Isabel Gonçalves scite author profile

After cell death, via apoptosis or necrosis, the uptake of dead cells by neighboring cells or phagocytes prevents the release of intracellular content. An array of molecules, including initiation molecules of the complement system, are involved in marking dead cells for uptake. After binding of these molecules, complement activation takes place, which when uncontrolled might result in a proinflammatory state. In the current study we demonstrate that complement inhibitor, C4b-binding protein (C4BP), binds strongly to necrotic cells, irrespective of the cell type used or the method of induction. After binding of the C4BP–protein S (PS) complex to necrotic cells via PS-phosphatidylserine and C4BP-DNA interactions, C4BP-PS inhibits complement activation on these cells. C4BP binds DNA via a patch of positively charged amino acids, mainly on the second complement control domain of the C4BP α-chain (affinity constant: 190 nM). Furthermore, C4BP limits DNA release from necrotic cells and inhibits DNA-mediated complement activation in solution. The C4BP–necrotic cell interaction also occurs in vivo as necrotic areas of arteriosclerotic plaques and of various cancers stain strongly positive for C4BP. This study describes a novel mechanism in which C4BP limits the inflammatory potential of necrotic cells.

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Gender associated circadian oscillations of the clock genes in rat choroid plexus

Quintela

Sousa

Patriarca

et al. 2014

Brain Struct Funct

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It is well-documented that circadian rhythms are controlled by the circadian master clock of the mammalian brain, located in the suprachiasmatic nucleus (SCN) of the hypothalamus. The SCN clockwork is a cell autonomous mechanism consisting of a series of interlocked transcriptional/post-translational feedback loops. In turn, the SCN controls the seasonal rhythmicity of various biological processes, in particular the secretion pattern of hormones. Although the effects of gonadal hormones on circadian rhythmicity are clearly established, how the SCN integrates and regulates these hormonal stimuli remains unknown. We have previously found that clock genes are expressed in the choroid plexus (CP). Therefore, we compared the circadian expression of these genes in female and male rat CP. We show that there is a 24-h rhythm in the expression of Per2 and Cry2 in males and females. Bmal1 and Per1 expression also varied along the day, but only in females. Bmal1, Clock and Per1 mRNA did not show any significant differences in the CP of males. Moreover, data from cultured CP cells collected at different timepoints revealed significant circadian rhythms in mRNA abundance of Bmal1, Clock and Per2. In conclusion, our data show that the rat CP expresses all canonical clock genes and that their circadian expression differs between genders suggesting that hormones can regulate circadian rhythmicity in CP.

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Analysis of the Effects of Sex Hormone Background on the Rat Choroid Plexus Transcriptome by cDNA Microarrays

et al. 2013

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The choroid plexus (CP) are highly vascularized branched structures that protrude into the ventricles of the brain, and form a unique interface between the blood and the cerebrospinal fluid (CSF), the blood-CSF barrier, that are the main site of production and secretion of CSF. Sex hormones are widely recognized as neuroprotective agents against several neurodegenerative diseases, and the presence of sex hormones cognate receptors suggest that it may be a target for these hormones. In an effort to provide further insight into the neuroprotective mechanisms triggered by sex hormones we analyzed gene expression differences in the CP of female and male rats subjected to gonadectomy, using microarray technology. In gonadectomized female and male animals, 3045 genes were differentially expressed by 1.5-fold change, compared to sham controls. Analysis of the CP transcriptome showed that the top-five pathways significantly regulated by the sex hormone background are olfactory transduction, taste transduction, metabolism, steroid hormone biosynthesis and circadian rhythm pathways. These results represent the first overview of global expression changes in CP of female and male rats induced by gonadectomy and suggest that sex hormones are implicated in pathways with central roles in CP functions and CSF homeostasis.

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The choroid plexus as a sex hormone target: Functional implications

Santos

Duarte

Quintela

et al. 2017

Frontiers in Neuroendocrinology

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The choroid plexuses (CPs) are highly vascularized branched structures that protrude into the ventricles of the brain, and form a unique interface between the blood and the cerebrospinal fluid (CSF). In recent years, novel functions have been attributed to this tissue such as in immune and chemical surveillance of the central nervous system, brain development, adult neurogenesis and circadian rhythm regulation. Sex hormones (SH) are widely recognized as modulators in several neurodegenerative diseases, and there is evidence that estrogens and androgens regulate several fundamental biological functions in the CPs. Therefore, SH are likely to affect the composition of the CSF impacting on brain homeostasis. This review will look at implications of the CPs' sex-related specificities.

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The Crosstalk between Melatonin and Sex Steroid Hormones

et al. 2021

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Melatonin, an indolamine mainly released from the pineal gland, is associated with many biological functions namely the modulation of circadian and seasonal rhythms, sleep inducer, regulator of energy metabolism, antioxidant and anticarcinogenic. Although several evidences also recognize the influence of melatonin in the reproductive physiology, the crosstalk between melatonin and sex hormones is not clear. Here, we review the effects of sex differences in the circulating levels of melatonin and update the current knowledge on the link between sex hormones and melatonin. Furthermore, we explore the effects of melatonin on gonadal steroidogenesis and hormonal control in females. The literature review shows that despite the strong evidence that sex differences impact on the circadian profiles of melatonin, reports are still considerably ambiguous and these differences may arise from several factors, like the use of contraceptive pills, hormonal status and sleep deprivation. Furthermore, there has been an inconclusive debate about the characteristics of the reciprocal relationship between melatonin and reproductive hormones. In this regard, there is evidence for the role of melatonin in gonadal steroidogenesis brought about by research that shows that melatonin affects multiple transduction pathways that modulate Sertoli cell physiology and consequently spermatogenesis, and also estrogen and progesterone production. From the outcome of our research, it is possible to conclude that understanding the correlation between melatonin and reproductive hormones is crucial for the correction of several complications occurring during pregnancy, like pre-eclampsia and for the control of climacteric symptoms.

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