Explore the vast range of titles available.

The olfactory bulbectomized (OB) rat, an animal model of chronic depression with comorbid anxiety, exhibits a profound dysregulation of the brain serotonergic signalling, a neurotransmission system involved in pain transmission and modulation. We here report an increased nociceptive response of OB rats in the tail flick test which is reverted after chronic, but not acute, administration of fluoxetine. Autoradiographic studies demonstrated down-regulation of 5-HT transporters ([ 3 H]citalopram binding) and decreased functionality of 5-HT 1A receptors (8-OH-DPAT-stimulated [ 35 S]GTPγS binding) in the dorsal horn of the lumbar spinal cord in OB rats. Acute administration of fluoxetine (5–40 mg/kg i.p.) did not modify tail flick latencies in OB rats. However, chronic fluoxetine (10 mg/kg/day s.c., 14 days; osmotic minipumps) progressively attenuated OB-associated thermal hyperalgesia, and a total normalization of the nociceptive response was achieved at the end of the treatment with the antidepressant. In these animals, autoradiographic studies revealed further down-regulation of 5-HT transporters and normalization in the functionality of 5-HT 1A receptors on the spinal cord. On the other hand, acute morphine (0.5–10 mg/kg s.c.) produced a similar analgesic effect in OB and sham and OB rats, and no changes were detected in the density ([ 3 H]DAMGO binding) and functionality (DAMGO-stimulated [ 35 S]GTPγS binding) of spinal μ-opioid receptors in OB rats before and after chronic fluoxetine. Our findings demonstrate the participation of the spinal serotonergic system in the increased thermal nociception exhibited by the OB rat and the antinociceptive effect of chronic fluoxetine in this animal model of depression.

Typically, approach behaviour is displayed in the context of moving towards a desired goal, while avoidance behaviour is displayed in the context of moving away from threatening or novel stimuli. In the current research, we detected three sub-populations of C57BL/6J mice that spontaneously responded with avoiding, balancing or approaching behaviours in the presence of the same conflicting stimuli. While the balancing animals reacted with balanced responses between approach and avoidance, the avoiding or approaching animals exhibited inhibitory or advance responses towards one of the conflicting inputs, respectively. Individual differences in approach and avoidance motivation might be modulated by the normal variance in the level of functioning of different systems, such as endocannabinoid system (ECS). The present research was aimed at analysing the ECS involvement on approach and avoidance behavioural processes. To this aim, in the three selected sub-populations of mice that exhibited avoiding or balancing or approaching responses in an approach/avoidance Y-maze we analysed density and functionality of CB(1) receptors as well as enzyme fatty acid amide hydrolase activity in different brain regions, including the networks functionally responsible for emotional and motivational control. The main finding of the present study demonstrates that in both approaching and avoiding animals higher CB(1) receptor density in the amygdaloidal centro-medial nuclei and in the hypothalamic ventro-medial nucleus was found when compared with the CB(1) receptor density exhibited by the balancing animals. The characterization of the individual differences to respond in a motivationally based manner is relevant to clarify how the individual differences in ECS activity are associated with differences in motivational and affective functioning.

Lysophosphatidylinositol (LPI) is a biologically active lipid that produces a number of responses in cultured cells, and has been suggested to have neuroprotective properties in vivo. Some of the actions of LPI are mediated by G-protein coupled receptors, but it is not known whether G-protein coupled receptor-mediated responses can be seen in intact brain tissue. In consequence, in the present study, we investigated autoradiographically whether LPI increased the [(35)S]GTPγS binding level in brain tissue slices. In standard assay conditions, where as a positive control a robust response to cannabinoid receptor activation by the agonist ligand CP55,940 was seen, there was no increase in the autoradiographic density over basal produced by LPI. However, when the conditions were modified (incubation at 4°C rather than at 25°C, incubation time increased to 3 h, GDP concentration reduced from 2 to 0.1 mM), a significant increase in [(35)S]GTPγS autoradiographic density in response to 10 μM LPI was seen in the prefrontal cortex, hippocampus, and cortex at the level of the hippocampus, although the degree of increase was small and very variable. No significant increases were seen in the hypothalamus or cerebellum. It is concluded that LPI, in the right conditions, can activate a sufficient number of G-proteins in the rat prefrontal cortex and hippocampus to produce a response in the [(35)S]GTPγS autoradiographic assay of G-protein coupled receptor function.Lysophosphatidylinositol (LPI) is a biologically active lipid that produces a number of responses in cultured cells, and has been suggested to have neuroprotective properties in vivo. Some of the actions of LPI are mediated by G-protein coupled receptors, but it is not known whether G-protein coupled receptor-mediated responses can be seen in intact brain tissue. In consequence, in the present study, we investigated autoradiographically whether LPI increased the [(35)S]GTPγS binding level in brain tissue slices. In standard assay conditions, where as a positive control a robust response to cannabinoid receptor activation by the agonist ligand CP55,940 was seen, there was no increase in the autoradiographic density over basal produced by LPI. However, when the conditions were modified (incubation at 4°C rather than at 25°C, incubation time increased to 3 h, GDP concentration reduced from 2 to 0.1 mM), a significant increase in [(35)S]GTPγS autoradiographic density in response to 10 μM LPI was seen in the prefrontal cortex, hippocampus, and cortex at the level of the hippocampus, although the degree of increase was small and very variable. No significant increases were seen in the hypothalamus or cerebellum. It is concluded that LPI, in the right conditions, can activate a sufficient number of G-proteins in the rat prefrontal cortex and hippocampus to produce a response in the [(35)S]GTPγS autoradiographic assay of G-protein coupled receptor function.

