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671.
E. Hubin N. A. J. van Nuland K. Broersen K. Pauwels 《Cellular and molecular life sciences : CMLS》2014,71(18):3507-3521
The aggregation and deposition of the amyloid-β peptide (Aβ) in the brain has been linked with neuronal death, which progresses in the diagnostic and pathological signs of Alzheimer’s disease (AD). The transition of an unstructured monomeric peptide into self-assembled and more structured aggregates is the crucial conversion from what appears to be a harmless polypeptide into a malignant form that causes synaptotoxicity and neuronal cell death. Despite efforts to identify the toxic form of Aβ, the development of effective treatments for AD is still limited by the highly transient and dynamic nature of interconverting forms of Aβ. The variability within the in vivo “pool” of different Aβ peptides is another complicating factor. Here we review the dynamical interplay between various components that influence the heterogeneous Aβ system, from intramolecular Aβ flexibility to intermolecular dynamics between various Aβ alloforms and external factors. The complex dynamics of Aβ contributes to the causative role of Aβ in the pathogenesis of AD. 相似文献
672.
van der Meijden PE Feijge MA Swieringa F Gilio K Nergiz-Unal R Hamulyák K Heemskerk JW 《Cellular and molecular life sciences : CMLS》2012,69(20):3481-3492
The fibrin(ogen) receptor, integrin α(IIb)β(3), has a well-established role in platelet spreading, aggregation and clot retraction. How α(IIb)β(3) contributes to platelet-dependent coagulation is less well resolved. Here, we demonstrate that the potent suppressing effect of clinically used α(IIb)β(3) blockers on tissue factor-induced thrombin generation is linked to diminished platelet Ca(2+) responses and phosphatidylserine (PS) exposure. The same blockers suppress these responses in platelets stimulated with collagen and thrombin receptor agonists, whereas added fibrinogen potentiates these responses. In platelets spreading on fibrinogen, outside-in α(IIb)β(3) signaling similarly enhances thrombin-induced Ca(2+) rises and PS exposure. These responses are reduced in α(IIb)β(3)-deficient platelets from patients with Glanzmann's thrombasthenia. Furthermore, the contribution of α(IIb)β(3) to tissue factor-induced platelet Ca(2+) rises, PS exposure and thrombin generation in plasma are fully dependent on Syk kinase activity. Tyrosine phosphorylation analysis confirms a key role of Syk activation, which is largely but not exclusively dependent on α(IIb)β(3) activation. It is concluded that the majority of tissue factor-induced procoagulant activity of platelets relies on Syk activation and ensuing Ca(2+) signal generation, and furthermore that a considerable part of Syk activation relies on α(IIb)β(3) signaling. These results hence point to a novel role of Syk in integrin-dependent thrombin generation. 相似文献
673.
Altenhöfer S Kleikers PW Radermacher KA Scheurer P Rob Hermans JJ Schiffers P Ho H Wingler K Schmidt HH 《Cellular and molecular life sciences : CMLS》2012,69(14):2327-2343
Reactive oxygen species (ROS) are cellular signals but also disease triggers; their relative excess (oxidative stress) or shortage (reductive stress) compared to reducing equivalents are potentially deleterious. This may explain why antioxidants fail to combat diseases that correlate with oxidative stress. Instead, targeting of disease-relevant enzymatic ROS sources that leaves physiological ROS signaling unaffected may be more beneficial. NADPH oxidases are the only known enzyme family with the sole function to produce ROS. Of the catalytic NADPH oxidase subunits (NOX), NOX4 is the most widely distributed isoform. We provide here a critical review of the currently available experimental tools to assess the role of NOX and especially NOX4, i.e. knock-out mice, siRNAs, antibodies, and pharmacological inhibitors. We then focus on the characterization of the small molecule NADPH oxidase inhibitor, VAS2870, in vitro and in vivo, its specificity, selectivity, and possible mechanism of action. Finally, we discuss the validation of NOX4 as a potential therapeutic target for indications including stroke, heart failure, and fibrosis. 相似文献
674.
