Role of adipose tissue in the pathogenesis and treatment of metabolic syndrome

© Springer International Publishing Switzerland 2014. Adipocytes are highly specialized cells that play a major role in energy homeostasis in vertebrate organisms. Excess adipocyte size or number is a hallmark of obesity, which is currently a global epidemic. Obesity is not only the primary disease of fat cells, but also a major risk factor for the development of Type 2 diabetes, cardiovascular disease, hypertension, and metabolic syndrome (MetS). Today, adipocytes and adipose tissue are no longer considered passive participants in metabolic pathways. In addition to storing lipid, adipocytes are highly insulin sensitive cells that have important endocrine functions. Altering any one of these functions of fat cells can result in a metabolic disease state and dysregulation of adipose tissue can profoundly contribute to MetS. For example, adiponectin is a fat specific hormone that has cardio-protective and anti-diabetic properties. Inhibition of adiponectin expression and secretion are associated with several risk factors for MetS. For this purpose, and several other reasons documented in this chapter, we propose that adipose tissue should be considered as a viable target for a variety of treatment approaches to combat MetS

Olive Stone Ash as Secondary Raw Material for Fired Clay Bricks

This work evaluates the effect of incorporation of olive stone ash, as secondary raw material, on the properties of fired clay bricks. To this end, three compositions containing 10, 20, and 30 wt% olive stone ash in a mixture of clays (30 wt% red, 30 wt% yellow, and 40 wt% black clay) from Spain were prepared. The raw materials, clay and olive stone ash, were characterized by means of XRD, XRF, SEM-EDS, and TG-TDA analysis. The engineering properties of the press molded specimens fired at 900°C (4 h) such as linear shrinkage, bulk density, apparent porosity, water absorption, and compressive strength were evaluated. The results indicated that the incorporation of 10 wt% of olive stone ash produced bricks with suitable technological properties, with values of compressive strength of 41.9 MPa but with a reduced bulk density, by almost 4%. By contrast, the incorporation of 20 wt% and 30 wt% sharply increased the water absorption as a consequence of the large amount of open porosity and low mechanical strength presented by these formulations, which do not meet the standards for their use as face bricks. The bricks do not present environmental problems according to the leaching test

Incidence of colorectal cancer and influence of dietary habits in fifteen European countries from 1971 to 2002

AbstractObjectiveThis study aimed to analyze the incidence of colorectal cancer in 15 European countries in recent decades and the relationship between the incidence found and changes in dietary habits.MethodsPearson's or Spearman's correlation coefficients were calculated by comparing incidence rates obtained from the International Agency for Research on Cancer for 1971-2002 with data on per capita consumption obtained from the Food and Agriculture Organization of the United Nations using 10-year delay intervals.ResultsIncidence rates increased in all countries except France in men and except Austria, Denmark, England and France in women. Of the dietary variables considered, there were marked increasing trends (linear regression coefficient, R ≥0.5) in red meat consumption in Germany (R = 0.9), Austria (R = 0.7), Finland (R = 0.8), Italy (R = 0.9), Poland (R = 0.5), Spain (R = 2.1), Sweden (R = 0.6), and the Netherlands (R = 0.7).ConclusionsChanges in dietary habits may be consistent with the observed trends in the incidence of colorectal cancer in the distinct European countries

Gut microbiome specific changes in different behavioral profiles in a mouse social defeat stress model.

