In vitro studies of Thiopurine S-Methyltransferase: Ligand binding interactions and development of a new enzymatic activity assay for TPMTwt, TPMT*6 and TPMT*8

Hemmingsson, Lovisa, Klasén, Johan

January 2015

Acute lymphoblastic leukemia, one of the most malignant cancer forms in children is commonly treated with the thiopurine 6-mercaptopurine (6-MP) in combination with a high dose of methotrexate (MTX). 6-Mercaptopurine is in the body metabolized by the enzyme thiopurine S-methyltransferase (TPMT). Polymorphic variants of TPMT express different catalytic activities, and for this reason the dosage of 6-MP needs to be individualized. In order to better optimize the treatment it is important to understand how mutations in TPMT affect its enzymatic activity. In this thesis we have investigated how the wild type and two variants of TPMT interact with different ligands using fluorescence and isothermal titration calorimetry. Experiments with MTX, ANS and furosemide resulted in a similar binding strength for the wild type and the variant TPMT*8, while the other variant TPMT*6 showed a slightly weaker binding. A binding affinity for polyglutamated MTX to TPMTwt was also determined which resulted in an almost twice as strong binding compared to MTX. Today’s methods to determine enzymatic activity are either based on radioactivity, time consuming or expensive. As an alternative the use of a spectrophotometric assay using 5-thio-2-nitrobenzoic acid (TNB) was investigated. The method showed positive results and could hopefully be adapted to plate readers in future experiments. Using 5.5’-dithiobis-(2-nitrobenzoic acid) (DTNB, also known as Ellman’s reagent) the amount of accessible thiol groups on the protein was estimated. This revealed a similar relationship between TPMTwt and TPMT*6, while the result for TPMT*8 was inconclusive.

Thiopurine S-Methyltransferase

6-mercaptourine

methotrexate

isothermal titration calorimetry

fluorescence spectroscopy

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Optimization of a pharmacokinetic assay in a bridging assay format using the Gyrolab immunoassay platform

Spetsare, Ebba

January 2019

Anti-TNF alpha antibodies were among the first approved antibody drugs and now belongs to the best-selling drugs. Today, several companies are developing biosimilars to those drugs which will increase the access of medications and potentially reduce health care costs. There is a great demand for pharmacokinetic assays for anti-TNF-alpha drugs and the bridging assay format is a potential tool, mostly due to its high serum tolerance. This project at Gyros Protein Technologies AB aimed to investigate the properties of the solid phase on the Gyrolab and to utilize this to optimize the bridging assay to be used as a pharmacokinetic assay for a human antibody in the presence of serum. The solid phase was optimized by incorporating three reagents with increasing molecular weight and examining the column profiles generated. Furthermore, the capture reagent was titrated with b-BSA to avoid cross-binding of both arms of the antibody to the capture reagent. Since the background was relatively high, further optimization was done to reduce background and increase the signal to noise ratio. The performance of the optimized bridging assay was compared to alternative PK assay formats. The estimated sensitivity of the bridging assay was 5 ng/ml compared to 250 ng/ml for the indirect antibody assay and 2.5 ng/ml for the bridging assay using an anti-idiotypic antibody as detect. The optimized bridging assay performed well without dilution in buffer and was therefore used for affinity determination of Humira in neat serum. Variable concentrations of TNF-alpha were added to a fix concentration of Humira to compete with the interaction. Calculated KD-values were similar regardless of whether the measurements were performed in neat serum or after dilution in Rexxip buffer.

bridging assay

gyros

affinity

humira

tnf-alfa

pharmacokinetic

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Construction of a fusion protein for anchoring the inflammatory receptor NLRP3 to the cell membrane

