Showing papers on "Prolactin published in 2010"
TL;DR: Analysis of hormone receptor mutant mouse strains combined with tissue recombination techniques and proteomics revealed that sequential activation of hormone signaling in the mammary epithelium is required for progression of morphogenesis.
Abstract: A woman’s breast cancer risk is affected by her reproductive history. The hormonal milieu also influences the course of the disease. The female reproductive hormones, estrogens, progesterone, and prolactin, have a major impact on breast cancer and control postnatal mammary gland development. Analysis of hormone receptor mutant mouse strains combined with tissue recombination techniques and proteomics revealed that sequential activation of hormone signaling in the mammary epithelium is required for progression of morphogenesis. Hormones impinge on a subset of luminal mammary epithelial cells (MECs) that express hormone receptors and act as sensor cells translating and amplifying systemic signals into local stimuli. Proliferation is induced by paracrine mechanisms mediated by distinct factors at different stages. Tissue and stage specificity of hormonal signaling is achieved at the molecular level by different chromatin contexts and differential recruitment of coactivators and corepressors.
392 citations
TL;DR: It is demonstrated that prolactin-induced increase in generation of neural progenitors in the SVZ of the maternal brain during early pregnancy is required for normal expression of postpartum maternal behaviors.
Abstract: High prolactin during pregnancy, which is essential for normal postpartum maternal behavior, increases neurogenesis in the subventricular zone of the lateral ventricle (SVZ) of the maternal brain. Because SVZ mitogenesis generates new olfactory neurons and may contribute to perception of novel odorants, we hypothesized that the prolactin-induced increase in SVZ mitogenesis during pregnancy might be important for normal maternal interactions with pups. To investigate this hypothesis, prolactin secretion was suppressed for 3 d early in pregnancy in mice, using a carefully timed dose of bromocriptine. The bromocriptine-induced reduction in prolactin prevented the normal increase in generation of neural progenitors in the SVZ of the maternal brain. Another group of bromocriptine-treated animals were allowed to continue their pregnancy until term, and then maternal behaviors were evaluated postpartum. Low prolactin during early pregnancy, and the consequent suppression of mitogenesis in the SVZ of the maternal...
167 citations
TL;DR: Novel concepts in PRL biology are discussed, which were shown in experimental models to down-regulate the effects triggered by local PRL (competitive antagonism) or by the constitutively active receptor variants (inverse agonism).
Abstract: Human prolactin (PRL) is currently viewed as a hormone of pituitary origin, whose production (i.e. serum levels) is controlled by dopamine, whose biological actions relate exclusively to lactation and reproductive functions, for which any genetic disorder is yet to be identified, and whose unique associated pathology is hyperprolactinemia. Both experimental studies and human sample/cohort-based investigations performed during the past decade have considerably widened our perception of PRL biology: i) there are now strong epidemiological arguments supporting the fact that circulating PRL is a risk factor for breast cancer, ii) in addition to the endocrine hormone, locally produced PRL has been documented in several human tissues; there is increasing evidence supporting the tumor growth potency of local PRL, acting via autocrine/paracrine mechanisms, in both rodent models, and human breast and prostate tumors, iii) the first functional germinal polymorphisms of the PRL receptor were recently identified in patients presenting with breast tumors, which involve single amino acid substitution variants exhibiting constitutive activity, iv) human PRL analogs have been engineered, which were shown in experimental models to down-regulate the effects triggered by local PRL (competitive antagonism) or by the constitutively active receptor variants (inverse agonism). The aim of this review is to discuss these novel concepts in PRL biology, including their potential pathophysiological outcomes.
157 citations
TL;DR: Although glucocorticoids have adverse effects it is not clear what their role in pregnancy failure is, however, secretion of vital hormones such as progesterone and prolactin are reduced and this unbalances the delicate and important pregnancy-protective cytokine milieu.
150 citations
TL;DR: Prolactin‐induced pSTAT5, detected by immunohistochemistry, provided a functional index of prolactin receptor activation in neurons, and was particularly prominent in the rostral and mediobasal hypothalamus.
