279 research outputs found
Développement de peptidomimétiques antagonistes du récepteur de l’interleukine-1β
Dans ce mémoire, je présente mes études sur la synthèse, la caractérisation et l’évaluation biologique de différentes séries d’analogues du D-heptapeptide appelé 101.10, un modulateur négatif allostérique du récepteur de l’interleukine-1β (IL-1β). Sachant que les peptides ont généralement de faibles propriétés pharmacologiques, le but de ce projet portait sur l’examen des structures nécessaires à la bioactivité, la conformation tridimensionnelle de ces derniers afin d’améliorer la droguabilité du peptide parent.
Les stratégies d’optimisation du 101.10 utilisées furent : la coupure N- et C-terminale; la substitution par la proline, α-amino-γ-lactame (Agl), β-amino-γ-lactame (Bgl) et α-amino-β-hydroxy-γ-lactame (Hgl); et la rigidification du squelette à l’aide d’un bicycle, l’indolozidin-2-one (I2aa). Afin de clarifier certaines relations de structure-activité, quelques modifications furent apportées au peptide, incluant l’échange de la thréonine pour la valine, la permutation de la stéréochimie de certains résidus clés ainsi que le remplacement de certaines chaînes latérales par un méthyle. Pour pallier aux difficultés de reproductibilité des résultats avec des échantillons provenant de différentes sources, des études sur l’identité du contre-anion et la pureté du peptide furent conduites.
Afin d’évaluer l’effet des modifications sur la conformation aqueuse et l’activité biologique du peptide, des analyses de dichroïsme circulaire et des tests in vitro mesurant l’inhibition de certains effets de l’IL-1β furent effectués. Ces essais cellulaires comportaient l’inhibition de la prolifération de cellules immunes et de l’activation des voies de signalisation inflammatoires du facteur nucléaire κB (NF-κB) et de la protéine kinase activée par mitogène (MAPK), toutes deux stimulées par l’IL-1β. La compilation de ces données a permis de déceler certaines tendances entre la structure, la conformation et l’activité anti-IL-1β des peptidomimétiques.In this thesis, I present my studies toward the synthesis, characterisation and biological evaluation of different series of analogues of the D-heptapeptide called 101.10, a negative allosteric modulator of the interleukin-1β (IL-1β) receptor. Considering that peptides generally exhibit poor pharmacological properties, the objective of this project consisted in: the examination of the peptidic structures essential to elicit bioactivity; the investigation of the three-dimensional arrangement of these moieties; and the improvement of the “drug-like” properties of the parent peptide.
The optimisation strategies that were used include: N- and C-terminal truncation; positional scanning using monocycles such as proline, α-amino-γ-lactam (Agl), β-amino-γ-lactam (Bgl) and α-amino-β-hydroxy-γ-lactam (Hgl); and backbone rigidification with indolizidin-2-one (I2aa). Moreover, in order to validate certain structure-activity relationships, further modifications were performed on the peptide: substitution of threonine for valine, exchange of stereochemistry, and substitution of certain side-chain for a methyl group. Lastly, due to divergent behaviour between peptide samples obtained from different sources, studies on the identity of the counter-anion and on the sample purity were conducted.
