displaying groups in desired
orientation
• Result is modified for
acessibility, synthesis etc
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Example for Glucose sensor design
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• Strongly polarized H-atom (H-donor)
• Lone pairs of N, F, O (H-acceptor)
• Residual positive and negative charges
• Reasons to form (electrostatic, or covalent bond??)
• Me-Ar is defined as vectors
• Structure of complex 4 was minimized (Hartree-Fock)
• A database for tricyclic CH’s was searched 5 (6)
• Structure was modified for stability, synthesis
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• Receptor was connected to a signaling unit
• 7 was found to be 100 fold selective for glucose vs
mannose, galactose etc.
• There are many other programs applying similar
strategies
• HostDesigner, OVERLAY, LINKER
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ConCept a receptor building program
• CONstruct reCEPTor
• Significantly different approach
• Relies less on user defined Host-Guest interactions
• Probes favorable interactions between defined guests
and building components selected from a library
• Defines non-polar and H-bonding interactions
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Summary of de novo receptor design
• Intuitive design is greatly facilitated by computing
programs and searches from defined databases
• Identifies possible scaffolds
• Requires pencil and paper for final structure design
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Combinatorial search for ligands
• Versatile tool originally used for drug discovery
• A large number of structurally related compounds
• Library can be
- A mixture of compounds (split and mix method)
- Individual compounds synthesized paralelly (e.g.
in 96 well plate each well contains one single
compound)
• High throughput screening methods are needed
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Library of mixtures – Split and mix method
• Árpád Furka (Hruby, Lam, Houghten)
• Originally developed for peptide libraries (solid
phase synthesis) but can be extended to systems
where properties can be added modularly (subunits)
• One bead one peptide principle
• Number of library members = Nb (N = number of
monomers, b = number of splitting cycles)
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Split and mix method
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Combinatorial strategies
• Target oriented approach
– Target is fixed
– Members of the library contain derivatives ofrecognition motifs
• Diversity oriented approach
– Library contains multipurpose collections ofpotential ligands
– Several analytes are tested
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Arrays of ligands
• Employs a collection of ligands
• Designed on the basis of certain recognition motifs
• Each leaves a fingerprint that can be combined
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Dynamic libraries
• Dynamic combinatorial chemistry (DCC)
• Connecting the building blocks using reversible
reactions
• Reversibility allows continuous interchange of
subunits (thermodinamic control)
• Analyte affects the equilibrium by shifting it
• Ligands with the highest affinity binding constant
will accumulate
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Dynamic library screening
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Molecular imprinting in ligand design
• Polimerization in the presence of a template
• Removal of the template leaves the binding site
complementary with the template
• Non-covalent, metal-ligand and covalent interactions
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Molecular imprinting in ligand design
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Advantages
• Rationally tailorable properties (vs. Modelling)
• Easy and cheap access (vs. antibodies)
• Excellent chemical, thermal and physical properties
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Disadvantages• Poor or moderate selectivities
– imprinting generates different types of binding
sites
– Binding site heterogeneity results in much
lower capacity than expected after the number
of template molecules
– less than 10 % of binding sites have high
affinities (works better at lower guest
concentrations)
– works better under non-aqueous media, but
water reduces non-specific binding (more
selective)
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Further Disadvantages
• Limited polimer formats
• Lack of inherent signaling mechanism
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Synthesis of MIPs
Monomer : with appropriate binding function; cross linker forms rigid matrix that
preserves shape; iniciator often a radical that induces reaction
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MIP for L-Phenylalanine
MAA = methacrylic acid
EGDMA = ethylene glycol
dimethacrylate
AIBN (iniciator) =
azobisisobutironitrile
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Functional Monomers for MIPs
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Signaling with MIPs
• Indirect method
- Radio / fluorescently labeled guest
• Direct method
- e.g. with special monomer
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Stoichiometry of complexes
• Method of continuous variation (Job’s method,
Job plot)
• Direct titration (at high affinities)
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Job’s method
• Different samples are made where H and G
are present in different molar fractions (e.g.
XH changes from 0 to 1, while XG changes
the opposite) – the total molar concentartion
of H and G is held constant
• A property change characteristic of binding
is measured (e.g. fluorescence, absorbance,
heat etc.) – system must obey Beer’s law
• The maximum of the plot indicates the
stoichiometry of the complex
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Job’s plot
H + G ↔ HG
H and G are not fluorescent,
HG is highly fluorescent
Fluorescence peaks where
the most HG is present
0.5 indicates 1:1 binding
stoichiometry
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Job’s plot
Shape of the Job plot
indicates the measure of
binding constant
The sharper the higher
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Job’s plot
Other stoichiometries…
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High affinity binders – titration method
Titrating H with G
Solution of G contains the
same concentration of H as
H solution (dilution factor)
For high Ka’s the curve is
saturation type with sharp
break
For Ka > 106 M-1