Abstract: Prolactin has numerous biological actions in the brain, and transgenic mice are increasingly being used to investigate these actions. The present study aimed to provide a detailed mapping of the prolactin-responsive neurons in the female mouse forebrain by describing the distribution of prolactin receptor mRNA by in situ hybridization, and measuring prolactin-induced phosphorylation of signal transducer and activation of transcription 5 (pSTAT5) by immunohistochemistry. For in situ hybridization, a probe designed to detect both long and short receptor isoforms showed mRNA expression in a heterogeneous manner within the forebrain. Strong expression was observed in the rostral hypothalamus, particularly in periventricular regions, as well as in the arcuate and ventromedial nuclei of the mediobasal hypothalamus. There was also significant expression in some nonhypothalamic regions, notably high expression in the choroid plexus, and lower levels of expression in the medial amygdala, bed nucleus of the stria terminalis, and lateral septum. Prolactin-induced pSTAT5, detected by immunohistochemistry, provided a functional index of prolactin receptor activation in neurons. Prolactin-induced pSTAT5 was only observed in areas containing prolactin receptor mRNA, and was particularly prominent in the rostral and mediobasal hypothalamus. Most other areas that contained prolactin receptor mRNA also showed positive signal for prolactin-induced pSTAT5. The major exceptions were paraventricular nucleus and median preoptic nucleus, in which prolactin receptor mRNA was observed, but no induction of pSTAT5 by prolactin. The data provide key neuroanatomical information facilitating the use of the mouse model for furthering our understanding of prolactin actions in the brain.
146 citations
TL;DR: This multiparameter investigation aimed to identify markers for recurrence and progression in prolactin tumors by retrospectively studying clinical data, tumor characteristics, clinical outcome, and the expression of nine genes by quantitative RT-PCR.
Abstract: Context and Objective: Predicting pituitary tumor behavior remains a challenge. This multiparameter investigation aimed to identify markers for recurrence and progression in prolactin tumors. Design: From a cohort of patients treated for prolactin tumors by surgery, we retrospectively studied clinical data, tumor characteristics, clinical outcome, and the expression of nine genes by quantitative RT-PCR. Results: This study included 94 patients (62 females and 32 men), with long postoperative follow-up periods (mean, 138 ± 46 months); 54.3% of patients had a macro or giant adenoma. Tumors were classified into three pathological groups based on their radiological and histological characteristics (noninvasive, 61; invasive, 22; and aggressive-invasive, 11). Immediately after surgery, 60 patients (63.8%) went into remission (prolactin level normalization). Persistently elevated prolactin levels (36.2%) were associated with increasing age, male sex, high preoperative prolactin levels, large tumor size on univariate analysis, and invasion and pathological classification on univariate and multivariate (P = 8 × 10 -10 and 3 × 10 -8) analysis. During follow-up, 19 patients (20%) had tumors that recurred or progressed under dopamine agonist treatment. Invasion and pathological classification were associated with recurrence or progression on univariate analysis. Seven genes (ADAMTS6, CRMP1, PTTG, ASK, CCNB1, AURKB, and CENPE) were associated with tumor recurrence or progression and five of these (ADAMTS6, CRMP1, ASK, CCNB1, and CENPE) were associated with the pathological classification. Conclusion: This study identifies both the clinical and histological factors that relate to prolactin tumor recurrence or progression. Molecular markers give additional information for prognosis of such tumors. Altogether, our results could influence the management of patients with pituitary tumors. Copyright © 2010 by The Endocrine Society.
141 citations
TL;DR: Data suggest that placental lactogen secretion may mediate the hormone‐induced loss of response to leptin during pregnancy, and appears to be mediated downstream of the primary leptin‐responsive neurones in the mediobasal hypothalamus, possibly in the paraventricular nucleus.
Abstract: Appetite and food intake are increased during pregnancy, comprising an adaptive response that facilitates energy storage in preparation for the high metabolic demands of pregnancy and subsequent lactation. To maintain the increased energy intake in the face of increased adiposity and rising leptin levels, pregnant females become resistant to the central anorectic actions of leptin. In rats, pregnancy-induced leptin resistance is characterised by elevated neuropeptide Y and reduced pro-opiomelanocortin expression in the arcuate nucleus, reduced leptin receptor mRNA levels and suppression of leptin-induced phosphorylated signal transducer and activator of transcription-3 protein in the ventromedial hypothalamic nucleus, as well as a loss of anorectic responses to both leptin and alpha-melantocyte-stimulating hormone. Our recent data suggest that this leptin-resistance may also cause central insulin resistance and an altered peripheral glucose homeostasis. The specific hormone changes during pregnancy that might mediate these effects on leptin signalling are a current focus of investigation. In pseudopregnant rats, chronic i.c.v. infusion of ovine prolactin to mimic patterns of placental lactogen secretion that occur during pregnancy completely blocked the ability of leptin to suppress food intake. These data suggest that placental lactogen secretion may mediate the hormone-induced loss of response to leptin during pregnancy. This action of prolactin/placental lactogen appears to be mediated downstream of the primary leptin-responsive neurones in the mediobasal hypothalamus, possibly in the paraventricular nucleus. Our studies show complex hormone-induced adaptations in the normal hypothalamic pathways regulating body weight homeostasis during pregnancy.
