Rocío Serantes scite author profile

Several genes coding for different cytokines may affect host susceptibility to tuberculosis. This study investigates the relationship of the single base change polymorphic variants identified in the first intron of interferon-gamma (+874 T/A) and in the promoter region of interleukin-10 gene (-1,082 G/A), with cytokine production by peripheral blood mononuclear cells and tuberculosis susceptibility. We studied a Spanish population of 113 patients with culture-proven pulmonary tuberculosis, 207 healthy close contacts (125 tuberculin reactive and 82 tuberculin negative), and 100 healthy tuberculin-negative control subjects. Multiple logistic regression analysis showed that individuals homozygous for the interferon-gamma (+874) A allele had a 3.75-fold increased risk of developing tuberculosis (95% confidence interval, 2.26-6.23, p = 0.0017). Stimulated production of interferon-gamma by peripheral mononuclear cells from patients with genotype AA was depressed compared with that of non-AA homozygotes at the time of diagnosis and after completion of therapy. Multivariate analysis showed that the presence of an AA genotype and the absolute number of lymphocytes were the only independent predictors of interferon-gamma production. In contrast, the different rates of interleukin-10 production associated with the interleukin-10 polymorphism did not affect susceptibility to tuberculosis. Thus, a genetic defect in the production of interferon-gamma in individuals homozygous for the (+874) A allele could contribute to their increased risk of developing tuberculosis.

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Function of Partially Duplicated Human α7 Nicotinic Receptor Subunit CHRFAM7A Gene

Lucas-Cerrillo¹,

Maldifassi²,

Arnalich

et al. 2011

Journal of Biological Chemistry

115

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The neuronal ␣7 nicotinic receptor subunit gene (CHRNA7) is partially duplicated in the human genome forming a hybrid gene (CHRFAM7A) with the novel FAM7A gene. The hybrid gene transcript, dup␣7, has been identified in brain, immune cells, and the HL-60 cell line, although its translation and function are still unknown. In this study, dup␣7 cDNA has been cloned and expressed in GH4C1 cells and Xenopus oocytes to study the pattern and functional role of the expressed protein. Our results reveal that dup␣7 transcript was natively translated in HL-60 cells and heterologously expressed in GH4C1 cells and oocytes. Injection of dup␣7 mRNA into oocytes failed to generate functional receptors, but when co-injected with ␣7 mRNA at ␣7/dup␣7 ratios of 5:1, 2:1, 1:1, 1:5, and 1:10, it reduced the nicotine-elicited ␣7 current generated in control oocytes (␣7 alone) by 26, 53, 75, 93, and 94%, respectively. This effect is mainly due to a reduction in the number of functional ␣7 receptors reaching the oocyte membrane, as deduced from ␣-bungarotoxin binding and fluorescent confocal assays. Two additional findings open the possibility that the dominant negative effect of dup␣7 on ␣7 receptor activity observed in vitro could be extrapolated to in vivo situations. (i) Compared with ␣7 mRNA, basal dup␣7 mRNA levels are substantial in human cerebral cortex and higher in macrophages.(ii) dup␣7 mRNA levels in macrophages are down-regulated by IL-1␤, LPS, and nicotine. Thus, dup␣7 could modulate ␣7 receptor-mediated synaptic transmission and cholinergic antiinflammatory response.Neuronal ␣7 nicotinic acetylcholine receptors (␣7 nAChRs) 4 are widely expressed in the central and peripheral nervous systems. In neurons, homomeric ␣7 nAChRs, composed of five ␣7 subunits, modulate neurotransmitter release in presynaptic nerve terminals and induce excitatory impulses in postsynaptic neurons (1-4). Signaling through ␣7 nAChRs in the central nervous system has been associated with neuronal plasticity and cell survival (5-7), although impaired activity of this receptor has been implicated in the pathogenesis of schizophrenia, Alzheimer disease, and depression (8 -12). The presence of ␣7 nAChRs has also been reported in non-neuronal cells such as vascular and brain en-

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Interleukin-1β Enhances GABAA Receptor Cell-surface Expression by a Phosphatidylinositol 3-Kinase/Akt Pathway