In order to evaluate the influence of these modifications on the aqueous conformation and on the biological activity of the peptide, circular dichroism analyses and in vitro tests measuring the inhibition of certain IL-1β-mediated effects were performed. These cellular assays comprised the inhibition of IL-1β-stimulated proliferation of immune cells, as well as activation of the inflammatory pathways of nuclear factor κB (NF-κB) and mitogen-activated protein kinase (MAPK) pathways. Compiling these data revealed certain trends existing between the structure, conformation and anti-IL-1β activity of the peptidomimetics
Layered architecture for quantum computing
We develop a layered quantum computer architecture, which is a systematic
framework for tackling the individual challenges of developing a quantum
computer while constructing a cohesive device design. We discuss many of the
prominent techniques for implementing circuit-model quantum computing and
introduce several new methods, with an emphasis on employing surface code
quantum error correction. In doing so, we propose a new quantum computer
architecture based on optical control of quantum dots. The timescales of
physical hardware operations and logical, error-corrected quantum gates differ
by several orders of magnitude. By dividing functionality into layers, we can
design and analyze subsystems independently, demonstrating the value of our
layered architectural approach. Using this concrete hardware platform, we
provide resource analysis for executing fault-tolerant quantum algorithms for
integer factoring and quantum simulation, finding that the quantum dot
architecture we study could solve such problems on the timescale of days.Comment: 27 pages, 20 figure
Emergence of qualia from brain activity or from an interaction of proto-consciousness with the brain: which one is the weirder? Available evidence and a research agenda
This contribution to the science of consciousness aims at comparing how two different theories can
explain the emergence of different qualia experiences, meta-awareness, meta-cognition, the placebo
effect, out-of-body experiences, cognitive therapy and meditation-induced brain changes, etc.
The first theory postulates that qualia experiences derive from specific neural patterns, the second
one, that qualia experiences derive from the interaction of a proto-consciousness with the brain\u2019s
neural activity. From this comparison it will be possible to judge which one seems to better explain
the different qualia experiences and to offer a more promising research agenda
Quantum Integrals of Motion for Variable Quadratic Hamiltonians
We construct the integrals of motion for several models of the quantum damped
oscillators in nonrelativistic quantum mechanics in a framework of a general
approach to the time-dependent Schroedinger equation with variable quadratic
Hamiltonians. An extension of Lewis-Riesenfeld dynamical invariant is given.
The time-evolution of the expectation values of the energy related positive
operators is determined for the oscillators under consideration. A proof of
uniqueness of the corresponding Cauchy initial value problem is discussed as an
application.Comment: 32 pages, no figure
Directing cell therapy to anatomic target sites in vivo with magnetic resonance targeting
Cell-based therapy exploits modified human cells to treat diseases but its targeted application
in specific tissues, particularly those lying deep in the body where direct injection is not
possible, has been problematic. Here we use a magnetic resonance imaging (MRI) system to
direct macrophages carrying an oncolytic virus, Seprehvir, into primary and metastatic tumour
sites in mice. To achieve this, we magnetically label macrophages with super-paramagnetic
iron oxide nanoparticles and apply pulsed magnetic field gradients in the direction of the
tumour sites. Magnetic resonance targeting guides macrophages from the bloodstream into
tumours, resulting in increased tumour macrophage infiltration and reduction in tumour
burden and metastasis. Our study indicates that clinical MRI scanners can not only track the
location of magnetically labelled cells but also have the potential to steer them into one or
more target tissues
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Longitudinal change in executive function is associated with impaired top-down frontolimbic regulation during reappraisal in older adults