136 citations
TL;DR: This review summarizes the current knowledge about prolactin signaling and its role in reproduction through either long or short isoform receptors.
Abstract: Prolactin is a hormone involved in growth, development, reproduction, metabolism, water and electrolyte balance, brain and behavior, and immunoregulation. Its actions on reproductive processes represent the largest group of functions identified for this hormone. Besides the classic long form of the prolactin receptor, many short form receptors have been identified in rodents and human tissues. Mouse mutagenesis studies have offered insight into the biology of the prolactin family, providing compelling evidence that different isoforms have independent biological activity. The possibility that short forms mediate cell proliferation is important for a variety of tissues including mammary glands and ovarian follicles. This review summarizes the current knowledge about prolactin signaling and its role in reproduction through either long or short isoform receptors.
95 citations
TL;DR: Results suggest that changes in PRL-signaling pathway genes during heat stress are associated with differential cytokine secretion by lymphocytes and may regulate lymphocyte proliferation in dairy cows.
91 citations
TL;DR: Evidence is provided that kisspeptin regulates PRL release through inhibition of hypothalamic dopaminergic neurons, and that this mechanism is E2 dependent in females, which suggests a new role for centralkisspeptin with possible implications for reproductive physiology.
Abstract: Prolactin (PRL) is tonically inhibited by dopamine (DA) released from neurons in the arcuate and periventricular nuclei. Kisspeptin plays a pivotal role in LH regulation. In rodents, kisspeptin neurons are found mostly in the anteroventral periventricular and arcuate nuclei, but the physiology of arcuate kisspeptin neurons is not completely understood. We investigated the role of kisspeptin in the control of hypothalamic DA and pituitary PRL secretion in adult rats. Intracerebroventricular kisspeptin-10 (Kp-10) elicited PRL release in a dose-dependent manner in estradiol (E2)-treated ovariectomized rats (OVX+E2), whereas no effect was found in oil-treated ovariectomized rats (OVX). Kp-10 increased PRL release in males and proestrous but not diestrous females. Associated with the increase in PRL release, intracerebroventricular Kp-10 reduced Fos-related antigen expression in tyrosine hydroxylase-immunoreactive (ir) neurons of arcuate and periventricular nuclei in OVX+E2 rats, with no effect in OVX rats. Kp-10 also decreased 3,4-dihydroxyphenylacetic acid concentration and 3,4-dihydroxyphenylacetic acid-DA ratio in the median eminence but not striatum in OVX+E2 rats. Double-label immunofluorescence combined with confocal microscopy revealed kisspeptin-ir fibers in close apposition to and in contact with tyrosine hydroxylase-ir perikarya in the arcuate. In addition, Kp-10 was not found to alter PRL release from anterior pituitary cell cultures regardless of E2 treatment. We provide herein evidence that kisspeptin regulates PRL release through inhibition of hypothalamic dopaminergic neurons, and that this mechanism is E2 dependent in females. These findings suggest a new role for central kisspeptin with possible implications for reproductive physiology.
90 citations
TL;DR: A model for prolactin regulation where a TIDA network switch from oscillations to sustained discharge converts dopamine from an antagonist at high concentrations to a functional agonist as dopamine output from the network decreases is suggested.
TL;DR: It is demonstrated that microRNAs are critical for anterior pituitary development and that miR-26b regulatespituitary expression by inhibiting Lef-1 expression and may promote Pit-1 lineage differentiation during pituitsary development.
TL;DR: The results show that Kp10 can stimulate the release of LH and FSH but not GH and PRL in female goats and suggest that the LH- and F SH-releasing effect of the i.v. injection of Kp 10 is less potent than that of GnRH.
