This program investigates the role of protein-protein interactions in natural product modular synthases, a group of biosynthetic enzymes of three types: polyketide synthase (PKS), non-ribosomal peptide synthetase (NRPS), and fatty acid synthase (FAS). Many of these natural products serve as anti-cancer agents or antibiotics, while others are pathogenic toxins. Recent evidence indicates that protein-protein interactions between the carrier protein domain and catalytic domains of these pathways are key to proper catalysis and processivity. These critical interactions are transient in nature and remain largely uncharacterized. We have developed tools that allow synthetic modification of carrier protein domains, and here we leverage these tools to increase the lifetime of these protein-protein interactions using substrate mimics and covalent cross-linking inhibitors. These tools will allow us to visualize the molecular details by which carrier proteins bind tethered substrates prior to catalysis and how they interact with cognate catalytic domains. Through these studies, we intend to gain a more complete understanding of the dynamics of these catalytic events through analysis of solution phase NMR spectra. NMR perturbation comparisons of modified carrier proteins and titration experiments in the presence of catalytic domains will offer us an ability to accurately pinpoint the residues involved in substrate sequestration and protein-protein interaction. We will further validate our findings through site-directed mutagenesis, hydrogen/deuterium exchange NMR, and isothermal titration calorimetry. A deeper understanding of these protein-protein interactions will affect emerging fields in drug discovery. Using these tools to guide new interactions will enable combinatorial biosynthesis of new pharmacophores, while new drug targets may be discovered through abrogating these interactions in pathogen biosynthesis.

Public Health Relevance

This program investigates the activity of modular synthases, a group of natural product biosynthetic enzymes of three types: polyketide synthase, non-ribosomal peptide synthase, and fatty acid synthase. These three subgroups are responsible for the production of antibiotics that represent major constituents of medicinal therapeutics, toxins that support pathogenesis for infection, and primary metabolites essential for life. These studies will benefit human health by enabling manipulation of these pathways to provide new therapeutic drugs and to identify new targets for drug design.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM095970-04
Application #
8795723
Study Section
Special Emphasis Panel ()
Program Officer
Gerratana, Barbara
Project Start
2012-03-01
Project End
2016-01-31
Budget Start
2015-02-01
Budget End
2016-01-31
Support Year
4
Fiscal Year
2015
Total Cost
$380,289
Indirect Cost
$134,941
Name
University of California San Diego
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
804355790
City
La Jolla
State
CA
Country
United States
Zip Code
92093
Sarria, Stephen; Bartholow, Thomas G; Verga, Adam et al. (2018) Matching Protein Interfaces for Improved Medium-Chain Fatty Acid Production. ACS Synth Biol 7:1179-1187
Chen, Aochiu; Re, Rebecca N; Burkart, Michael D (2018) Type II fatty acid and polyketide synthases: deciphering protein-protein and protein-substrate interactions. Nat Prod Rep 35:1029-1045
Barajas, Jesus F; Shakya, Gaurav; Moreno, Gabriel et al. (2017) Polyketide mimetics yield structural and mechanistic insights into product template domain function in nonreducing polyketide synthases. Proc Natl Acad Sci U S A 114:E4142-E4148
Dick, Benjamin L; Patel, Ashay; McCammon, J Andrew et al. (2017) Effect of donor atom identity on metal-binding pharmacophore coordination. J Biol Inorg Chem 22:605-613
Finzel, Kara; Beld, Joris; Burkart, Michael D et al. (2017) Utilizing Mechanistic Cross-Linking Technology to Study Protein-Protein Interactions: An Experiment Designed for an Undergraduate Biochemistry Lab. J Chem Educ 94:375-379
Jaremko, Matt J; Lee, D John; Patel, Ashay et al. (2017) Manipulating Protein-Protein Interactions in Nonribosomal Peptide Synthetase Type II Peptidyl Carrier Proteins. Biochemistry 56:5269-5273
Vickery, Christopher R; La Clair, James J; Burkart, Michael D et al. (2016) Harvesting the biosynthetic machineries that cultivate a variety of indispensable plant natural products. Curr Opin Chem Biol 31:66-73
Mindrebo, Jeffrey T; Nartey, Charisse M; Seto, Yoshiya et al. (2016) Unveiling the functional diversity of the alpha/beta hydrolase superfamily in the plant kingdom. Curr Opin Struct Biol 41:233-246
McCulloch, Ian P; La Clair, James J; Jaremko, Matt J et al. (2016) Fluorescent Mechanism-Based Probe for Aerobic Flavin-Dependent Enzyme Activity. Chembiochem 17:1598-601
Rivera Jr, Heriberto; Dhar, Sachin; La Clair, James J et al. (2016) An unusual intramolecular trans-amidation. Tetrahedron 72:3605-3608

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