Piro Siuti, PhD
(Co-Mentor: Tejas Pathak, PhD)
Global Discovery Chemistry
Cambridge, Massachusetts, United States
Knottins are biologically-active small peptides isolated from animal venoms. They are an increasingly important class of natural products due to their structural diversity and broad-reaching drug targeting potential. They are small disulfide-rich peptides characterized by a "disulfide through disulfide knot", which is achieved when one disulfide bridge crosses the macrocycle formed by the two other disulfides and the interconnecting backbone. Owing to this distinct structural feature, knottin peptides display reduced metabolic liability, which makes them an attractive scaffold for drug design. The pharmacological characterization of knottins has demonstrated their ability to modulate a great diversity of targets, including targets in the central nervous system. However, one of the biggest challenges in obtaining knottins is their significantly challenging chemical synthesis.
Thus, we wish to develop a general bio-synthetic route for knottin biosynthesis. To achieve this goal, we will take advantage of synthetic biology tools and approaches to explore and generate a universal enzyme-catalyzed disulfide linkage strategy. More specifically, we will genetically engineer bacterial strains by designing and building de novo enzymatic pathways to promote disulfide bridge formation. We will also use customized cell-free expression systems with enhanced disulfide bridge formation ability, which allows for a rapid high-throughput expression and detection of disulfide bridged. Beyond this, our lab works as part of a cross-functional team with diverse backgrounds to identify structural requirements necessary to produce cell/brain permeable knottins with good pharmacokinetic properties and bioavailability.
Synthetic circuits integrating logic and memory in living cells.
Siuti P, Yazbek J, Lu TK.
Nature Biotechnol. 2013 May;31(5):448-52.
Enzyme reactions in nanoporous, picoliter volume containers.
Siuti P, Retterer ST, Choi CK, Doktycz MJ.
Anal Chem. 2012 Jan 17;84(2):1092-7.
Continuous protein production in nanoporous, picolitre volume containers.
Siuti P, Retterer ST, Doktycz MJ.
Lab Chip. 2011 Oct 21;11(20):3523-9.
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