TL;DR: It is demonstrated here that Eya3 is the strongest LP-activated gene in sheep, revealing a common photoperiodic molecular response in birds and mammals and candidates for the elusive PT-expressed tuberalin seasonal hormone regulator.
TL;DR: Evidence that low doses of PRL, estradiol (E(2)), and bisphenol A (BPA) antagonize multiple anticancer drugs that induce cell death by different mechanisms is reviewed.
Abstract: Resistance to chemotherapy is a major complication in the treatment of advanced breast cancer. Estrogens and prolactin (PRL) are implicated in the pathogenesis of breast cancer but their roles in chemoresistance have been overlooked. A common feature to the two hormones is activation of their receptors by diverse compounds, which mimic or antagonize their actions. The PRL receptor is activated by lactogens (PRL, GH, or placental lactogen) originating from the pituitary, breast, adipose tissue, or the placenta. Estrogen receptors exist in multiple membrane-associated and cytoplasmic forms that can be activated by endogenous estrogens, man-made chemicals, and phytoestrogens. Here, we review evidence that low doses of PRL, estradiol (E(2)), and bisphenol A (BPA) antagonize multiple anticancer drugs that induce cell death by different mechanisms. Focusing on cisplatin, a DNA-damaging drug which is effective in the treatment of many cancer types but not breast cancer, we compare the abilities of PRL, E(2), and BPA to antagonize its cytotoxicity. Whereas PRL acts by activating the glutathione-S-transferase detoxification enzyme, E(2) and BPA act by inducing the antiapoptotic protein Bcl-2. The implications of these findings to patients undergoing chemotherapy are discussed.
TL;DR: Prolactin, by multiple mechanisms, including regulation of vitamin D metabolism, induction of TRPV6 mRNA, and cooperation with 1,25(OH)(2)D(3) in induction of intestinal calcium transport genes and intestine calcium transport, can act as an important modulator of vitaminD-regulated calcium homeostasis.
Abstract: Increased calcium transport has been observed in vitamin D-deficient pregnant and lactating rats, indicating that another factor besides 1,25-Dihydroxyvitamin D3 (1,25(OH)2D3) is involved in intestinal calcium transport. To investigate prolactin as a hormone involved in calcium homeostasis, vitamin D-deficient male mice were injected with 1,25(OH)2D3, prolactin, or prolactin + 1,25(OH)2D3. Prolactin alone (1 μg/g body weight 48, 24, and 4 h before termination) significantly induced duodenal transient receptor potential vanilloid type 6 (TRPV6) mRNA (4-fold) but caused no change in calbindin-D9k. Combined treatment with 1,25(OH)2D3 and prolactin resulted in an enhancement of the 1,25(OH)2D3 induction of duodenal TRPV6 mRNA, calbindin-D9k mRNA, and an induction of duodenal calcium transport [P < 0.05 compared with 1,25(OH)2D3 alone]. Because lactation is associated with an increase in circulating 1,25(OH)2D3, experiments were done to determine whether prolactin also has a direct effect on induction of 25-hy...
TL;DR: It is reported here that Nestin-Cre mice themselves are affected by mild hypopituitarism, and physiological consequences are expected, especially in combination with defects resulting from Cre mediated deletion of any gene under investigation.
Abstract: Nestin-Cre mice express Cre recombinase under control of the rat nestin promoter and central nervous system (CNS) enhancer. While endogenous Nestin is expressed in some other tissues including the pituitary gland, Nestin-Cre mice induce recombination predominantly in the CNS. For this reason, they have been widely used to explore gene function or cell fate in the latter. Pituitary hormonal deficiencies, or hypopituitarism, are associated with a wide range of symptoms and with a significant morbidity. These can have a neural and/or a pituitary origin as the gland's secretions are controlled by the hypothalamus. We report here that Nestin-Cre mice themselves are affected by mild hypopituitarism. Hence, physiological consequences are expected, especially in combination with defects resulting from Cre mediated deletion of any gene under investigation. To further investigate the origin of this phenotype, we re-examined the activity of the transgene. We compared it with expression of Nestin itself in the context of the hypothalamo-pituitary axis, especially in the light of a recent report showing pituitary Nestin-Cre activity, which contrasts with previous data. Our results disagree with those of this recent study and do not support the claim that Nestin positive cells are present in the pituitary anlagen, the Rathke's pouch (RP). Moreover we did not observe any significant activity in the post-natal pituitary, in agreement with the initial report.