Ling, Rebecca

January 2019

The innate immune system are a cooperation of many components – receptors being one of them. Both membrane-bound and cytosolic receptors play a large role in the defence system against pathogens and danger. NLRP3 is a receptor which assembles a protein complex called inflammasome in response to cytosolic stress and is responsible for many autoimmune diseases if it malfunctions. The activation of the NLRP3 inflammasome leads to secretion of inflammatory cytokines and in many cases to programmed cell death. The structure, function and activation of the NLRP3 inflammasome is still not fully understood and the urge to understand the mechanisms behind are important for future medical improvements. The aim was to anchor the NLRP3 inflammasome by the cell membrane - By Overlap PCR, the NLRP3 cDNA was fused extracellular and trans-membrane parts of the TLR4 cDNA to anchor the NLRP3 to the membrane and in turn analyse the inflammasome with LPI™ technology. Multiple primers and a TLR4 nucleotide were designed and the NLRP3 was amplified with specific overhangs by PCR. The fusion protein was successfully linked together by Overlap PCR but not confirmed by sequencing. The gene fusion demands high quality primers for amplification and further evaluation must be made to the details of the laboratory. To anchor the protein complex to the cell membrane, continue to be of full importance and can be an asset in many structural studies and biopharmaceuticals trials.

NLRP3 inflammasome

Overlap PCR

Fusion Protein

LPI™ technology

Biochemistry and Molecular Biology

Biokemi och molekylärbiologi

Studies on the Conformation of Transmembrane Polypeptides in Membrane Proteins

Cassel, Marika

January 2005

<p>The major aim of the studies that this thesis is based on has been to better define the topological determinants of the formation of so-called helical hairpins during membrane protein assembly in the ER membrane.</p><p>The helical hairpin is a basic folding unit in membrane proteins. It is composed of two closely spaced transmembrane helices with a short connecting loop and it is believed to be inserted into the membrane as one compact unit. It is becoming increasingly clear that the helical hairpin is a very common structural element in membrane proteins and a detailed understanding of its properties is of central importance.</p><p>We demonstrate that the efficiency of formation of helical hairpins depends both on the overall length of the hydrophobic segment, on the amino acids flanking the transmembrane segment, and on the identity of the central, potentially turn-forming residues. We also show that interhelical hydrogen bonds between pairs of Asn or Asp residues can induce helical hairpin formation.</p><p>A detailed topology mapping is also reported for the <i>Escherichia coli </i>inner membrane chloride channel YadQ, a protein for which the X-ray structure is known. Our results provide a critical test of the reporter fusion approach and offer new insights into the YadQ folding pathway.</p><p>In summary, the results present in this thesis have increased our understanding of the determinants of membrane protein topology and structure. Furthermore, the information obtained can be used to improve current models for predictions of membrane protein topology.</p>

membrane protein

topology

transmembrane helix

helical hairpin

turn propensity

Biochemistry

Biokemi

Exploring amino-acid radicals and quinone redox chemistry in model proteins

Westerlund, Kristina

January 2008

<p>Amino-acid radical enzymes have been studied extensively for 30 years but the experimental barriers to determine the thermodynamic properties of their key radical cofactors are so challenging that only a handful of reports exist in the literature. This is a major drawback when trying to understand the long-range radical transfer and/or catalytic mechanisms of this important family of enzymes. Here this issue is addressed by developing a library of well-structured model proteins specifically designed to study tyrosine and tryptophan radicals. The library is based on a 67-residue three-helix bundle (α₃W) and a 117-residue four-helix bundle (α₄W). α₃W and α₄W are single-chain and uniquely structured proteins. They are redox inert except for a single radical site (position 32 in α₃W and 106 in α₄W). Papers I and II describe the design process and the protein characteristics of α₄W as well as a voltammetry study of its unique tryptophan. Paper III and V describe two projects based on α₃C, which is a Trp-32 to Cys-32 variant of α₃W. In Paper III we use α₃C to investigate what effect the degree of solvent exposure of the phenolic OH group has on the redox characteristics of tyrosine analogs. We show that the potential of the PhO•/PhOH redox pair is dominated by interactions with the OH group and that the environment around the hydrophobic part of the phenol has no significant impact. In addition, we observe that interactions between the phenolic OH group and the protein matrix can raise the phenol potential by 0.11-0.12 V relative to solution values. The α₃C system is extended in Paper V to study quinone redox chemistry. Papers III and V contain protocols to generate the cofactor-containing α₃C systems and descriptions of their protein properties. Paper IV describes efforts to redesign α₃Y (a Trp-32 to Tyr-32 variant of α₃W) to contain an interacting Tyr-32/histidine pair. The aim is to engineer and study the effects of a redox-induced proton acceptor in the Tyr-32 site.</p>

