207 research outputs found
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Proteomic profiling of neuromas reveals alterations in protein composition and local protein synthesis in hyper-excitable nerves
Neuropathic pain may arise following peripheral nerve injury though the molecular mechanisms associated with this are unclear. We used proteomic profiling to examine changes in protein expression associated with the formation of hyper-excitable neuromas derived from rodent saphenous nerves. A two-dimensional difference gel electrophoresis ( 2D-DIGE) profiling strategy was employed to examine protein expression changes between developing neuromas and normal nerves in whole tissue lysates. We found around 200 proteins which displayed a > 1.75-fold change in expression between neuroma and normal nerve and identified 55 of these proteins using mass spectrometry. We also used immunoblotting to examine the expression of low-abundance ion channels Nav1.3, Nav1.8 and calcium channel alpha 2 delta-1 subunit in this model, since they have previously been implicated in neuronal hyperexcitability associated with neuropathic pain. Finally, S(35)methionine in vitro labelling of neuroma and control samples was used to demonstrate local protein synthesis of neuron-specific genes. A number of cytoskeletal proteins, enzymes and proteins associated with oxidative stress were up-regulated in neuromas, whilst overall levels of voltage-gated ion channel proteins were unaffected. We conclude that altered mRNA levels reported in the somata of damaged DRG neurons do not necessarily reflect levels of altered proteins in hyper-excitable damaged nerve endings. An altered repertoire of protein expression, local protein synthesis and topological re-arrangements of ion channels may all play important roles in neuroma hyper-excitability
Optical control of nanoparticle catalysis influenced by photoswitch positioning in hybrid peptide capping ligands
YesHere we present an in-depth analysis of structural factors that modulate peptide-capped nanoparticle
catalytic activity via optically driven structural reconfiguration of the biointerface present at the particle surface.
Six different sets of peptide-capped Au nanoparticles were prepared, in which an azobenzene photoswitch was incorporated
into one of two well-studied peptide sequences with known affinity for Au, each at one of three different
positions: The N- or C-terminus, or mid-sequence. Changes in the photoswitch isomerization state induce a reversible
structural change in the surface-bound peptide, which modulates the catalytic activity of the material. This
control of reactivity is attributed to changes in the amount of accessible metallic surface area available to drive the
reaction. This research specifically focuses on the effect of the peptide sequence and photoswitch position in the
biomolecule, from which potential target systems for on/off reactivity have been identified. Additionally, trends
associated with photoswitch position for a peptide sequence (Pd4) have been identified. Integrating the azobenzene
at the N-terminus or central region results in nanocatalysts with greater reactivity in the trans and cis conformations,
respectively; however, positioning the photoswitch at the C-terminus gives rise to a unique system that is
reactive in the trans conformation and partially deactivated in the cis conformation. These results provide a fundamental
basis for new directions in nanoparticle catalyst development to control activity in real time, which could
have significant implications in the design of catalysts for multistep reactions using a single catalyst. Additionally,
such a fine level of interfacial structural control could prove to be important for applications beyond catalysis, including
biosensing, photonics, and energy technologies that are highly dependent on particle surface structures.Air Office of Scientific Research, grant number FA9550-12- 1-0226
Nociceptor-expressed ephrin-B2 regulates inflammatory and neuropathic pain
Background: EphB receptors and their ephrin-B ligands play an important role in nervous system development, as well as synapse formation and plasticity in the adult brain. Recent studies show that intrathecal treatment with EphB-receptor activator ephrinB2-Fc induced thermal hyperalgesia and mechanical allodynia in rat, indicating that ephrin-B2 in small dorsal root ganglia (DRG) neurons and EphB receptors in the spinal cord modulate pain processing. To examine the role of ephrin-B2 in peripheral pain pathways, we deleted ephrin-B2 in Nav1.8+ nociceptive sensory neurons with the Cre-loxP system. Sensory neuron numbers and terminals were examined using neuronal makers. Pain behavior in acute, inflammatory and neuropathic pain models was assessed in the ephrin-B2 conditional knockout (CKO) mice. We also investigated the c-Fos expression and NMDA receptor NR2B phosphorylation in ephrin-B2 CKO mice and littermate controls.Results: The ephrin-B2 CKO mice were healthy with no sensory neuron loss. However, pain-related behavior was substantially altered. Although acute pain behavior and motor co-ordination were normal, inflammatory pain was attenuated in ephrin-B2 mutant mice. Complete Freund's adjuvant (CFA)-induced mechanical hyperalgesia was halved. Formalin-induced pain behavior was attenuated in the second phase, and this correlated with diminished tyrosine phosphorylation of N-methyl-D-aspartic acid (NMDA) receptor subunit NR2B in the dorsal horn. Thermal hyperalgesia and mechanical allodynia were significantly reduced in the Seltzer model of neuropathic pain.Conclusions: Presynaptic ephrin-B2 expression thus plays an important role in regulating inflammatory pain through the regulation of synaptic plasticity in the dorsal horn and is also involved in the pathogenesis of some types of neuropathic pain
Adsorción de bilirrubina sobre principio activo zeolítico
El desarrollo de nuevos fármacos hipocolesterolémicos es una línea fundamental de investigación. El principio activo zeolítico (PAZ) CZ ha sido utilizado satisfactoriamente en la disminución significativa de niveles séricos de colesterol. En la presente comunicación se establece la capacidad de adsorción de bilirrubina por este principio activo, demostrándose una vía hipotética de adsorción de ácidos biliares
Procedimiento de determinación del índice tobillo-brazo con doppler arterial FEMORA
O Programa FEMORA recopila procedementos estandarizados, con evidencia científica, para os profesionais do Sergas. Protocolizar os coidados confórmase como instrumento indispensable de soporte para a práctica clínica. Entre as súas numerosas vantaxes cabe destacar a reducción na diversidade inapropiada da práctica clínica, o que lles propicia unha atención máis xusta e equitativa aos nosos pacientes. Este procedemento unifica así mesmo, criterios de actuación que nos serven de punto de partida para unha avaliación da calidade do proceso.El Programa FEMORA recopila procedimientos estandarizados, con evidencia científica, para los profesionales del Sergas. Protocolizar los cuidados se conforma como instrumento indispensable de soporte para la práctica clínica. Entre sus numerosas ventajas cabe destacar la reducción en la diversidad inapropiada de la práctica clínica, lo que les propicia una atención más justa y equitativa a nuestros pacientes. Este procedimiento unifica asimismo, criterios de actuación que nos sirven de punto de partida para una evaluación de la calidad del proceso
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