Networks in the prefrontal cortex (PFC) that are important for executive function are also engaged in adaptive responding to negative events. These networks are particularly vulnerable to age-related structural atrophy and an associated loss of executive function, yet existing evidence suggests preserved emotion processing ability in ageing. Using longitudinally acquired data from a battery of cognitive tasks, we defined a metric for the rate of decline of executive function. With this metric, we investigated relationships between changes in executive function and emotion reappraisal ability and brain structure, in 34 older adults, using functional and structural MRI. During task-based fMRI, participants were asked to cognitively reappraise negatively valenced images. We hypothesised one of two associations with decreasing executive function over time: 1) a decreased ability to reappraise reflected in decreased PFC and increased amygdala activation, or 2) a neural compensation mechanism characterised by increased PFC activation but no differential amygdala activation. Structurally, for a decreased reappraisal ability, we predicted a decrease in grey matter in PFC and/or a decrease of white matter integrity in amygdala-PFC pathways. Neither of the two hypotheses relating to brain function were completely supported, with the findings indicating a steeper decline in executive function associated with both increased PFC and increased left amygdala activity when reappraising negative stimuli. In addition, white matter integrity of the uncinate fasciculus, a primary white matter tract connecting the amygdala and ventromedial areas of PFC, was lower in those individuals who demonstrated a greater decrease in executive function. These findings highlight the association of diminishing cognitive ability with brain structure and function linked to emotion regulation
Endocytosis of the Anthrax Toxin Is Mediated by Clathrin, Actin and Unconventional Adaptors
The anthrax toxin is a tripartite toxin, where the two enzymatic subunits require the third subunit, the protective antigen (PA), to interact with cells and be escorted to their cytoplasmic targets. PA binds to cells via one of two receptors, TEM8 and CMG2. Interestingly, the toxin times and triggers its own endocytosis, in particular through the heptamerization of PA. Here we show that PA triggers the ubiquitination of its receptors in a β-arrestin-dependent manner and that this step is required for clathrin-mediated endocytosis. In addition, we find that endocytosis is dependent on the heterotetrameric adaptor AP-1 but not the more conventional AP-2. Finally, we show that endocytosis of PA is strongly dependent on actin. Unexpectedly, actin was also found to be essential for efficient heptamerization of PA, but only when bound to one of its 2 receptors, TEM8, due to the active organization of TEM8 into actin-dependent domains. Endocytic pathways are highly modular systems. Here we identify some of the key players that allow efficient heptamerization of PA and subsequent ubiquitin-dependent, clathrin-mediated endocytosis of the anthrax toxin
Probing Anti-inflammatory Properties Independent of NF-ÎşB Through Conformational Constraint of Peptide-Based Interleukin-1 Receptor Biased Ligands
Interleukin-1β (IL-1β) binds to the IL-1 receptor (IL-1R) and is a key cytokine mediator of inflammasome activation. IL-1β signaling leads to parturition in preterm birth (PTB) and contributes to the retinal vaso-obliteration characteristic of oxygen-induced retinopathy (OIR) of premature infants. Therapeutics targeting IL-1β and IL-1R are approved to treat rheumatoid arthritis; however, all are large proteins with clinical limitations including immunosuppression, due in part to inhibition of NF-κB signaling, which is required for immuno-vigilance and cytoprotection. The all-D-amino acid peptide 1 (101.10, H-d-Arg-d-Tyr-d-Thr-d-Val-d-Glu-d-Leu-d-Ala-NH2) is an allosteric IL-1R modulator, which exhibits functional selectivity and conserves NF-κB signaling while inhibiting other IL-1-activated pathways. Peptide 1 has proven effective in experimental models of PTB and OIR. Seeking understanding of the structural requirements for the activity and biased signaling of 1, a panel of twelve derivatives was synthesized employing the various stereochemical isomers of α-amino-γ-lactam (Agl) and α-amino-β-hydroxy-γ-lactam (Hgl) residues to constrain the D-Thr-D-Val dipeptide residue. Using circular dichroism spectroscopy, the peptide conformation in solution was observed to be contingent on Agl, Hgl, and Val stereochemistry. Moreover, the lactam mimic structure and configuration influenced biased IL-1 signaling in an in vitro panel of cellular assays as well as in vivo activity in murine models of PTB and OIR. Remarkably, all Agl and Hgl analogs of peptide 1 did not inhibit NF-κB signaling but blocked other pathways, such as JNK and ROCK2 phosphorylation contingent on structure and configuration. Efficacy in preventing preterm labor correlated with a capacity to block IL-1β-induced IL-1β synthesis. Furthermore, the importance of inhibition of JNK and ROCK2 phosphorylation for enhanced activity was highlighted for prevention of vaso-obliteration in the OIR model. Taken together, lactam mimic structure and stereochemistry strongly influenced conformation and biased signaling. Selective modulation of IL-1 signaling was proven to be particularly beneficial for curbing inflammation in models of preterm labor and retinopathy of prematurity (ROP). A class of biased ligands has been created with potential to serve as selective probes for studying IL-1 signaling in disease. Moreover, the small peptide mimic prototypes are promising leads for developing immunomodulatory therapies with easier administration and maintenance of beneficial effects of NF-κB signaling
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