Lysophosphatidylinositol (LPI) is a biologically active lipid that produces a number of responses in cultured cells, and has been suggested to have neuroprotective properties in vivo. Some of the actions of LPI are mediated by G-protein coupled receptors, but it is not known whether G-protein coupled receptor-mediated responses can be seen in intact brain tissue. In consequence, in the present study, we investigated autoradiographically whether LPI increased the [^sup 35^S]GTPγS binding level in brain tissue slices. In standard assay conditions, where as a positive control a robust response to cannabinoid receptor activation by the agonist ligand CP55,940 was seen, there was no increase in the autoradiographic density over basal produced by LPI. However, when the conditions were modified (incubation at 4°C rather than at 25°C, incubation time increased to 3 h, GDP concentration reduced from 2 to 0.1 mM), a significant increase in [^sup 35^S]GTPγS autoradiographic density in response to 10 μM LPI was seen in the prefrontal cortex, hippocampus, and cortex at the level of the hippocampus, although the degree of increase was small and very variable. No significant increases were seen in the hypothalamus or cerebellum. It is concluded that LPI, in the right conditions, can activate a sufficient number of G-proteins in the rat prefrontal cortex and hippocampus to produce a response in the [^sup 35^S]GTPγS autoradiographic assay of G-protein coupled receptor function.[PUBLICATION ABSTRACT]

Lysophosphatidylinositol (LPI) is a biologically active lipid that produces a number of responses in cultured cells, and has been suggested to have neuroprotective properties in vivo. Some of the actions of LPI are mediated by G-protein coupled receptors, but it is not known whether G-protein coupled receptor-mediated responses can be seen in intact brain tissue. In consequence, in the present study, we investigated autoradiographically whether LPI increased the [ 35 S]GTPγS binding level in brain tissue slices. In standard assay conditions, where as a positive control a robust response to cannabinoid receptor activation by the agonist ligand CP55,940 was seen, there was no increase in the autoradiographic density over basal produced by LPI. However, when the conditions were modified (incubation at 4°C rather than at 25°C, incubation time increased to 3 h, GDP concentration reduced from 2 to 0.1 mM), a significant increase in [ 35 S]GTPγS autoradiographic density in response to 10 μM LPI was seen in the prefrontal cortex, hippocampus, and cortex at the level of the hippocampus, although the degree of increase was small and very variable. No significant increases were seen in the hypothalamus or cerebellum. It is concluded that LPI, in the right conditions, can activate a sufficient number of G-proteins in the rat prefrontal cortex and hippocampus to produce a response in the [ 35 S]GTPγS autoradiographic assay of G-protein coupled receptor function.

Typically, approach behaviour is displayed in the context of moving towards a desired goal, while avoidance behaviour is displayed in the context of moving away from threatening or novel stimuli. In the current research, we detected three sub-populations of C57BL/6J mice that spontaneously responded with avoiding, balancing or approaching behaviours in the presence of the same conflicting stimuli. While the balancing animals reacted with balanced responses between approach and avoidance, the avoiding or approaching animals exhibited inhibitory or advance responses towards one of the conflicting inputs, respectively. Individual differences in approach and avoidance motivation might be modulated by the normal variance in the level of functioning of different systems, such as endocannabinoid system (ECS). The present research was aimed at analysing the ECS involvement on approach and avoidance behavioural processes. To this aim, in the three selected sub-populations of mice that exhibited avoiding or balancing or approaching responses in an approach/avoidance Y-maze we analysed density and functionality of CB.sub.1 receptors as well as enzyme fatty acid amide hydrolase activity in different brain regions, including the networks functionally responsible for emotional and motivational control. The main finding of the present study demonstrates that in both approaching and avoiding animals higher CB.sub.1 receptor density in the amygdaloidal centro-medial nuclei and in the hypothalamic ventro-medial nucleus was found when compared with the CB.sub.1 receptor density exhibited by the balancing animals. The characterization of the individual differences to respond in a motivationally based manner is relevant to clarify how the individual differences in ECS activity are associated with differences in motivational and affective functioning.

