La rigidité artérielle, induite par une calcification des carotides, altère l’homéostasie cérébrale chez la souris

La rigidité artérielle est considérée comme un facteur de risque important pour le développement du déclin cognitif. Toutefois, les effets précis de la rigidité artérielle sur le cerveau sont peu connus et, à ce jour, aucun modèle animal ne permet d’étudier l’effet isolé de ce facteur sur l’homéostasie cérébrale. Dans cette étude, nous avons développé un nouveau modèle de rigidité artérielle qui se base sur la calcification de l’artère carotide chez la souris. Au niveau artériel, ce modèle présente une fragmentation de l’élastine, une augmentation de la distribution du collagène et de l’épaisseur intima-média ainsi qu’une diminution de la compliance et de la distensibilité artérielles démontrant la rigidité artérielle. De plus, le modèle ne présente pas d’augmentation de pression artérielle ni de changement de rayon du lumen indiquant une absence d’hypoperfusion globale et d’anévrisme. Au niveau cérébral, les résultats montrent que la rigidité artérielle induit une augmentation de la pulsatilité du flux sanguin cérébral menant ainsi à une augmentation du stress oxydatif. Ce dernier induit une inflammation cérébrale, détectée par l’activation de la microglie et des astrocytes, induisant ultimement une neurodégénérescence. Ces effets sont surtout observés au niveau de l’hippocampe, la région cruciale pour la mémoire et la cognition. Ainsi, cette étude montre que la rigidité artérielle altère l’homéostasie cérébrale et mérite d’être considérée comme une cible potentielle dans la prévention et le traitement des dysfonctions cognitives chez les personnes âgées.Arterial stiffness is considered as an important risk factor for the development of cognitive decline in the elderly population. However, its precise effects on the brain are unknown and, to date, no animal model allows to study the precise outcome of arterial stiffness on the brain homeostasis. In this study, we developed a new animal model of arterial stiffness based on the calcification of the carotid artery in mice. On the arterial level, this model shows a fragmentation of elastin, increased collagen distribution and intima-media thickness as well as decreased arterial compliance and distensibility, thus fulfilling the major arterial stiffness properties. In addition, this model does not a show an increase in blood pressure or change in arterial lumen radius indicating a lack of global hypoperfusion and aneurysm. Regarding the brain, the results show that arterial stiffness induces an increase in cerebral blood flow pulsatility leading to increased oxidative stress. Oxidative stress induces brain inflammation, detected by the activation of microglia and astrocytes, ultimately leading to neurodegeneration. These effects are particularly observed in the hippocampus, a crucial area for memory and cognition. Thus, this study shows that arterial stiffness alters brain homeostasis and therefore should be considered as a potential therapeutical target for the prevention and treatment of cognitive dysfunction in the elderly

Distance Learning in the Humanitarian Field amid the Coronavirus Pandemic: Risks of Creating Barriers and Innovative Benefits

The goal of the research is to study the risks and innovative benefits of distance learning. The main research method is an anonymous survey of academic staff (university teachers) and students (future philologists, foreign language teachers), based on the need to clarify the situation associated with the use of distance learning technologies in the conditions of the quarantine. The following data have been obtained in the course of the study: the most significant opportunities for distance learning, the level of satisfaction with distance learning technologies, the compliance with the previously drawn up training schedule in the distance learning conditions, the satisfaction with the promptness of informing about the training schedule, the use of distance learning technologies to provide feedback, the factors that affect the quality of the implementation of distance learning technologies, the teachers' positive experience of using distance learning technologies, the use of distance learning technologies when providing students with lecture materials, as well as the use of information resources of the institution by the students. The results of the study have revealed that both students and teachers are aware of the need to work in a distance learning environment, but the coronavirus pandemic has created new risks for the higher education system, which require an innovative approach to overcoming barriers in the distance learning system. The results of the article can be used in the organization of distance learning at a humanitarian university

