effects of sex steroid hormones on neuromedin s and neuromedin u2 receptor expression following experimental traumatic brain injury
نویسندگان
چکیده
objective(s): neuroprotective effects of female gonadal steroids are mediated through several pathways involving multiple peptides and receptors after traumatic brain injury (tbi). two of these peptides are including the regulatory peptides neuromedin u (nmu) and neuromedin s (nms), and their common receptor neuromedin u2 receptor (nmur2). this study investigates the effects of physiological doses of estradiol and progesterone on brain edema, nms and nmu as well as nmur2 expression following tbi. materials and methods: ovariectomized female rats were given high-and low-dose of female sex steroid hormones through implantation of capsules for a week before trauma. the brain nmur2 expression, prepro-nms expression, nmu content, and water content (brain edema) were evaluated 24 hr after tbi induced by marmarou’s method. results: percentage of brain water content in high- and low-dose estradiol, and in high- and low- dose progesterone was less than vehicle (p<0.01). results show high expression of prepro-nms in high dose progesterone (tbi-hp) rats compared to the high dose estrogen (tbi-he), as well as vehicle (p<0.01). nmu content in low-dose progesterone (tbi-lp) group was more than that of vehicle group (p<0.001). furthermore a difference in nmu content observed between tbi-hp compared to tbi-he, and vehicle (p<0.05). the nmur2 mrna expression revealed an upregulation in tbi-hp rats compared to the tbi-he group (p<0.001). conclusion: findings indicate that progesterone attenuates brain edema and induces an increase in nms and its receptor which may mediate the anti-edematous effect of progesterone after tbi.
منابع مشابه
Effects of sex steroid hormones on neuromedin S and neuromedin U2 receptor expression following experimental traumatic brain injury
Objective(s): Neuroprotective effects of female gonadal steroids are mediated through several pathways involving multiple peptides and receptors after traumatic brain injury (TBI). Two of these peptides are including the regulatory peptides neuromedin U (NMU) and neuromedin S (NMS), and their common receptor neuromedin U2 receptor (NMUR2). This study investigates the effects of physiological do...
متن کاملEffects of sex steroid hormones on neuromedin S and neuromedin U2 receptor expression following experimental traumatic brain injury
OBJECTIVES Neuroprotective effects of female gonadal steroids are mediated through several pathways involving multiple peptides and receptors after traumatic brain injury (TBI). Two of these peptides are including the regulatory peptides neuromedin U (NMU) and neuromedin S (NMS), and their common receptor neuromedin U2 receptor (NMUR2). This study investigates the effects of physiological doses...
متن کاملP10: Effects of Female Gonadal Hormones on Neuromedin S and its Receptor Following Experimental Traumatic Brain Injury
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متن کاملp10: effects of female gonadal hormones on neuromedin s and its receptor following experimental traumatic brain injury
brain edema plays an important role in secondary tissue damage following traumatic brain injury (tbi) but the underlying mechanisms are not entirely elucidated. the g protein coupled receptor fm-4 and its ligands, neuromedin s (nms) and neuromedin u (nmu), are expressed in diverse brain areas, and have a variety of roles in nociception, inflammation, and stress but their probable changes after ...
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Animal studies indicate that gonadal steroids have prominent neuroprotective effects in several models of experimental traumatic brain injury (TBI). Neuromedin U (NMU) and neuromedin S (NMS) are regulatory peptides involved in inflammatory and stress responses, and modulation of the gonadotropic axis. Since steroid hormone levels change during the estrous cycle, we sought to determine whether v...
متن کاملComparison of feeding suppression by the anorexigenic hormones neuromedin U and neuromedin S in rats.
We compared the central mechanisms of feeding suppression by the anorexigenic hormones neuromedin U (NMU) and neuromedin S (NMS) in rats. I.c.v. injection of either NMU or NMS dose dependently decreased 3-h food intake during the first quarter of a dark period. Pretreatment involving i.c.v. injection of a specific anti-NMS IgG blocked the suppression of food intake induced by i.c.v.- and i.p.-i...
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عنوان ژورنال:
iranian journal of basic medical sciencesجلد ۱۹، شماره ۱۰، صفحات ۱۰۸۰-۱۰۸۹
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