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Antisense Approach to Target MDR Tuberculosis Diane Meas Michael Nguyen Michael DeSalvio Michael Boateng-Antwi Agenda • Introduction & Objectives • Background & Significance o o Overview of MDR TB Impact and Importance • Research Design & Methods o o o Previous studies and findings Mechanism to new approach Assay Methods • Conclusion Introduction • TB – Overview o o o o o o Infectious airborne disease caused by Mycobacterium tuberculosis 2009 incident cases 9.4 million 2009 prevalent cases 14 million Mortality: - 1.8 million Funding : $5 billion Estimated Funding for 2011: $6 billion (source: WHO Global TB Report, 2010) TB – Global Distribution Interventions • Anti-TB drugs (www.cdc.gov/tb/publications) o o Frontline: rifampicin, isoniazid, pyrizinamide, and ethambutol Second line: fluoroquinolones, amikacin, kanamycin, or capreomycin • Drug Resistance: 250,000 reported (WHO-TB, 2010) • Options for Disease control o o Development of new line of drugs Reversal of drug resistance • Antisense Technology Objectives • Design an antisense molecule against a gene in mycobacterium. • Develop in vitro assay to test the maximum effect of antisense molecule in mycobacterium Background & Significance Antibiotics Mechanism of Action (Michel J. Cloutier2, 1995) • Protein Synthesis • Folate Metabolism • Cell wall Synthesis • Cell Membrane • DNA gyrase • DNA-directed RNA-polymerase Background and Significance Mechanisms of Antibiotic Resistance (Morris et al, 1995) • Antibiotic modification by bacterial enzymes • Preventing the antibiotic from entering the cell or pumping it out (efflux) faster than it can flow in. • Production of an alternative target (usually an enzyme) that is resistant to inhibition • Alterations in the primary site of action Background & Significance β-lactam antibiotics • broad class of drugs with β-lactam ring as nucleus of molecular structure • Inhibit 4 – 8 enzymes (PBP) engaged in cell wall biosynthesis. β-lactamases cleave βlactam ring in antibiotic to make drug ineffective 1. Penicillin 2. Cephalosporin Red Structure - β-lactam core ring Antisense Overview • • • • Made up of RNA Generally short strands Complementary to the mRNA strand Intercept and bind mRNA o o Prevent Translation No Gene Expression! http://cdn.venturebeat.com/wp-content/uploads/2007/11/800px-antisense_dna_oligonucleotide.jpg Antisense Treatments • Used to treat various treatments o o o o o Cytomegalovirus retinitis Hemorrhagic fever viruses Cancer (TGF-beta2) HIV/AIDS High cholesterol (mipobersen, 2010 ph-IV) Proof of Principle • Harth et.al: Used phophorothioate-modified oligodeoxyribonucleotides (PS-ODNs) o targeted mycolyl transferases to inhibit essential genes o Proof of Principle • Harth et.al: o Saw a reduction in antigen 85A, 85B and 85C (Refered to as 32A, 30 and 32B) Reduction in expression also reduced bacterial growth Demonstrated successfully that antisense strategy is effective Successfully inhibited growth in M. tuberculosis (human) Proof of Principle • Dasgupta et al: o o o Knocked out