Galvin P Thompson D Ryan KB McCarthy A Moore AC Burke CS Dyson M Maccraith BD Gun'ko YK Byrne MT Volkov Y Keely C Keehan E Howe M Duffy C MacLoughlin R 《Cellular and molecular life sciences : CMLS》2012,69(3):389-404
Nanoparticles (NPs) comprised of nanoengineered complexes are providing new opportunities for enabling targeted delivery of a range of therapeutics and combinations. A range of functionalities can be included within a nanoparticle complex, including surface chemistry that allows attachment of cell-specific ligands for targeted delivery, surface coatings to increase circulation times for enhanced bioavailability, specific materials on the surface or in the nanoparticle core that enable storage of a therapeutic cargo until the target site is reached, and materials sensitive to local or remote actuation cues that allow controlled delivery of therapeutics to the target cells. However, despite the potential benefits of NPs as smart drug delivery and diagnostic systems, much research is still required to evaluate potential toxicity issues related to the chemical properties of NP materials, as well as their size and shape. The need to validate each NP for safety and efficacy with each therapeutic compound or combination of therapeutics is an enormous challenge, which forces industry to focus mainly on those nanoparticle materials where data on safety and efficacy already exists, i.e., predominantly polymer NPs. However, the enhanced functionality affordable by inclusion of metallic materials as part of nanoengineered particles provides a wealth of new opportunity for innovation and new, more effective, and safer therapeutics for applications such as cancer and cardiovascular diseases, which require selective targeting of the therapeutic to maximize effectiveness while avoiding adverse effects on non-target tissues. 相似文献
675.
Age is an important risk for autoimmunity, and many autoimmune diseases preferentially occur in the second half of adulthood
when immune competence has declined and thymic T cell generation has ceased. Many tolerance checkpoints have to fail for an
autoimmune disease to develop, and several of those are susceptible to the immune aging process. Homeostatic T cell proliferation
which is mainly responsible for T cell replenishment during adulthood can lead to the selection of T cells with increased
affinity to self- or neoantigens and enhanced growth and survival properties. These cells can acquire a memory-like phenotype,
in particular under lymphopenic conditions. Accumulation of end-differentiated effector T cells, either specific for self-antigen
or for latent viruses, have a low activation threshold due to the expression of signaling and regulatory molecules and generate
an inflammatory environment with their ability to be cytotoxic and to produce excessive amounts of cytokines and thereby inducing
or amplifying autoimmune responses. 相似文献
676.
Over the last two decades the molecular and cellular mechanisms underlying T cell activation, expansion, differentiation,
and memory formation have been intensively investigated. These studies revealed that the generation of memory T cells is critically
impacted by a number of factors, including the magnitude of the inflammatory response and cytokine production, the type of
dendritic cell [DC] that presents the pathogen derived antigen, their maturation status, and the concomitant provision of
costimulation. Nevertheless, the primary stimulus leading to T cell activation is generated through the T cell receptor [TCR]
following its engagement with a peptide MHC ligand [pMHC]. The purpose of this review is to highlight classical and recent
findings on how antigen recognition, the degree of TCR stimulation, and intracellular signal transduction pathways impact
the formation of effector and memory T cells. 相似文献
677.
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680.
Machnicka B Grochowalska R Bogusławska DM Sikorski AF Lecomte MC 《Cellular and molecular life sciences : CMLS》2012,69(2):191-201
This review focuses on the recent advances in functions of spectrins in non-erythroid cells. We discuss new data concerning
the commonly known role of the spectrin-based skeleton in control of membrane organization, stability and shape, and tethering
protein mosaics to the cellular motors and to all major filament systems. Particular effort has been undertaken to highlight
recent advances linking spectrin to cell signaling phenomena and its participation in signal transduction pathways in many
cell types. 相似文献