amino-acid radicals

quinone redox chemistry

model proteins

protein redesign

electrochemistry

Biochemistry

Biokemi

Purification of psychoactive biomolecules in plants using size exclusion chromatography / Rening av psykoaktiva biomolekyler från växtmaterial genom gelpermeations-/gelfiltreringskromatografi

Ring, Ludwig

January 2009

<p><em>Size exclusion chromatography</em> (SEC) was applied for purification of psychoactive biomolecules from plants. These molecules are in the same molecular weight range, but do not necessarily share other chemical properties, that makes the SEC technique efficient. By applying SEC as a first purification step much of the co-extractives from the plants can easily be removed. Large amounts of target substance can be obtained with little effort if the system is automated. Combining SEC with a second purification step, consisting of normal phase chromatography, provides high purity of the target substance.</p><p>Both known and unknown psychoactive biomolecules can easily be purified using the purification method developed in this Master's Thesis. Purifications that previously required long time and much "hands-on" can be completed much faster and with less manual work.</p><p>The method developed was tested on cannabis, coffee and 'Spice' with good results.</p>

Size exclusion chromatography

Psychoactive

Drug

Plant

Gel permeation chromatography

Gel filtration chromatography

Biochemistry

Biokemi

Analysis of gene- and protein expression in an Alzheimer model of <em>Drosophila melanogaster</em>

Nilsson, Daniel

January 2009

<p>Alzheimer’s disease is a common and very costly disease in today’s society. The hallmarks of the disease are the formation of two proteinaggregates, amyloid plaques containing Aβ-peptides and neurofibrillary tangles containing hyperphosphorylated tau protein. The formation ofneurofibrillary tangles is thought to be promoted by amyloid formation and is why the cellular events surrounding the formation and interactionsof the Aβ-peptide is a prime target for Alzheimer’s research. In this thesis, the gene of the highly aggregation prone form of Aβ-peptide, the Aβ1-42, has been inserted in a Drosophila melanogaster to promote expression in the central nervous system through the use of the Gal4-UAS system.Gene expression analysis was done using a RNA purification kit, translating the RNA into cDNA using RT-PCR and the levels were analyzed usingquantitative real-time PCR. For protein expression analysis the immunological techniques of dot blot and western blot were used combined withan immunoprecipitation step using magnetic beads. A fibrillation experiment was also performed to look into the potential seeding effect onamyloid formation from the Aβ1-42 expressing Drosophila using fluorescence spectroscopy.The aim for this thesis was to look into expression of the Aβ1-42 gene and the impact of ageing on expression levels. Another aim was to try andseparate and detect soluble Aβ-peptide species from tissue homogenates of Drosophila.No amplification could be detected in the quantitative real-time PCR, most likely due to concentration issues of the reaction components. For thisreason gene expression could never be quantified nor could the effect of ageing and gene expression be looked into. Insoluble aggregates but nosoluble Aβ-peptide species could be detected or separated from the tissue of the Drosophila. No seeding effect on the amyloid formation could bestatistically determined by the fibrillation experiment, but interesting quenching effects on the total quantum yield of Aβ fibrils in the presence ofbrain homogenates were noted.</p>

