311 research outputs found

    Antibodies and protein misfolding: From structural research tools to therapeutic strategies.

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    Protein misfolding disorders, including the neurodegenerative conditions Alzheimer's disease (AD) and Parkinson's disease (PD) represent one of the major medical challenges or our time. The underlying molecular mechanisms that govern protein misfolding and its links with disease are very complex processes, involving the formation of transiently populated but highly toxic molecular species within the crowded environment of the cell and tissue. Nevertheless, much progress has been made in understanding these events in recent years through innovative experiments and therapeutic strategies, and in this review we present an overview of the key roles of antibodies and antibody fragments in these endeavors. We discuss in particular how these species are being used in combination with a variety of powerful biochemical and biophysical methodologies, including a range of spectroscopic and microscopic techniques applied not just in vitro but also in situ and in vivo, both to gain a better understanding of the mechanistic nature of protein misfolding and aggregation and also to design novel therapeutic strategies to combat the family of diseases with which they are associated. This article is part of a Special Issue entitled: Recent advances in molecular engineering of antibody.This is the final version. It was first published by Elsevier in Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics at: http://www.sciencedirect.com/science/article/pii/S1570963914002222

    Differential nuclear localization of complexes may underlie in vivo intrabody efficacy in Huntington's disease.

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    Intrabodies offer attractive options for manipulating the protein misfolding that triggers neurodegenerative diseases. In Huntington's disease, where the expanded polyglutamine tract in the extreme N-terminal region of huntingtin exon1 misfolds, two lead intrabodies have been selected against an adjacent peptide, using slightly different approaches. Both are effective at preventing aggregation of a reporter fragment in transient co-transfection assays. However, after intracranial delivery to mutant mouse brains, VL12.3, which is mainly localized to the nucleus, appears to accelerate the mutant phenotype, while C4 scFv, which is largely cytoplasmic, shows partial phenotypic correction. This comparison highlights parameters that could inform intrabody therapeutics for multiple proteostatic diseases.This is the final published version. It's also available from OUP at http://peds.oxfordjournals.org/content/27/10/359.full.html

    Fomentar hábitos científicos en los mas pequeños a través de la reutilización de materiales de desecho.

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    En este trabajo se pretende transmitir a los niños de la etapa de Educación Infantil, de una forma innovadora, la importancia del cuidado del medio ambiente y las numerosas formas que existen de reutilizar los materiales que desechamos diariamente, fomentando en ellos valores para optar a un futuro sostenible y hábitos científicos en edades tempranas, a través de unas clases creativas online en tiempo real. Primeramente, se llevará a cabo una búsqueda en buscadores académicos para la recogida de información existente sobre el tema que se va a tratar. Por otro lado, se verán reflejados los diferentes motivos por los que el recurso educativo es innovador. Seguidamente se desarrollarán las sesiones de las actividades de forma breve y general, y se verán ilustradas de forma más concretas mediante simulaciones grabadas (vídeos). Por último, se expondrán las conclusiones al respecto.The aim of this work is to transmit to the children of the Infant Education stage, in an innovative way, the importance of caring for the environment and the numerous ways that exist to reuse the materials that we discard daily, promoting in them values to opt for a sustainable future and scientific habits at an early age, through creative online classes in real time. Firstly, a search will be carried out on academic search engines to collect existing information on the subject to be dealt with. On the other hand, the different reasons why the educational resource is innovative will be reflected. Then, the sessions of the activities will be developed in a brief and general way, and they will be illustrated in a more concrete way by means of recorded simulations (videos). Finally, the conclusions will be presented

    Enzyme-Mediated Modification of Single-Domain Antibodies for Imaging Modalities with Different Characteristics

