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Computer-Aided Drug
Designing (CADD)
Aakshay Subramaniam
Aniketh Rao
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Bioinformatics
oAn application of Computer Science to biological and Drug Development science
oBioinformatics is the field of science in which biology, computer science, and information technology merge to form a single discipline
oThe ultimate goal of the field is to enable the discovery of new biological insights
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Classification
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Computer-Aided Drug Designing (CADD)
oComputer-Aided Drug Designing (CADD) is a
specialized discipline that uses computational
methods to simulate drug-receptor interactions
oCADD methods are heavily dependent on
bioinformatics tools, applications and databases
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R&D spending up, new drugs down
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Drug Discovery & Development
Identify disease
Isolate protein
involved in
disease (2-5 years)
Find a drug effective
against disease protein
(2-5 years)
Preclinical testing
(1-3 years)
Formulation &
Scale-up
Human clinical trials
(2-10 years)
FDA approval
(2-3 years)
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Bioinformatics Supports
CADD Research
Virtual High-Throughput Screening (vHTS)
Sequence Analysis
Homology Modeling
Similarity Searches
Drug Lead Optimization
Physicochemical Modeling
Drug Bioavailability and Bioactivity
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Virtual High-Throughput Screening (vHTS)
oThe protein targets are screened against databases of small-molecule compounds
oWith today’s computational resources, several million compounds can be screened in a few days on sufficiently large clustered computers
oThis method provides a handful of promising leads
e.g. ZINC is a good example of a vHTS compound library
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Sequence Analysis
o It is very useful to determine how similar or dissimilar the organisms are based on gene or protein sequences
oWith this information one can infer the evolutionary relationships of the organisms
oThere are many bioinformatic sequence analysis tools that can be used to determine the level of sequence similarity
e.g. DNA sequence analysis, gel electrophoresis
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Homology Modeling
oA common challenge in CADD research is determining the
3-D structure of proteins
oThe 3-D structure for only a small fraction of the proteins is
known
oBioinformatics software tools are then used to predict the 3-D
structure of the target based on the known 3-D structures of
the templates
oE.g. MODELLER
SWISS-MODEL Repository
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Similarity Searcheso A common activity in biopharmaceutical companies is the
search for drug analogues
o Starting with a promising drug molecule, one can search for chemical compounds with similar structure or properties to a known compound
o A variety of bioinformatic tools and search engines are available for this work
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Benefits of CADD
oThe Tufts Report suggests that the cost of drug discovery and development has reached $800 million for each drug successfully brought to market
oMany biopharmaceutical companies now use computational methods and bioinformatics tools to reduce this cost burden
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Benefits of CADDoVirtual screening, lead optimization and predictions of
bioavailability and bioactivity can help guide experimental
research
oOnly the most promising experimental lines of inquiry can be
followed and experimental dead-ends can be avoided early
based on the results of CADD simulations
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Benefits of CADDTime-to-Market:
oCADD has predictive power
o It focuses drug research on specific lead candidates and avoids potential “dead-end” compounds
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Benefits of CADDInsight:
oCADD provides a deep insight to the drug-receptor interactions acquired by the researchers
oMolecular models of drug compounds can reveal intricate, atomic scale binding properties that are difficult to envision in any other way
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The Thalidomide Tragedy
Structure of Thalidomide
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Structure of Penicillin
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Penicillin G Penicillin V
NafcillinMethicillin
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Identify disease
Isolate protein
Find drug
Preclinical testing
GENOMICS, PROTEOMICS & BIOPHARM.
HIGH THROUGHPUT SCREENING
MOLECULAR MODELING
VIRTUAL SCREENING
COMBINATORIAL CHEMISTRY
IN-VITRO & IN-SILICO ADME MODELS
Potentially producing many more targets
and “personalized” targets
Screening up to 100,000 compounds a
day for activity against a target protein
Using a computer to
predict activity
Rapidly producing vast numbers
of compounds
Computer graphics & models help improve activity
Tissue and computer models begin to replace animal testing
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CADD and bioinformatics together are
a powerful combination in drug
research and development.
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Research AchievementsoSoftware developed
oBioinformatics database developed
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Softwares developedoSVMProt: Protein function prediction software
http://jing.cz3.nus.edu.sg/cgi-bin/svmprot.cgi
o INVDOCK: Drug target prediction software
oMoViES: Molecular vibrations evaluation server
http://ang.cz3.nus.edu.sg/cgi-bin/prog/norm.pl
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Bioinformatics databases developedoTherapeutic target database
http://xin.cz3.nus.edu.sg/group/cjttd/ttd.asp
o Drug adverse reaction target databasehttp://xin.cz3.nus.edu.sg/group/drt/dart.asp
o Drug ADME associated protein databasehttp://xin.cz3.nus.edu.sg/group/admeap/admeap.asp
o Kinetic data of bio molecular interactions databasehttp://xin.cz3.nus.edu.sg/group/kdbi.asp
oComputed ligand binding energy databasehttp://xin.cz3.nus.edu.sg/group/CLiBE/CLiBE.asp
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