Serantes

Arnalich

Figueroa

et al. 2006

Journal of Biological Chemistry

121

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Sepsis-associated encephalopathy (SAE) is a frequent but poorly understood neurological complication in sepsis that negatively influences survival. Here we present clinical and experimental evidence that this brain dysfunction may be related to altered neurotransmission produced by inflammatory mediators. Compared with septic patients, SAE patients had higher interleukin-1␤ (IL-1␤) plasma levels; interestingly, these levels decreased once the encephalopathy was resolved. A putative IL-1␤ effect on type A ␥-aminobutyric acid receptors (GABA A Rs), which mediate fast synaptic transmission in most cerebral inhibitory synapses in mammals, was investigated in cultured hippocampal neurons and in Xenopus oocytes expressing native or foreign rat brain GABA A Rs, respectively. Confocal images in both cell types revealed that IL-1␤ increases recruitment of GABA A Rs to the cell surface. Moreover, brief applications of IL-1␤ to voltage-clamped oocytes yielded a delayed potentiation of the GABA-elicited chloride currents (I GABA ); this effect was suppressed by IL-1ra, the natural IL-1 receptor (IL-1RI) antagonist. Western blot analysis combined with I GABA recording and confocal images of GABA A Rs in oocytes showed that IL-1␤ stimulates the IL-1RI-dependent phosphatidylinositol 3-kinase activation and the consequent facilitation of phospho-Akt-mediated insertion of GABA A Rs into the cell surface. The interruption of this signaling pathway by specific phosphatidylinositol 3-kinase or Akt inhibitors suppresses the cytokine-mediated effects on GABA A R, whereas activation of the conditionally active form of Akt1 (myr-Akt1.ER*) with 4-hydroxytamoxifen reproduces the effects. These findings point to a previously unrecognized signaling pathway that connects IL-1␤ with increased "GABAergic tone." We propose that through this mechanism IL-1␤ might alter synaptic strength at central GABAergic synapses and so contribute to the cognitive dysfunction observed in SAE.

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Dynamic association of the Ca²⁺ channel α_1A subunit and SNAP‐25 in round or neurite‐emitting chromaffin cells

Andrés-Mateos

Renart

Cruces

et al. 2005

Eur J of Neuroscience

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Although the specific interaction between synaptic protein SNAP-25 and the alpha1A subunit of the Cav2.1 channels, which conduct P/Q-type Ca2+ currents, has been confirmed in in vitro-translated proteins and brain membrane studies, the question of how native proteins can establish this association in situ in developing neurons remains to be elucidated. Here we report data regarding this interaction in bovine chromaffin cells natively expressing both proteins. The two carboxyl-terminal splice variants of the alpha1A subunit identified in these cells share a synaptic protein interaction ('synprint') site within the II/III loop segment and are immunodetected by a specific antibody against bovine alpha1A protein. Moreover, both alpha1A isoforms form part of the P/Q-channels-SNARE complexes in situ because they are coimmunoprecipitated from solubilized chromaffin cell membranes by a monoclonal SNAP-25 antibody. The distribution of alpha1A and SNAP-25 was studied in round or transdifferentiated chromaffin cells using confocal microscopy and specific antibodies: the two proteins are colocalized at the cell body membrane in both natural cell types. However, during the first stages of the cell transdifferentiation process, SNAP-25 migrates alone out to the developing growth cone and what will become the nerve endings and varicosities of the mature neurites; alpha1A follows and colocalizes to SNAP-25 in the now mature processes. These observations lead us to propose that the association between SNAP-25 and alpha1A during neuritogenesis might promote not only the efficient coupling of the exocytotic machinery but also the correct insertion of P/Q-type channels at specialized active zones in presynaptic neuronal terminals.

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Rocío Serantes

Interferon-γ and Interleukin-10 Gene Polymorphisms in Pulmonary Tuberculosis

Function of Partially Duplicated Human α7 Nicotinic Receptor Subunit CHRFAM7A Gene

Interleukin-1β Enhances GABAA Receptor Cell-surface Expression by a Phosphatidylinositol 3-Kinase/Akt Pathway

Dynamic association of the Ca²⁺ channel α_1A subunit and SNAP‐25 in round or neurite‐emitting chromaffin cells

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Rocío Serantes

Interferon-γ and Interleukin-10 Gene Polymorphisms in Pulmonary Tuberculosis

Function of Partially Duplicated Human α7 Nicotinic Receptor Subunit CHRFAM7A Gene

Interleukin-1β Enhances GABAA Receptor Cell-surface Expression by a Phosphatidylinositol 3-Kinase/Akt Pathway

Dynamic association of the Ca2+ channel α1A subunit and SNAP‐25 in round or neurite‐emitting chromaffin cells

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Dynamic association of the Ca²⁺ channel α_1A subunit and SNAP‐25 in round or neurite‐emitting chromaffin cells