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    Antibodies are currently the fastest-growing class of therapeutics. Although naked antibodies have proven valuable as pharmaceutical agents, they have some limitations, such as low tissue penetration and a long circulatory half-life. They have been conjugated to toxic payloads, PEGs, or radioisotopes to increase and optimize their therapeutic efficacy. Although nonspecific conjugation is suitable for most in vitro applications, it has become evident that site specifically modified antibodies may have advantages for in vivo applications. Herein we describe a novel approach in which the antibody fragment is tagged with two handles: one for the introduction of a fluorophore or F isotope, and the second for further modification of the fragment with a PEG moiety or a second antibody fragment to tune its circulatory half-life or its avidity. Such constructs, which recognize Class II MHC products and CD11b, showed high avidity and specificity. They were used to image cancers and could detect small tumors.Cancer Research Institute (New York, N.Y.)United States. National Institutes of Health (R01-AI087879-06)United States. National Institutes of Health (DP1-GM106409-03)United States. National Institutes of Health (R01-GM100518-04

    Analysis of the binding loops configuration and surface adaptation of different crystallized single‐domain antibodies in response to various antigens

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    Monoclonal antibodies have revolutionized the biomedical field through their ubiquitous utilization in different diagnostics and therapeutic applications. Despite this widespread use, their large size and structural complexity have limited their versatility in specific applications. The antibody variable region that is responsible for binding antigen is embodied within domains that can be rescued individually as single-domain antibody (sdAb) fragments. Because of the unique characteristics of sdAbs, such as low molecular weight, high physicochemical stability, and the ability to bind antigens inaccessible to conventional antibodies, they represent a viable alternative to full-length antibodies. Consequently, 149 crystal structures of sdAbs, originating from human (VH), camelids (VHH), or sharks (VNAR), were retrieved from the Protein Data Bank, and their structures were compared. The 3 types of sdAbs displayed complementarity determining regions (CDRs) with different lengths and configurations. CDR3 of the VHH and VNAR domains were dominated by pleated and extended orientations, respectively. Although VNAR showed the smallest average molecular weight and molecular surface area compared with VHH and VH antibodies. However, the solvent accessible surface area measurements of the 3 tested sdAbs types were very similar. All the antihapten VHH antibodies showed pleated CDR3, which were sufficient to create a binding pocket to accommodate haptens (methotrexate and azo dyes) in terms of shape and electrostatic potential. The sdAbs that recognized lysozyme showed more diversity in their CDR3 orientation to enable them to recognize various topographies of lysozyme. Subsequently, the three sdAb classes were different in size and surface area and have shown distinguishable ability to optimize their CDR length and orientation to recognize different antigen classes

    Individual aggregates of amyloid beta induce temporary calcium influx through the cell membrane of neuronal cells.

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    Local delivery of amyloid beta oligomers from the tip of a nanopipette, controlled over the cell surface, has been used to deliver physiological picomolar oligomer concentrations to primary astrocytes or neurons. Calcium influx was observed when as few as 2000 oligomers were delivered to the cell surface. When the dosing of oligomers was stopped the intracellular calcium returned to basal levels or below. Calcium influx was prevented by the presence in the pipette of the extracellular chaperone clusterin, which is known to selectively bind oligomers, and by the presence a specific nanobody to amyloid beta. These data are consistent with individual oligomers larger than trimers inducing calcium entry as they cross the cell membrane, a result supported by imaging experiments in bilayers, and suggest that the initial molecular event that leads to neuronal damage does not involve any cellular receptors, in contrast to work performed at much higher oligomer concentrations.Herchel Smith (Postdoctoral Fellowship), Engineering and Physical Sciences Research Council (studentship), European Research Council (Advanced Grant (669237)), Augustus Newman Foundatio

    Analysis of the native structure, stability and aggregation of biotinylated human lysozyme.

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    Fibril formation by mutational variants of human lysozyme is associated with a fatal form of hereditary non-neuropathic systemic amyloidosis. Defining the mechanistic details of lysozyme aggregation is of crucial importance for understanding the origin and progression of this disease and related misfolding conditions. In this study, we show that a biotin moiety can be introduced site-specifically at Lys33 of human lysozyme. We demonstrate, using biophysical techniques, that the structure and stability of the native-state of the protein are not detectably altered by this modification, and that the ability to form amyloid fibrils is unchanged. By taking advantage of biotin-avidin interactions, we show that super-resolution fluorescence microscopy can generate detailed images of the mature fibrils. This methodology can readily enable the introduction of additional probes into the protein, thereby providing the means through which to understand, in detail, the nature of the aggregation process of lysozyme and its variants under a variety of conditions
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