75 research outputs found

    THE ADAPTIVE DYNAMICS OF ALTRUISM IN SPATIALLY HETEROGENEOUS POPULATIONS

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    CMB and SZ effect separation with Constrained Internal Linear Combinations

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    The `Internal Linear Combination' (ILC) component separation method has been extensively used on the data of the WMAP space mission, to extract a single component, the CMB, from the WMAP multifrequency data. We extend the ILC approach for reconstructing millimeter astrophysical emissions beyond the CMB alone. In particular, we construct a Constrained ILC to extract clean maps of both the CMB or the thermal Sunyaev Zeldovich (SZ) effect, with vanishing contamination from the other. The performance of the Constrained ILC is tested on simulations of Planck mission observations, for which we successfully reconstruct independent estimates of the CMB and of the thermal SZ.Comment: 7 pages, 3 figures, submitted to MNRA

    La nature comme norme

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    La nature comme norme

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    A Basic Review on Estrogen Receptor Signaling Pathways in Breast Cancer

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    Breast cancer is the most common cancer and the deadliest among women worldwide. Estrogen signaling is closely associated with hormone-dependent breast cancer (estrogen and progesterone receptor positive), which accounts for two-thirds of tumors. Hormone therapy using antiestrogens is the gold standard, but resistance to these treatments invariably occurs through various biological mechanisms, such as changes in estrogen receptor activity, mutations in the ESR1 gene, aberrant activation of the PI3K pathway or cell cycle dysregulations. All these factors have led to the development of new therapies, such as selective estrogen receptor degraders (SERDs), or combination therapies with cyclin-dependent kinases (CDK) 4/6 or PI3K inhibitors. Therefore, understanding the estrogen pathway is essential for the treatment and new drug development of hormone-dependent cancers. This mini-review summarizes current literature on the signalization, mechanisms of action and clinical implications of estrogen receptors in breast cancer

    Phytochemicals Targeting Estrogen Receptors: Beneficial Rather Than Adverse Effects?

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    International audienceIn mammals, the effects of estrogen are mainly mediated by two different estrogen receptors, ERα and ERβ. These proteins are members of the nuclear receptor family, characterized by distinct structural and functional domains, and participate in the regulation of different biological processes, including cell growth, survival and differentiation. The two estrogen receptor (ER) subtypes are generated from two distinct genes and have partially distinct expression patterns. Their activities are modulated differently by a range of natural and synthetic ligands. Some of these ligands show agonistic or antagonistic effects depending on ER subtype and are described as selective ER modulators (SERMs). Accordingly, a few phytochemicals, called phytoestrogens, which are synthesized from plants and vegetables, show low estrogenic activity or anti-estrogenic activity with potentially anti-proliferative effects that offer nutraceutical or pharmacological advantages. These compounds may be used as hormonal substitutes or as complements in breast cancer treatments. In this review, we discuss and summarize the in vitro and in vivo effects of certain phytoestrogens and their potential roles in the interaction with estrogen receptors

    Regulation of salmon gonadotrophin-releasing hormone gene expression by sex steroids in rainbow trout brain

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    International audienceSalmon gonadotrophin-releasing hormone (sGnRH) is the major form of gonadotrophin-releasing hormone in the brain of Salmonids and is encoded by two different genes: sGnRH1 and sGnRH2. In the present study, we examined the expression patterns of these two genes during development and throughout the reproductive cycle of the female rainbow trout (Oncorhynchus mykiss), and also investigated the feedback action of sex steroids on brain mRNA levels. Both genes are expressed as early as 14 days postfertilisation and show a similar expression pattern during early life stages. In the adult female, sGnRH1 and sGnRH2 mRNAs are both present in neurones located in the ventral forebrain. This gene expression in the brain appears to be low during early vitellogenesis, and increases during oocyte maturation to reach a maximum after ovulation. The expression of sGnRH1 was not modified by in vivo steroid treatments in any experiment; however, testosterone and 5 alpha-dihydrotestosterone down-regulate brain sGnRH2 gene in immature and adult ovariectomised females. Oestradiol treatment decreases sGnRH2 mRNA levels in the brain of adult ovariectomised females only. In the triploid fish brain, none of the steroids affect brain sGnRH mRNA levels. Our results suggest that, unlike sGnRH1, the sGnRH2 gene is under a strongly androgenic inhibitory control in the immature and adult female rainbow trou

    Morphometric studies of normal sural nerves in children.

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    Quantitative histologic studies of biopsies of normal sural nerves were performed on nine children aged 4 days to 17 years. Stereologic computerized procedures were used to determine total endoneurial area, size distribution and number of myelinated, unmyelinated fibers and Schwann cell nuclei per nerve and per square millimeter, and the ratio of myelin thickness to axonal diameter. There was an inverse linear relationship between the number of myelinated fibers per square millimeter and increasing age. A stronger correlation was found between the number of Schwann cell nuclei per nerve (P less than 0.01) and per square millimeter (P less than 0.001) and the logarithm of age. The slope of myelin thickness/axon diameter regression lines (P less than 0.001) changed with age in linear relationship (correlation coefficient: P less than 0.001). There were no age-dependent changes in the number and density of unmyelinated fibers, but the number of unmyelinated axons per Schwann cell subunit decreased with age. Size distribution histograms for myelinated fibers showed a unimodal profile in the newborn. A second peak at 6-7 micron appeared at age 3 months, shifting progressively to 9-11 micron at 14 years. The distribution of unmyelinated fibers was unimodal, with a peak around 0.8 micron, irrespective of age. There were marked individual variations in endoneurial area
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