Browsing by Subject "Immunoelectron microscopy"

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    G protein-gated inwardly rectifying K+ (GIRK/Kir3) channels: Molecular, cellular, and subcellular diversity
    (Universidad de Murcia, Departamento de Biologia Celular e Histiologia, 2025) Martín Belmonte, Alejandro; Aguado, Carolina; Alfaro Ruíz, Rocio; Luján, Rafael
    G protein-gated inwardly rectifying K+ (GIRK/Kir3) channels are mainly expressed in excitable cells such as neurons and atrial myocytes, where they can respond to a wide variety of neurotransmitters. Four GIRK subunits have been found in mammals (GIRK1-4) and act as downstream targets for various Gαi/o-linked G protein-coupled receptors (GPCRs). Activation of GIRK channels produces a postsynaptic efflux of potassium from the cell, responsible for hyper-polarization/inhibition of the neuron. A growing body of evidence suggests that dysregulation of GIRK signalling can lead to excessive or deficient neuronal excitability, which contributes to neurological diseases and disorders. Therefore, GIRK channels are proposed as new pharmacological targets. The function of GIRK channels in neurons is not only determined by their biophysical properties but also by their cellular and subcellular localization patterns and densities on the neuronal surface. GIRK channels can be located within several subcellular compartments, where they have many different functional implications. This subcellular localization changes dynamically along the neuronal surface in response to drug intake and following plasticity processes. Ongoing research is focusing on determining the proteins that form macromolecular complexes with GIRK channels and are responsible for fast and precise signalling under physiological conditions, and how their alteration is implicated in pathological conditions. In this review, the distinct regional, cellular, and subcellular distribution of GIRK channel subunits in the brain will be discussed in view of their possible functional and pathological implications.
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    Qualitative evaluations of reactive microglial heterogeneity in cultured porcine retina
    (Universidad de Murcia, Departamento de Biologia Celular e Histiologia, 2024) Johansson, Kjell; Mohlin, Camilla
    A late stage of several retinal disorders is retinal detachment, a complication that results in rapid photoreceptor degeneration and synaptic damage. The porcine retina is a favorable in vitro model for studies of the degenerative processes that follow retinal detachment. Photoreceptor degeneration and synaptic injuries develop rapidly in the cultured porcine retina and correlate with resident microglial cell transition into a reactive phenotype. In this in vitro study, we used retinas cultured for five days and analyzed reactive CD11b and Iba1 immunoreactive microglia that localized close to/within the synaptic outer plexiform layer (OPL) and in the outer nuclear layer (ONL). A subpopulation of the CD11b and Iba1immunoreactive microglia also expressed CD68 immunoreactivity on lysosomal membranes or as a diffuse cytoplasmic stain. Some CD68 immunoreactive microglia were juxtaposed to L/M-opsin immunoreactive cone photoreceptors in the ONL. CD11b and Iba immunoelectron microscopy further suggests the presence of a dark microglial phenotype in the degenerating cultured porcine retina. For immunoelectron microscopy, nickel-enhanced diaminobenzidine (DAB) staining resulted in clearly distinguished reaction products in the cytosol of dark microglia
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    Synthesis of calcitonin gene-related peptide (CGRP) by rat arterial endothelial cells
    (F. Hernández y Juan F. Madrid. Universidad de Murcia: Departamento de Biología Celular e Histología, 2001) Doi, Y.; Kudo, H.; Nishino, T.; Kayashima, K.; Kiyonaga, H.; Nagata, T.; Nara, S.; Morita, M.; Fujimoto, S.
    We investigated the protein and mRNA expression of calcitonin gene-related peptide (CGRP) in endothelial cells of the rat thoracic aorta and femoral artery. Light microscopic immunocytochemistry revealed that immunoreactivity for CG RP was preferentially located in the endothelium of both vessels. Immunoelectron microscopy showed that CGRPimmunoreactive gold particles were preferentially localized on cisterns of the rough endoplasmic reticulum and on the Weibel-Palade (WP) bodies in the endothelial cells. Prepro CGRP mRNA signals were also detected on the endothelium. Our results are the first to demonstrate that endothelial cells of both elastic and large muscular arteries synthesize CGRP and store it, in part, in WP bodies, implying that CGRP may act as an endothelium-derived relaxing factor in these vessels.