Sociolinguistics features of humor in american linguoculture

Humour is one of the most striking characteristics comprising a plurality of marking elements of cognitive-linguistic identity of native speakers of the language, forming the linguistic culture and sociolinguistics selected matrix formation and structuring of the national cognitive and speech patterns which form the "English humour", "French humour", "Italian humour", "Russian humour", etc. In this article we study the characteristics of the language of representation and perception of American humour, its linguistic and cultural features in humorous texts of American comics from the American linguistic culture. The material for research is the humorous texts and fragments of the performances of American comedians of various topics. The relevance of this study is determined by the value worldview expressed in humour, which in its turn is reflected in the American linguistic culture. The results of the study may find application in University lecture courses on stylistics of the English language and text interpretation, General linguistics, special courses on linguistics, text linguistics, and can also be useful in teaching English as a foreign language.Key words: text, research, language, speech, linguistics, speaker, linguoculture, humour, sociolinguistics

Carotid calcification in mice: a new model to study the effects of arterial stiffness on the brain

BACKGROUND: Arterial stiffness has been identified as an important risk factor for cognitive decline. However, its effects on the brain's health are unknown, and there is no animal model available to study the precise impact of arterial stiffness on the brain. Therefore, the objective of the study was to develop and characterize a new model specific to arterial stiffness in order to study its effects on the brain. METHODS AND RESULTS: Calcium chloride (CaCl2) was applied to carotid arteries of mice, inducing an increase in collagen distribution and intima-media thickness, a fragmentation of elastin, a decrease in arterial compliance and distensibility, and an increase in cerebral blood flow pulsatility (n=3 to 11). Calcium deposits were only present at the site of CaCl2 application, and there was no increase in systemic blood pressure or change in vessel radius making this model specific for arterial stiffness. The effects of carotid stiffness were then assessed in the brain. Carotid calcification induced an increase in the production of cerebral superoxide anion and neurodegeneration, detected with Fluoro-Jade B staining, in the hippocampus (n=3 to 5), a key region for memory and cognition. CONCLUSIONS: A new model of arterial stiffness based on carotid calcification was developed and characterized. This new model meets all the characteristics of arterial stiffness, and its specificity allows the study of the effects of arterial stiffness on the brain

Gene-expression profiling of microdissected breast cancer microvasculature identifies distinct tumor vascular subtypes

INTRODUCTION: Angiogenesis represents a potential therapeutic target in breast cancer. However, responses to targeted antiangiogenic therapies have been reported to vary among patients. This suggests that the tumor vasculature may be heterogeneous and that an appropriate choice of treatment would require an understanding of these differences. METHODS: To investigate whether and how the breast tumor vasculature varies between individuals, we isolated tumor-associated and matched normal vasculature from 17 breast carcinomas by laser-capture microdissection, and generated gene-expression profiles. Because microvessel density has previously been associated with disease course, tumors with low (n = 9) or high (n = 8) microvessel density were selected for analysis to maximize heterogeneity for this feature. RESULTS: We identified differences between tumor and normal vasculature, and we describe two subtypes present within tumor vasculature. These subtypes exhibit distinct gene-expression signatures that reflect features including hallmarks of vessel maturity. Potential therapeutic targets (MET, ITGAV, and PDGFRβ) are differentially expressed between subtypes. Taking these subtypes into account has allowed us to derive a vascular signature associated with disease outcome. CONCLUSIONS: Our results further support a role for tumor microvasculature in determining disease progression. Overall, this study provides a deeper molecular understanding of the heterogeneity existing within the breast tumor vasculature and opens new avenues toward the improved design and targeting of antiangiogenic therapies

Dual effects of phytoestrogens result in u-shaped dose-response curves.