Comunicación de tipo PósterThe gut microbiome has arisen as one important modulator of general health, including brain function. In fact, disturbances in brain health are commonly mirrored in the microbiome, which could be contributing to pathology. One of the most common brain disorders is depression, which is tightly linked to environmental factors such as stress and drives alterations in regular behavior. However, not much is known about the role of the gut microbiome in response to stress and its relationship to behavior. In this study, the social defeat stress (SDS) paradigm was used as a depressive-like symptoms inducer in 8 w.o. male C57BL/6J mice for 10 days. Mice were segregated in stress resilient and sensitive according to behavior using K-means clustering and behavioral data was interpreted using principal component analysis. Then, the mice microbiome was extracted from fecal pellets after the stress protocol. DNA was extracted and purified followed by 16S (V3-V4) region amplification for sequencing. These data were analyzed to obtain diversity indexes and identify bacterial taxa within samples and groups. Data revealed that mice responded differently to the same stressor. Half the mice were found to have mild depressive-like symptoms whereas the other half showed profound alterations. Behavioral data was found to be explained in three factors: anhedonia, exploration, and motility. Stressed mice showed overall differences in their microbiome, being less diverse and populations associated with higher inflammation. Moreover, the healthy gut associated Verrucomicrobiae class was only identified in stress resilient mice, suggesting a possible relationship with their behavioral phenotype. Altogether, these results show a different behavioral response to stress in animals that reflects in their microbiome, which could be a key factor in determining stress resilience.This study was supported by Ministerio de Ciencia e Innovación - Plan Nacional I+D+I from Spain (PID2020-117464RB-I00) to CP and MP-M; FEDER/Junta de Andalucía - Proyectos I+D+I en el marco del Programa Operativo FEDER Andalucía 2014-2020 (UMA20-FEDERJA-112) to CP and MP-M; Consejería de Conocimiento, Investigación y Universidades, Junta de Andalucía (P20_00460) to CP. PC-P has been funded by the research project PID2020-117464RB-I00. Ministerio de Educación, Cultura y Deporte from Spain (FPU19/03629 to Infantes-López MI). Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Microglial and neurogenic alterations in hypothalamus due to acute stress

This study was supported by FEDER/Ministerio de Ciencia, Innovación y Universidades – Agencia Estatal de Investigación from Spain (PSI2017-83408-P to Pedraza C.), and Ministerio de Educación, Cultura y Deporte from Spain (FPU16/05308 to Nieto-Quero A).Microglial cells are an important glial population known to be involved in several biological processes such as stress response. These cells engage an activated state following a stress insult that may lead to nervous tissue damage, including new cell generation impairment. This has been widely studied in regions with notable neurogenesis such as de hippocampus, however, the effect in other regions with fewer yet relevant neurogenesis remains partially unknown. One of them is the hypothalamus, a key vegetative control center playing an important role in stress response. Moreover, most of the stress models studied concern neuroinflammatory and neurogenic changes due to a chronic stressor but not a single stress event. Given the repercussion of these processes alone, it would be interesting to elucidate the relationship between microglial response, hypothalamic neurogenesis, and acute stress. This project focuses on studying acute stressed C57BL/6J mice, both at the histological and molecular level. An intense stressor combining water immersion and movement restriction was performed. Using immunohistochemical and molecular analysis with Luminex, we could analyze microglial distribution and morphology, neurogenesis, and inflammatory environment in the hypothalamic parenchyma (paraventromedial, ventromedial and arcuate nucleus).Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Sexual differences in hippocampal microglia of adult mice subjected to maternal separation stress.

Introduction: It is well known that early life adversities could a"ect brain development and increase the vulnerability to stress-related disorders later in adulthood. Nevertheless, the neurobiological mechanisms underlying this susceptibility have been poorly characterized and sex could be an important variable. Recently, microglia, which is involved in many neurodevelopmental processes such as neurogenesis and synaptic plasticity, has been proposed as a mediator of this stress response and early life stress could “prime” microglia to be over- responsive in future challenges. Objective: The analysis of hippocampal microglia morphology and distribution in the dentate gyrus (DG) of mice subjected to early stress. Methods: Female and male C57BL/6J mice were subjected to 3h daily maternal separation (MS) for 21 days. In postnatal day 60, adult mice undertook a single 2h restriction stress (RS). Accordingly, the experimental groups were as follows: CTRL, RS, MS, MS+RS. The DG was analyzed using immunohistochemistry techniques against Iba1 (microglia) following image analysis (ImageJ) to obtain morphological and distribution data of microglial somas and DG surface area. Results: Smaller DG surface area was observed in MS male mice compared with the CTRL group, but not in female. Furthermore, microglial soma area changed in a sex-dependent manner, having female mice from MS group an increased soma area than those of MS male mice. This was also observed to be region-specific, with a larger microglia soma in DG subgranular zone (SGZ) of MS female compared to MS male. Since microglia in this DG zone is involved in neurogenesis, this might suggest a possible change in the formation of new born neurons. Conclusion: These results revealed a di"erent microglial response to stress depending on the animal sex and open the door to a better understanding of neurobiological basis in pathologies like depression. .University of Málaga, the project PID2020-117464RB-I00 from Ministerio de Ciencia e Innovación (MCIN/AEI) Spain, awarded to Pedraza, C. and Pérez-Martín, M. ; the project P20_00460 from Consejería de Conocimiento, Investigación y Universidades, Junta de Andalucía awarded to Pedraza, C. and predoctoral fellowship FPU21/01318 awarded to Munoz- Martin, J. funded by MCIN/AEI, Spain. Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech

Effects on the hippocampal microglia after acute treatment of a psychological stressor associated with depressive-like behaviours

Funding: This study was supported by FEDER/Ministerio de Ciencia, Innovación y Universidades – Agencia Estatal de Investigación from Spain (PSI2017-83408-P to C. Pedraza), and Ministerio de Universidades from Spain (FPU16/05308 to A. Nieto-Quero and FPU19/03629 to M.I. Infantes-López).Stressful life events may have a negative impact on mental health compromising people's well-being, so knowing the neurobiological changes that occur after psychosocial stressors can have an impact on overall health. However, the neurobiological mechanisms responsible for the negative effects are not known in detail, and the initial changes that take place after the initiation of a stress protocol are much less well understood. Hippocampus constitutes a target structure of the adverse effects of stress. Among the possible mechanisms involved, the response of microglia to stress is receiving increasing interest. For this reason, after 1 and 24 hours of submitted C57BL/6J mice to acute and intense stress procedure denominated WIRS (water immersion restraint stress), the microglial response were analysed using a set of morphofunctional parameters. Then, the levels of the cytokines: IL-6, IFN-gamma and TNF-alpha cytokine were measured. Furthermore, a complementary proteomic analysis based on the principle of mass spectrometry was carried out. Results reveal that acute stress increased the number of microglia and induced microglial morphofunctional changes. Regarding cytokines, acute stress only increased IL-6 levels, which remained elevated at 24 h. Proteomic analysis, over time (in 24 h post-stress), showed an increase in proteins associated with the intracellular calcium metabolism. These findings suggest a neuroinflammatory response after acute stress observed at one hour after the application of the WIRS protocol and maintained at least 24 hours after the end of the stressor.Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tec

Social defeat stress induces microglial alterations and impaired cell survival in the hypothalamus according to behavioral phenotype

Stress is the main environmental cause for depression, known to cause brain immune alterations. As major brain immune cells, microglia undergo transcriptional and, consequently, morphological changes that result in tissue damage, including new cell generation impairment. Even so, few brain regions have been thoroughly studied, excluding key regulators as the hypothalamus, in which this process remains partially unknown. Moreover, there is a poor understanding in physiology related to behavioral outcome. Therefore, it would be interesting to study the relationship between microglia and cell proliferation in stressed mice while controlling for behavior. Here, we used the social defeat stress (SDS) paradigm as a depression-inducing protocol in 8-week-old male C57BL/6J mice for 10 consecutive days. Intruder mice behavior was analyzed to assess depression using behavioral tests and K-means clustering. By immunohistochemical and imaging procedures, microglial morphology, and distribution, as well as cell survival, were analyzed in the hypothalamic paraventricular, ventromedial and arcuate nucleus. Finally, statistical mediation analysis was conducted to evaluate the relationship among variables. Results show mice response to SDS was different, being half the mice resilient and half sensitive to depressive-like symptoms. Microglial morphological activation was enhanced in the ventromedial and arcuate nucleus, especially in stress sensitive animals. Similar results were observed in cell survival, which was particularly affected in sensitive mice. Strikingly, these cell survival changes were statistically mediated by microglial activation. As a conclusion, hypothalamic regions were found to respond differently to stress, accordingly to behavioral outcome, in terms of microglial activation and subsequent decrease in cell survival.This study was supported by FEDER/Ministerio de Ciencia, Innovación y Universidades – Agencia Estatal de Investigación from Spain (PSI2017-83408-P to Pedraza C.), FEDER/Junta de Andalucía from Spain (UMA20-FEDERJA-112 to Pedraza C. and Pérez- Martín M), and Ministerio de Educación, Cultura y Deporte from Spain (FPU19/03629 to Infantes-López MI and FPU16/05308 to Nieto-Quero A). Universidad de Málaga. Campus de Excelencia Internacional Andalucía Tech