Penicillin Binding Proteins (PBPA) serine acyl transferases involved in cell wall expansion, cell shape maintenance, septum formation and cell division Relied on mutation of PknB precursor proteins responsible for the phosphorylation of the PBPA Inactivation of PnkB results in no phosphorylation of PBPA Cell death Current Solutions • Clavulanic Acid o o o o o GlaxoSmithKline B-lactamase inhibitor Competitive inhibition Binds to active site, causing irreversible covalence Derived from S. clavuligerus Concurrent Administration with Amoxicillin Current Solutions • Adverse Effects! o o o o Increased Cholestatic Jaundice Acute hepatitis Some microbial resistance Allergy Midpoint Recap • Rifampicin resistance in M. tuberculosis • PS-ODNs and gene knockouts were shown as effective means of bypassing drug resistance and restore drug sensitivity to microorganism • Current approach can develop serious side effects • New Antisense approach will have reduced side effects Overview of PknB Proposal • PknB prevents the synthesis of PBPA (penicillin binding protein) • PknB phosphorlyates b-lactamase for insertion into the cell membrane o No PknB means no lactamase expression • Antisense mRNA peptide nucleotides (PNAs) bind to the active site of PknB and prevent PknB synthesis by steric hindrance • Downstream effects would be the loss of B-lactamase synthesis leading drug sensitivity • No b-lactamase may also weaken cell wall structure leading to cell death Research Design & Methods • Target other essential genes: Target a Serine/ Threonine protein kinase (STPK) o PknB o Indirectly affects synthesis of B-Lactamases o Effectively causes bacteria to be sensitive to B-Lactam Class antibiotics o Gene Identification • PknB = transmembrane serine/threonineprotein kinase B • From M. tuberculosis H37Rv Nucleotide Sequence ATGACCACCCCTTCCCACCTGTCCGACCGCTACGAACTTGGCGAAATCCTTGGATTTGGGGGCATGTCCGAGGT CCACCTGGCCCGCGACCTCCGGTTGCACCGCGACGTTGCGGTCAAGGTGCTGCGCGCTGATCTAGCCCGCGATC CCAGTTTTTACCTTCGCTTCCGGCGTGAGGCGCAAAACGCCGCGGCATTGAACCACCCTGCAATCGTCGCGGTC TACGACACCGGTGAAGCCGAAACGCCCGCCGGGCCATTGCCCTACATCGTCATGGAATACGTCGACGGCGTTAC CCTGCGCGACATTGTCCACACCGAAGGGCCGATGACGCCCAAACGCGCCATCGAGGTCATCGCCGACGCCTGCC AAGCGCTGAACTTCAGTCATCAGAACGGAATCATCCACCGTGACGTCAAGCCGGCGAACATCATGATCAGCGCG ACCAATGCAGTAAAGGTGATGGATTTCGGCATCGCCCGCGCCATTGCCGACAGCGGCAACAGCGTGACCCAGAC CGCAGCAGTGATCGGCACGGCGCAGTACCTGTCACCCGAACAGGCCCGGGGTGATTCCGTCGACGCCCGATCCG ATGTCTATTCCTTGGGCTGTGTTCTTTATGAAGTCCTCACCGGGGAGCCACCTTTCACCGGCGACTCACCCGTC TCGGTTGCCTACCAACATGTGCGCGAAGACCCGATCCCACCTTCGGCGCGGCACGAAGGCCTCTCCGCCGACCT GGACGCCGTCGTTCTCAAGGCGCTGGCCAAAAATCCGGAAAACCGCTATCAGACAGCGGCGGAGATGCGCGCCG ACCTGGTCCGCGTGCACAACGGTGAGCCGCCCGAGGCGCCCAAAGTGCTCACCGATGCCGAGCGGACCTCGCTG CTGTCGTCTGCGGCCGGCAACCTTAGCGGTCCGCGCACCGATCCGCTACCACGCCAGGACTTAGACGACACCGA CCGTGACCGCAGCATCGGTTCGGTGGGCCGTTGGGTTGCGGTGGTCGCCGTGCTCGCTGTGCTGACCGTCGTGG TAACCATCGCCATCAACACGTTCGGCGGCATCACCCGCGACGTTCAAGTTCCCGACGTTCGGGGTCAATCCTCC GCCGACGCCATCGCCACACTGCAAAACCGGGGCTTCAAAATCCGCACCTTGCAGAAGCCGGACTCGACAATCCC ACCGGACCACGTTATCGGCACCGACCCGGCCGCCAACACGTCGGTGAGTGCAGGCGACGAGATCACAGTCAACG