TL;DR: Gen expression of two milk protein transcription factors, Stat5a and Elf5, previously identified as key components of prolactin signalling, both showed an essential requirement for insulin, indicating insulin plays a crucial role in the transcription of the milk protein genes.
Abstract: Murine milk protein gene expression requires insulin, hydrocortisone, and prolactin; however, the role of insulin is not well understood. This study, therefore, examined the requirement of insulin for milk protein synthesis. Mammary explants were cultured in various combinations of the lactogenic hormones and global changes in gene expression analysed using Affymetrix microarray. The expression of 164 genes was responsive to insulin, and 18 were involved in protein synthesis at the level of transcription and posttranscription, as well as amino acid uptake and metabolism. The folate receptor gene was increased by fivefold, highlighting a potentially important role for the hormone in folate metabolism, a process that is emerging to be central for protein synthesis. Interestingly, gene expression of two milk protein transcription factors, Stat5a and Elf5, previously identified as key components of prolactin signalling, both showed an essential requirement for insulin. Subsequent experiments in HCll cells confirmed that Stat5a and Elf5 gene expression could be induced in the absence of prolactin but in the presence of insulin. Whereas prolactin plays an essential role in phosphorylating and activating Stat5a, gene expression is only induced when insulin is present. This indicates insulin plays a crucial role in the transcription of the milk protein genes.
TL;DR: The essential nature of PRL to survival of Mozambique tilapia in FW is derived, at least in part, from its ability to stimulate the recruitment of MRCs that express NCC, while recruitment of SW-type MRC’s does not require pituitary mediation in this euryhalinetilapia.
Abstract: Hypophysectomy and hormone replacement therapy were conducted to investigate the regulation of branchial mitochondrion-rich cell (MRC) recruitment and hormone receptor expression in euryhaline tila...
TL;DR: The question of their inhibition in future cancer therapy is addressed, both in light of other findings that have revealed novel actions of prolactin in breast cancer cells, and with respect to the compounds currently available to target Prolactin receptor signalling.
Abstract: The involvement of prolactin in human tumourogenesis has been long debated. The reason is that the evidence supporting the role of circulating prolactin in promoting breast cancer was mainly obtained using rodent models, whereas most of the studies performed in human species in the 1980s have remained inconclusive. Things have now started to change because two alternative mechanisms of prolactin actions in tumour growth have emerged since the beginning of the 21st Century. The first involves locally-produced prolactin, which acts by an autocrine/paracrine mechanism. Genetically-modified mouse models have demonstrated the tumourigenic potential of local prolactin on the prostate and the mammary gland, and arguments are now emerging in humans also. The second mechanism involves genetic variants of the receptor. Although no genetic disorder has been reported for prolactin or its receptor, a variant of the prolactin receptor exhibiting constitutive activity has been recently identified in patients presenting with breast tumours, suggesting that sustained prolactin signalling may participate in breast tumourogenesis. Recent data regarding these two nonclassical mechanisms of prolactin action are discussed. Finally, we address the question of their inhibition in future cancer therapy, both in light of other findings that have revealed novel actions of prolactin in breast cancer cells, and with respect to the compounds currently available to target prolactin receptor signalling.
TL;DR: New endocrine deficits after pituitary adenoma radiosurgery were correlated with increasing radiation dose to the pituitsary gland, and methods that limit the radiation dose during SRS may increase the probability of preservingpituitary function.