Signaling through the inducible costimulator ICOS is required for the homeostasis and function of various immune cell populations, with an outstanding role in the generation and maintenance of germinal centers. Very recently, it has been suggested that the clinical phenotype of ICOS-deficient patients is much broader than initially anticipated and the innate immune response might be also affected. However, the role of the ICOS/ICOS-Ligand axis in the homeostasis and development of innate NK cells is not known, and reports on its participation in NK cell activation are scarce. NK cells may express low levels of ICOS that are markedly enhanced upon activation. We show here that ICOS-deficient (ICOS-KO) mice present low NK cell numbers and defects in the homeostasis of these cells, with delayed maturation and altered expression of the developmental NK cell markers CD122, NK1.1, CD11b or CD27. Our experiments in mixed bone marrow chimera mice indicate that, both, cell-intrinsic defects of ICOS-KO NK and deficiencies in the milieu of these mice contribute to the altered phenotype. ICOS-deficient NK cells show impaired production of IFN-γ and cytotoxicity, and a final outcome of defects in NK cell-mediated effector function during the response to poly(I:C) or vaccinia virus infection in vivo. Interestingly, we show that murine innate cells like IL-2-cultured NK and bone marrow-derived dendritic cells can simultaneously express ICOS and ICOS-Ligand; both molecules are functional in NK intracellular signaling, enhancing early phosphorylation of Akt and Erk, or IFN-γ secretion in IL-2-activated NK cells. Our study shows the functional importance of the ICOS/ICOS-L pair in NK cell homeostasis, differentiation and activity and suggests novel therapeutic targets for NK manipulation.

The aim of this study is to analyse the relationship between democratic quality and excess mortality produced in the year 2020 before COVID-19 vaccinations were generalised. Using cross-sectional data from 80 countries on five continents, multiple linear regression models between excess mortality, the general democracy index and its disaggregation into five categories: electoral process and pluralism, government functioning, political participation, political culture and civil liberties were estimated. The analysis also considered, public health spending per capita, overweight inhabitants, the average temperature of the country, population over 65 years of age, The KOF Globalisation Index, and the Gross National Income per capita as control variables. It was possible to establish a strong inverse association between excess mortality per million inhabitants and the general democracy index and four of its five categories. There was a particularly strong relationship between excess mortality and the political culture dimension (−326.50, p < 0.001). The results suggest that the higher the democratic quality of the political institutions of a State and particularly of their political culture the more improved the response and management of the pandemic was in preventing deaths and protecting their citizens more effectively. Conversely, countries with lower democracy index values have higher excess mortality. Quality democratic political institutions provide more effective public health policies in the face of the COVID-19 pandemic.

Identification of the different elements intervening at the tumor microenvironment seems key to explain clinical evolution in several tumor types. In this study, a set of immune biomarkers (myeloid derived suppressor cells, regulatory T cells, and OX40 + and PD-1 + T lymphocytes counts) in peripheral blood of patients diagnosed with advanced breast cancer were analyzed along of first line antineoplastic therapy. Subsequently, a comparison between groups with clinical benefit versus progression of disease and with a healthy women cohort was executed. Results reflected that patients showed higher basal levels of myeloid derived suppressor cells (35.43, IR = 180.73 vs 17.53, IR = 16.96 cells/μl; p = 0.001) and regulatory T cells (32.05, IR = 29.84 vs 22.61, IR = 13.57 cells/μl; p = 0.001) in comparison with healthy women. Furthermore, an increase in the number of activated T lymphocytes (expressing OX40), a decrease of immune inhibitory cells (MDSCs and Tregs) and inhibited T lymphocytes (expressing PD-1) were observed along the treatment in patients with clinical benefit (p ≤ 0.001). The opposite trend was observed in the case of disease progression. These findings suggest that some critical immune elements can be easily detected and measured in peripheral blood, which open a new opportunity for translational research, as they seem to be correlated with clinical evolution, at least in ABC.

This study evaluates women’s metabolomics profiles and subclinical measures of atherosclerosis. Pregnant women (< 20 weeks’ gestation) living in Mexico City, Mexico, were recruited in 2007–2011 to the PROGRESS cohort. Serum untargeted metabolomics data at 1-month postpartum were analyzed using chromatography high-resolution mass spectrometry (LC-HRMS), and carotid intima media thickness (CIMT) was measured 8-years postdelivery using B-mode ultrasound. A metabolome-wide association study was conducted to identify metabolites associated with CIMT measures, adjusting for age, education, pre-pregnancy BMI, and smoking exposure. Class-and pathway-based enrichment analysis was performed. Metabolites of the superclasses lipids, organic acids, oxygen compounds, benzenoids and organoheterocyclic compounds were significantly associated with CIMT. The associations included relevant lipid-like metabolites such as 9S- and 13S-HODE, sphinganine-1-phosphate, the branched-chain amino acid 3-Methyl-2-Oxovaleric acid, and the benzenoid phenylpyruvic acid. The related biological pathways included regulation of white adipocyte differentiation, PPARalpha activation of gene expression, and regulation of lipid metabolism. Several metabolites at early postpartum were associated with 8-years postdelivery CIMT. These results highlight the potential of metabolomics as early markers for long-term women´s cardiovascular health.