TGTCCACCGGACCCGAGCAACGCGAAATACCCGACGTCTCCACGCTGACATACGCCGAAGCGGTCAAGAAACTG ACTGCCGCCGGATTCGGCCGCTTCAAGCAAGCGAATTCGCCGTCCACCCCGGAACTGGTGGGCAAGGTCATCGG GACCAACCCGCCAGCCAACCAGACGTCGGCCATCACCAATGTGGTCATCATCATCGTTGGCTCTGGTCCGGCGA CCAAAGACATTCCCGATGTCGCGGGCCAGACCGTCGACGTGGCGCAGAAGAACCTCAACGTCTACGGCTTCACC AAATTCAGTCAGGCCTCGGTGGACAGCCCCCGTCCCGCCGGCGAGGTGACCGGCACCAATCCACCCGCAGGCAC CACAGTTCCGGTCGATTCAGTCATCGAACTACAGGTGTCCAAGGGCAACCAATTCGTCATGCCCGACCTATCCG GCATGTTCTGGGTCGACGCCGAACCACGATTGCGCGCGCTGGGCTGGACCGGGATGCTCGACAAAGGGGCCGAC GTCGACGCCGGTGGCTCCCAACACAACCGGGTCGTCTATCAAAACCCGCCGGCGGGGACCGGCGTCAACCGGGA CGGCATCATCACGCTGAGGTTCGGCCAGTAG Amino Acid Sequence MTTPSHLSDRYELGEILGFGGMSEVHLARDLRLHRDVAVKVLRADLARD PSFYLRFRREAQNAAALNHPAIVAVYDTGEAETPAGPLPYIVMEYVDGV TLRDIVHTEGPMTPKRAIEVIADACQALNFSHQNGIIHRDVKPANIMIS ATNAVKVMDFGIARAIADSGNSVTQTAAVIGTAQYLSPEQARGDSVDAR SDVYSLGCVLYEVLTGEPPFTGDSPVSVAYQHVREDPIPPSARHEGLSA DLDAVVLKALAKNPENRYQTAAEMRADLVRVHNGEPPEAPKVLTDAERT SLLSSAAGNLSGPRTDPLPRQDLDDTDRDRSIGSVGRWVAVVAVLAVLT VVVTIAINTFGGITRDVQVPDVRGQSSADAIATLQNRGFKIRTLQKPDS TIPPDHVIGTDPAANTSVSAGDEITVNVSTGPEQREIPDVSTLTYAEAV KKLTAAGFGRFKQANSPSTPELVGKVIGTNPPANQTSAITNVVIIIVGS GPATKDIPDVAGQTVDVAQKNLNVYGFTKFSQASVDSPRPAGEVTGTNP PAGTTVPVDSVIELQVSKGNQFVMPDLSGMFWVDAEPRLRALGWTGMLD KGADVDAGGSQHNRVVYQNPPAGTGVNRDGIITLRFGQ Kinase Domain RNA Active Site w/ Domains UACGAACUUGGCGAA CUCCGGUUGCACCGC AGUUUUUACCUUCGC AUCGUCGCGGUCUAC GUCAUGGAAUACGUC ACGCCCAAACGCGCC CAGAACGGAAUCAUC GCAGUAAAGGUGAUG ACCCAGACCGCAGCA GAUUCCGUCGACGCC ACCGGGGAGCCACCU GAAGACCCGAUCCCA GUUCUCAAGGCGCUG GCCGACCUGGUC AUCCUUGGAUUUGGG GACGUUGCGGUCAAG UUCCGGCGUGAGGCG GACACCGGUGAAGCC GACGGCGUUACCCUG AUCGAGGUCAUCGCC CACCGUGACGUCAAG GAUUUCGGCAUCGCC GUGAUCGGCACGGCG CGAUCCGAUGUCUAU UUCACCGGCGACUCA CCUUCGGCGCGGCAC GCCAAAAAUCCGGAA GGCAUGUCCGAGGUC GUGCUGCGCGCUGAU CAAAACGCCGCGGCA GAAACGCCCGCCGGG CGCGACAUUGUCCAC GACGCCUGCCAAGCG CCGGCGAACAUCAUG CGCGCCAUUGCCGAC CAGUACCUGUCACCC UCCUUGGGCUGUGUU CCCGUCUCGGUUGCC GAAGGCCUCUCCGCC AACCGCUAUCAGACA CACCUGGCCCGCGAC CUAGCCCGCGAUCCC UUGAACCACCCUGCA CCAUUGCCCUACAUC ACCGAAGGGCCGAUG CUGAACUUCAGUCAU AUCAGCGCGACCAAU AGCGGCAACAGCGUG GAACAGGCCCGGGGU CUUUAUGAAGUCCUC UACCAACAUGUGCGC GACCUGGACGCCGUC GCGGCGGAGAUGCGC Efficiency of PNA • PNA stands for peptide nucleic acids • Antisense PNAs are larger than most drugs PNA size/length is an important parameter for efficiency o PNAs targeted to the start codon region of the chromosomal β-galactosidase gene (lacZ) were synthesized over 7- to 15-mer size range o • E. coli outer cell wall is a major barrier to PNAs, so need to find a more efficient technique Concentrations of PNA (100nM – 500nM) Concentrations of PNA (1mM – 5mM) Efficiency of the KFFKFFKFFK cap • Also expressed as (KFF)3K • This is a synthetic peptide and it is a cell wall-permeating peptide • When this cap is conjugated to PNA oligomers, it could enhance the uptake and efficiency of antisense PNAs Efficacy of Cap Peptide Peptide Nucleic Acids • Outperforms Oligonucleotides • 7-15 mer lengths • Capped with KFFKFFKFFK – synthetic molecule shown to increase PNA uptake into cell • PNA immune