One Bead One Compound Screening for Cyclic Peptide Binding Partners

Utterström, Johanna

January 2018

In recent years a significant research focus has been on the development of biomimicking three-dimensional substrates for cell culturing. Hydrogels mimicking the extracellular matrix is a well-suited scaffold for this purpose and there are many different ways these can be cross-linked to retain their shape. The group of Molecular Materials at IFM, Linköping University, is focusing on the development of physical hydrogels hybridized through peptide-peptide interactions but all peptides used for this today are created using rational design and on top of this very large, making them time-consuming and expensive to fabricate. The aim of this project was to evaluate if One Bead One Compound (OBOC) libraries could be used as an alternative to rational design in the finding of cyclic peptide binding partners used in the hybridization of hydrogels. The results were not very promising though since only seven peptides passed all screening steps and of these only two could be sequenced. Of these two, only one was water soluble enough to enable binding interactions analysis but was then found to be a false hit. Nevertheless, it should be noticed that only a fraction of all possible combinations was screened and the results cannot exclude OBOC libraries as an approach in the quest of finding new cyclic peptide binding partners.

Cyclic peptides

SPPS-synthesis

OBOC library

SAAP-screening

PED/MS sequencing

SPR

dimerization

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Conformational Analysis of Designed and Natural Peptides : Studies of Aromatic/Aromatic and Aromatic/Proline Interactions by NMR

Sonti, Rajesh

January 2013

This thesis describes NMR studies which probe weak interactions between amino acid side chains in folded peptide structures. Aromatic/aromatic interactions between facing phenylalanine residues have been probed in antiparallel β-sheets, while aromatic/proline interactions have been examined using cyclic peptide disulfides that occur in the venom of marine cone snails. Novel intramolecular hydrogen bonded structures in hybrid peptides containing backbone homologated residues, specifically γ-amino acids, are also described. Chapter 1 provides a brief background to the principles involved in the design of antiparallel β-sheet structures and an introduction to previous studies on aromatic/aromatic and aromatic/proline interactions in influencing peptide conformations. A summary of the NMR methods used is also presented. Chapter 2 discusses the structural characterisation of a designed 14 residue, three stranded β-sheet peptide, Boc-LFVDP-PLFVADP-PLFV-OMe (LFV14). The results described in this Chapter support the presence of multiple conformational states about the χ1 (Cα-Cβ) torsional degree of freedom for the interacting aromatic pairs in solution. Chapter 3 presents the structural characterisation of a designed 19 residue three stranded hybrid β-sheet peptide, Boc-LVβFVDPGLβFVVLDPGLVLβFVV-OMe (BBH19). β-amino acid residues (β-phenylalanine, βPhe) were incorporated at facing positions on antiparallel β-sheets. The BBH19 structure provides an example of interaction between the N and C-terminal strands in a three stranded structure with an α/β hybrid backbone. Chapter 4 focuses on studies of the conformations of the contryphan In936 (GCVDLYPWC*) from Conus inscriptus and the related peptide Lo959 (GCPDWDPWC*) from Conus loroissi. Both peptides possess a macrocyclic 23 membered ring, with multiple accessible conformational states. Chapter 5 describes conformational analysis of a novel 20 membered cyclic peptide disulfide, CIWPWC (Vi804), from Conus virgo. NMR structures were calculated for Vi804 and an analog peptide, CIDWPWC, DW3-Vi804. Chapter 6 explores the solution conformation of hybrid sequences containing α and γ residues. Oligopeptides of the type (αγ)n and (αγγ)n have been studied in solution by NMR methods. Chapter 7 provides a summary of the results described in this thesis and highlights the major conclusions.

Natural Peptides

Aromatic/Aromatic Interactions

Aromatic/Proline Interactions

Peptides - Conformational Analysis

Nuclear Magnetic Resonance

Cyclic Peptide Disulfides

Cyclic Peptides

Hybrid Peptides

Beta Hairpins

Beta Sheets

Cyclic Peptide Disulfides

Designed Peptides

Proteins - Analysis

β-Hairpin

β-sheet Peptide

α/β Hybrid Peptide

Biochemistry

Effects of carbon nanotubes on barrier epithelial cells via effects on lipid bilayers

Lewis, Shanta

January 2013

Indiana University-Purdue University Indianapolis (IUPUI) / Carbon nanotubes (CNTs) are one of the most common nanoparticles (NP) found in workplace air. Therefore, there is a strong chance that these NP will enter the human body. They have similar physical properties to asbestos, a known toxic material, yet there is limited evidence showing that CNTs may be hazardous to human barrier epithelia. In previous studies done in our laboratory, the effects of CNTs on the barrier function in the human airway epithelial cell line (Calu-3) were measured. Measurements were done using electrophysiology, a technique which measures both transepithelial electrical resistance (TEER), a measure of monolayer integrity, and short circuit current (SCC) which is a measure of vectorial ion transport across the cell monolayer. The research findings showed that select physiologically relevant concentrations of long single-wall (SW) and multi-wall (MW) CNTs significantly decreased the stimulated SCC of the Calu-3 cells compared to untreated cultures. Calu-3 cells showed decreases in TEER when incubated for 48 hours (h) with concentrations of MWCNT ranging from 4µg/cm2 to 0.4ng/cm2 and SWCNT ranging from 4µg/cm2 to 0.04ng/cm2. The impaired cellular function, despite sustained cell viability, led us to investigate the mechanism by which the CNTs were affecting the cell membrane. We investigated the interaction of short MWCNTs with model lipid membranes using an ion channel amplifier, Planar Bilayer Workstation. Membranes were synthesized using neutral diphytanoylphosphatidylcholine (DPhPC) and negatively charged diphytanoylphosphatidylserine (DPhPS) lipids. Gramicidin A (GA), an ion channel reporter protein, was used to measure changes in ion channel conductance due to CNT exposures. Synthetic membranes exposed to CNTs allowed bursts of currents to cross the membrane when they were added to the membrane buffer system. When added to the membrane in the presence of GA, they distorted channel formation and reduced membrane stability.

Carbon nanotubes

Multi-wall carbon nanotubes

single-wall carbon nanotubes

T84

Calu-3

Black lipid membranes

Electrophysiology

Ion channels

Gramicidin A

Short circuit current

Carbon nanotubes -- Research -- Analysis

Organic compounds -- Synthesis

Electrophysiology -- Technique

Ion channels -- Research -- Analysis

Short circuits

Epithelium

Gramicidins

Cyclic peptides -- Synthesis

Tight junctions (Cell biology)

Bilayer lipid membranes

Biological transport

Membranes (Biology)