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Transcript
Sialic Acid Production by Metabolically Engineered Escherichia coli Benjamin R. Lundgren and Christopher N. Boddy* Syracuse University, Syracuse, NY 13244 Sialic acid is a key molecule in cell adhesion and cell signaling OR5 OR 4 R3 O R 2HN O R 1O R1 = Ac CO 2H OH R2 = Ac or -CO-CH 2OH R3 = Ac 4 R = Ac, CH 3 or SO3 R5 = S-lactyl or PO3 2 1 R1 = R 3 = R 4 = R 5 = H, R 2 = Ac N-acetylneuraminic acid, Neu5Ac, undergoes extensive modifications to generate the diversity of the sialic acid family Sialic acid encompasses a large family of cell-surface carbohydrates Biological Function • Cell Adhesion • Cell Signaling • Glycoprotein Stability • Bacterial Virulence • Tumor Metastasis Medical Importance • Influenza Inhibitors • Marker for Disorders • Biologics • Diagnostics Limited supply of sialic acid analogs has hindered advancement in basic research, diagnostic development and therapeutic production Current resources for sialic acid are scarce, costly, and non-scalable Chemical Synthesis challenging Natural Resources low yield & purity OH OH HO AcHN O CO 2H OH HO Microbial Fermentation? Enzymatic Synthesis costly & not readily scalable Fermentation as an alternative route in sialic acid production • Low cost • Scalable • Can be crystallized from aqueous solutions at concentrations > 150 g/L • Bacterial sialic acid metabolism is well characterized Harness the chemistry of biological pathways in bacteria to produce sialic acid OH HO HO OH O HO AcHN OH NH 2 Encodes sialic acid biosynthesis O CO 2H OH HO Sialic Acid Feedstock Plasmid OH Gene Expression E. coli Cell Host DNA Lacks genes for sialic acid degradation Removal of sialic acid catabolism in E. coli is crucial for sialic acid production OUT IN Sialic Sialic NanA NanT ManNAc + Pyruvate Acid Acid Aldolase ATP Transporter NanK ADP Fructose-6-P NagB GlcNAc-6-P ManNAc-6-P NanE NagA GlcN-6-P Deletion of transporter and aldolase eliminates sialic acid degradation NeuC and NeuB catalyze the de novo biosynthesis of intracellular sialic acid in N. meningitidis group B NeuC NeuB Sialic UDP-GlcNAc ManNAc Acid CTP H2O UDP PEP Pi PPi NeuA Polysialic Export [Sialic Acid] NeuS CMP-Sialic Acid n Acid Capsule Insertion of NeuB and NeuC allows in vivo synthesis of sialic acid Glucosamine synthase increases the synthesis of key metabolite for sialic acid biosynthesis Fru-6-P GlmS GlcN-6-P Gln Glu UDP-GlcNAc GlmM GlcN-1-P Ac-CoA GlmU CoA GlmU GlcNAc-1-P PPi UTP NeuBC pathway Sialic Acid Increases production of sialic acid from low-cost feedstocks Sialic acid production by genetically & metabolically engineered E. coli OH OH HO AcHN O OH OH CO 2H OH HO 1, Neu5Ac NanT X HO AcHN ux E ffl OH NHAC NeuB O HO OH HO 2, ManNAc UDP NeuC H 2O OH CO2 H O OH HO 1 X NanA OH NHAC O O HO OH HO 2 CO2 4, Pyruvate O HO HO OUDP NHAC 5, UDP-GlcNAc 2 OPO3 CO2 3, PEP OH GlmU HO HO PP UTP CoA Ac-CoA 2 OPO 3 HO HO O 2 OH Pgi OH 7, Glc-6-P phosphorylase Maltose O 3PO O HO OH NHAC 6, GlcNAc GlmU GlmM 2 OPO3 OH GlmS HO HO OH HO Gln Glu 8, Fru-6-P gluconeogenesis Glycerol O O OH NH 2 9, GlcN-6-P Various carbon sources lead to sialic acid production Sialic acid production from glucose is the cheapest Multiple feedings of glucose leads to a sialic acid titer of 1.7 grams per liter Production costs: <$1 per gram of sialic acid Sialic Acid Analogs: Tools for discovery in sialic acid research Serve as biological probes, components of drugs and diagnostics OH OH H3C HO NH n HO O OH OH CO 2H O OH N3 HO NH O CO 2H OH HO O N-acyl sialic acid N-azido sialic acid modulate cell-cell interactions imaging of cells in vivo Analogs can be produced using chemically modified feedstocks OH OH OH O HO HO NH OH GlmS NeuC NeuB O HO R NH O CO 2H OH HO O R N-acyl glucosamine N-acyl sialic acid Feeding of N-acyl glucosamines to engineered E. coli results in production of N-acyl sialic acids Analogs can be produced in vivo by expressing tailoring enzymes OH OH OH HO HO O OH OH GlmS NeuC NeuB HO NH O OH HO O Glucose CO 2H Sialic Acid Hydroxylase Produce gram quantities of important analogs HO OH OH HO NH O CO 2H OH HO O N-glycolyl sialic acid Sialic acid production by microbial fermentation • Is efficient, rapid, and cost effective • Higher yields from dense-cell cultures • Generate large amounts of analogs • Shows the feasibility to produce complex, unavailable small molecules Acknowledgements • • • • • • Christopher N. Boddy The Blattner lab at University of WI-Madison Timothy J. Durfee Kinya Hotta The Borer and Doyle labs at Syracuse University Syracuse University and the Structural Biology, Biochemistry and Biophysics (SB3) graduate program.