Drosophila melanogaster

Amyloid

Aβ1-42 peptide

Western blot

q-PCR

Biochemistry

Biokemi

Study of the insulin-like peptide 3 in human platelets

Borg, Mathias

January 2009

<p>The insulin-like 3 peptide is autocrine/paracrine insulin-related hormone with a size of approximately 6kDa [1]. It mediates through a leucine richG-coupled receptor named LGR8. INSL3 is mainly expressed in human Leydig cells and is directly responsible for migration of the testis during the pre-natal period in maledevelopment. [2]</p><p>INSL3 mRNA has recently been verified in human platelets whereas no mRNA has been detected for LGR8 (by Sanofi-Aventis GmbH in Frankfurt,Germany), indicating that INSL3 might be released through paracrine functions at sites of platelet adhesion and aggregation upon a vascular injury.Furthermore, has activated platelets been shown to translate essential proteins upon activation, in a term called “signal-dependent protein synthesis”.The B-Cell lymphoma-3 protein (BCL-3) is an example of such a protein [3], and there is a possibility that INSL3 might be also.</p><p>In this thesis we wanted to detect the relaxin- like peptide 3 hormone (INSL3). (Its function, location and the timeframe of its release, when/if it issecreated in stimulated platelets).The source of platelet-derived INSL3 can be found with Western blotting and Enzyme immunoassay.</p><p>Detection of the insulin-like 3 peptide in human platelets turned out to be a difficult challenge due to the small amount of INSL3 secretion uponplatelet activation; hence the total amount of INSL3 produced might be below detection limit.</p>

INSL3

Insulin-like peptide 3

Biochemistry

Biokemi

Clinical chemistry

Klinisk kemi

Substitution of disulphide bonds to hydrophobic amino acids in BACE1

Halvarsson, Camilla

January 2009

<p>The study and understanding of Alzheimer’s disease on protein level is fundamentally important in the search for its treatment and there is a demand for proteins that can be used together with candidate drugs in crystallography trials. The refolding time reaching up to three weeks for beta-site APP cleaving enzyme 1 (BACE1), the proposed disease-generating protein, is presently not optimal and new protein constructs are needed. In attempts to shorten the refolding time the six cysteins in BACE1 were substituted to hydrophobic valine or alanine residues. The proteins, both wild type and mutant BACE1, were expressed in <em>Escherichia coli</em>, refolded for one week and purified by ion exchange chromatography and gel filtration. The final products were characterised by measuring stability, homogeneity and enzyme activity. There was significantly lower protein yield for the mutants compared to the wild type BACE1, indicating that generation of the disulphide bonds are important for correctly folded and stable BACE1. Also, it was found that the three different disulphide bonds are not equally important during refolding, with Cys₂₇₈-Cys₄₄₃being the most important and Cys₂₁₆-Cys₄₂₀ and Cys₃₃₀-Cys₃₈₀ being of less importance. The present work shows that one week of refolding is enough for a sufficient protein yield of wt BACE1 and that the current refolding time for wt BACE1 can be shortened. Furthermore the disulphide bridges in BACE1 are important for forming an active protein with correct fold.</p>

BACE1

disulphide bonds substitution

hydrophobic amino acids

protein purification

refolding time

Biochemistry

Biokemi

Excitation transfer between conjugated polyelectrolytes and triplet emitter confined in protein nanowires

Thinprakong, Chorpure

January 2010

<p>Phosphorescent metal complexes can be incorporated into amyloid-like fibrils, and these fibrils can be decorated with conjugated polyelectrolytes (CPEs). In this study, <em>fac</em>-tris[2-phenylpyridinato-<em>C</em>²,N]irdium(III) complexes [Ir(piq)₃] were used as the phosphorescence emitter and Sodium-poly(3-thiophene acetic acid) (PTAA-Na) compounds were used as CPEs. Herein we study the energy transfer processes between the iridium complexes and the CPEs. To investigate these mechanisms, the analysis of the emission quenching and time-resolved measurements were done. Our measurements show that energy can be transfered from singlet state of PTAA to the singlet state of Ir(piq)₃. Moreover, incorporation of iridium into amyloid fibrils decreases the importance of energy transfer by the Dexter mechanism. Finally we propose a geometry of interaction to explain the obtained results.</p>

Bioorganic chemistry

Bioorganisk kemi

Biochemistry

Biokemi