Endocrine disruptors can affect the endocrine system without directly interacting with receptors, for example, by interfering with the synthesis or metabolism of steroid hormones. The aromatase that converts testosterone to 17beta-estradiol is a possible target. In this paper we describe an assay that simultaneously detects aromatase inhibition and estrogenicity. The principle is similar to that of other MCF-7 estrogenicity assays, but with a fixed amount of testosterone added. The endogenous aromatase activity in MCF-7 cells converts some of the testosterone to 17beta-estradiol, which is assayed by quantifying differences in the expression level of the estrogen-induced pS2 mRNA. Potential aromatase inhibitors can be identified by a dose-dependent reduction in the pS2 mRNA expression level after exposure to testosterone and the test compound. Using this assay, we have investigated several compounds, including synthetic chemicals and phytoestrogens, for aromatase inhibition. The phytoestrogens, except genistein, were aromatase inhibitors at low concentrations (< 1 micro M) but estrogenic at higher concentrations (greater than or equal to 1 micro M), resulting in U-shaped dose-response curves. None of the tested synthetic chemicals were aromatase inhibitors. The low-dose aromatase inhibition distinguished phytoestrogens from other estrogenic compounds and may partly explain reports about antiestrogenic properties of phytoestrogens. Aromatase inhibition may play an important role in the protective effects of phytoestrogens against breast cancer

A colitogenic memory CD4+ T cell population mediates gastrointestinal graft-versus-host disease

Damage to the gastrointestinal tract is a major cause of morbidity and mortality in graft-versus-host disease (GVHD) and is attributable to T cell–mediated inflammation. In this work, we identified a unique CD4+ T cell population that constitutively expresses the β2 integrin CD11c and displays a biased central memory phenotype and memory T cell transcriptional profile, innate-like properties, and increased expression of the gut-homing molecules α4β7 and CCR9. Using several complementary murine GVHD models, we determined that adoptive transfer and early accumulation of β2 integrin–expressing CD4+ T cells in the gastrointestinal tract initiated Th1-mediated proinflammatory cytokine production, augmented pathological damage in the colon, and increased mortality. The pathogenic effect of this CD4+ T cell population critically depended on coexpression of the IL-23 receptor, which was required for maximal inflammatory effects. Non–Foxp3-expressing CD4+ T cells produced IL-10, which regulated colonic inflammation and attenuated lethality in the absence of functional CD4+Foxp3+ T cells. Thus, the coordinate expression of CD11c and the IL-23 receptor defines an IL-10–regulated, colitogenic memory CD4+ T cell subset that is poised to initiate inflammation when there is loss of tolerance and breakdown of mucosal barriers

Autoimmune Memory T Helper 17 Cell Function and Expansion Are Dependent on Interleukin-23

SummaryInterleukin-23 (IL-23) is essential for the differentiation of pathogenic effector T helper 17 (Th17) cells, but its role in memory Th17 cell responses is unclear. Using the experimental autoimmune encephalomyelitis (EAE) model, we report that memory Th17 cells rapidly expanded in response to rechallenge and migrated to the CNS in high numbers, resulting in earlier onset and increased severity of clinical disease. Memory Th17 cells were generated from IL-17+ and RORγt+ precursors, and the stability of the Th17 cell phenotype depended on the amount of time allowed for the primary response. IL-23 was required for this enhanced recall response. IL-23 receptor blockade did not directly impact IL-17 production, but did impair the subsequent proliferation and generation of effectors coexpressing the Th1 cell-specific transcription factor T-bet. In addition, many genes required for cell-cycle progression were downregulated in Th17 cells that lacked IL-23 signaling, showing that a major mechanism for IL-23 in primary and memory Th17 cell responses operates via regulation of proliferation-associated pathways

Carcinoembryonic Antigen-Related Cell Adhesion Molecule 1: A Link Between Insulin and Lipid Metabolism

OBJECTIVE—Liver-specific inactivation of carcinoembryonic antigen-related cell adhesion molecule 1 (CEACAM1) by a dominant-negative transgene (l-SACC1 mice) impaired insulin clearance, caused insulin resistance, and increased hepatic lipogenesis. To discern whether this phenotype reflects a physiological function of CEACAM1 rather than the effect of the dominant-negative transgene, we characterized the metabolic phenotype of mice with null mutation of the Ceacam1 gene (Cc1−/−)