to exonuclease activity Comparison of Nucleotides mRNA and its Antisense PNA 5’-GACGUUGCGUCAAGGUGUCUGCGCGCUGAU-3’ 3’-CUGCAACGCAGUUCGACAGACGCGCGACUA-CAP-5’ 5’-CACCGUGACGUCAAGCCGGCGAACAUCAUG-3’ 3’-GUGGCACUGCAGUUCGGCCGCUUGUAGUAC-CAP-5’ 5’-GCAGUAAAGGUGAUGGAUUUCGGCAUCGCC-3’ 3’-CGUCAUUUCCACUACCUAAAGCCGUAGCGG-CAP-5’ 5’-AGCGGCAACAGCGUGACCCAGACCGCAGCA-3' 3’-UCGCCGUUGUCGCUCUGGGUCUGGCGUCGU-CAP-5’ 5’-AGAUAGCGCAAUGACCACCCCUUCCCACCU-3’ 3’-UCUAUCGCGUUACUGGUGGGGUUGGGUGGA-CAP-5’ Whole Cell Assay • • • • • BioSafety Level 1 Mycobacteria smegmatis Middlebrook 7H9 Broth Media Middlebrook 7H10 Agar Media β-Lactam Antibiotic Library Assay Method • • • • • • • • Grow Mycobacteria for 7 days @ 35oC in 7H9 Take OD reading (A600) Transfer culture to 96-well plates Screen against various PNAs (going across) Vary concentrations of PNAs (doing down) Screen multiple B-lactam class antibiotics HTS Method 2-Day OD readings (up to 8 weeks) o Can change depending on growth rate Assay Plate A 1 2 3 4 5 6 7 8 9 10 11 12 Buffer PNA1 10 nM PNA2 PNA3 PNA4 PNA5 PNA6 PNA7 PNA8 PNA9 PNA10 Clavulanic Acid B 1:2 C 1:4 D 1:8 E 1:16 F 1:32 G 1:64 H 0 nM - One B-lactam antibiotic treated across entire plate - Every well contains M. smegmatis Antibiotics: Beta-Lactams • Glycopeptides – Vancomycin, Teicoplanin • Penicillins – Amoxicillin, Ampicillin, Azlocillin, Mecillinam – Benzylpenicillin, Clometocillin – *Cloxacillin, *Oxacillin, *Nafcillin (*B-lactamase resistant) • Cephalosporins – Cefazolin, Cefapirin, Ceftezole – Cefamandole, Cefprozil, Cefminox – Cefixime, Ceftrixone, Cefpimizole – Ceftiofur • Monobactams – Aztreonam, Tigemonam Expected Results • No effect on Proliferation in Buffer wells • Reduction in Mycobacteria growth over time on PNA wells • Higher concentration PNA results in lower OD • Clavulanic Acid shows greatest change in growth Future Studies • Select Promising PNAs for additional screening • Screen Against other microorganisms • Design PNAs for other essential genes or pathways Contingency Assays In the event Mycobacteria does not grow in 96-well plate or detection is poor: Large Scale Assay • Assay repeated using tubes of 7H9 Media (1mL) • Smaller β-Lactam library • Measure OD via spectroscopy Zone of Inhibition Assay • • • • Use of 7H10 Agar media Impregnate with β-Lactam Spots of various concentration PNAs Measure inhibition zones Some Issues with Assay • PNAs not very well studied – Mode of transport and toxicity still unclear • Not much information with in vivo assays • Assumes Mycobacteria can be sensitized to BLactam • Assumes β-Lactam will remain active – Not cleaved or lysed by Lactamases Summary • • • • • Tuberculosis is a worldwide epidemic Wide proliferation have created Multi-Drug Resistant Strains First Line defense, Rifampicin, Ineffective New Approach: Return sensitivity to B-Lactam Inhibit Expression of PknB at mRNA level – Prevents Phosphorylation of Penicllin Binding Proteins – Prevents expression of PBP on Cell surface (B-Lactamases) • Synthesize Peptide Nucleic Acids (PNAs) for specificity • HTS Assays – Against B-Lactam Library Questions?