Abstract: OBJECTIVE: To analyze the factors associated with anterior pituitary deficits after pituitary adenoma stereotactic radiosurgery (SRS). METHODS: The tumor, pituitary stalk, and pituitary gland were segmented on the dose plans of 82 patients (secreting tumors, n = 53; nonsecreting tumors, n = 29) for dose-volume analysis. No patient had undergone prior radiation therapy and all patients had at least 12 months of endocrinological follow-up (median, 63 months; mean, 69 months; range, 13-134). RESULTS: Thirty-four patients (41 %) developed new anterior pituitary deficits at a median of 32 months (range, 2-118) after SRS.The risk of developing new anterior pituitary deficits was 16% and 45% at 2 and 5 years, respectively. Multivariate analysis of the entire group showed that poor visualization of the pituitary gland (hazard ratio [HR] = 2.63, 95% confidence interval [CI] = 1.10-6.25, P = .03) was associated with a higher rate of new anterior pituitary deficits. Dosimetric analysis of 60 patients whose pituitary gland could be clearly identified showed that increasing mean pituitary gland radiation dose correlated with new anterior pituitary deficits (HR = 1.11, 95% CI = 1.02-1.20, P = .02). New anterior pituitary deficits stratified by mean pituitary gland radiation dose: ≤7.5 Gy, 0% (0/7); 7.6 to 13.2 Gy, 29% (7/24); 13.3 to 19.1 Gy, 39% (9/23); > 19.1 Gy, 83% (5/6). CONCLUSION: New endocrine deficits after pituitary adenoma radiosurgery were correlated with increasing radiation dose to the pituitary gland. Methods that limit the radiation dose to the pituitary gland during SRS may increase the probability of preserving pituitary function.
TL;DR: Patients taking antidepressants presenting to their clinician with symptoms potentially related to hyperprolactinaemia, such as galactorrhoea, should have their plasma prolactin level measured and their antidepressant changed if an increased prolACTin level is confirmed.
Abstract: Prolactin, a polypeptide hormone, is responsible, amongst other things, for milk production during lactation and breast enlargement during pregnancy Numerous drugs can affect prolactin levels Most commonly, conventional antipsychotics are associated with hyperprolactinaemia but there have also been reports of antidepressants causing hyperprolactinaemia This review sets out to establish the incidence of antidepressant-induced hyperprolactinaemia, its possible mechanism and to determine appropriate remedial actions Nearly all antidepressants are reported to be associated with hyperprolactinaemia Incidence rates were not clearly established and symptoms were very rare The mechanism by which antidepressants may cause hyperprolactinaemia is not fully understood, though several theories have been postulated, such as serotonin stimulation of GABAergic neurons and indirect modulation of prolactin release by serotonin Patients taking antidepressants presenting to their clinician with symptoms potentially related to hyperprolactinaemia, such as galactorrhoea, should have their plasma prolactin level measured and their antidepressant changed if an increased prolactin level is confirmed Routine monitoring of prolactin levels is otherwise not appropriate
TL;DR: It is postulate that PRL is the cardinal calciotropic hormone during pregnancy and lactation.
Abstract: To produce offspring, mothers require a large amount of calcium for fetal growth and milk production. Increased calcium demand leads to enhanced intestinal calcium absorption and stockpiling of bone calcium in pregnancy prior to demineralization in lactation. These coordinated events must be carefully organized by calciotropic hormone(s), but the classical hormones, namely 1,25-dihydroxyvitamin D 3 , parathyroid hormone and calcitonin, do not appear to be responsible. Plasma prolactin (PRL) levels are elevated during pregnancy and, in view of the presence of PRL receptors in gut, bone and mammary glands, as well as recent evidence of the stimulatory effects of PRL on intestinal calcium transport, bone resorption and mammary calcium secretion, we postulate that PRL is the cardinal calciotropic hormone during pregnancy and lactation.
TL;DR: It is found that TIP39 mRNA and peptide expression levels are markedly elevated in the posterior intralaminar complex of the thalamus (PIL) of lactating dams, one of the three locations of Tip39-containing cell bodies in the brain.
Abstract: Tuberoinfundibular peptide of 39 residues (TIP39) and the PTH-2 receptor (PTH2R) constitute a peptide-receptor neuromodulator system. Based on the abundance of TIP39 fibers and axonal terminals as well as PTH2R-containing neurons and their processes in the hypothalamic para- and periventricular and arcuate nuclei TIP39 has been suggested to play a role in neuroendocrine regulation. We showed previously that TIP39 expression decreased dramatically by adulthood. In the present study, using in situ hybridization histochemistry, real-time RT-PCR, and immunohistochemistry, we found that TIP39 mRNA and peptide expression levels are markedly elevated in the posterior intralaminar complex of the thalamus (PIL) of lactating dams, one of the three locations of TIP39-containing cell bodies in the brain. In addition, in mother rats, these TIP39 neurons showed Fos expression in response to pup exposure. Transection of TIP39 fibers originating in the PIL resulted in an ipsilateral disappearance of TIP39 immunoreactivit...
TL;DR: B/P ratio, indicating the penetrating capability across the blood-brain barrier, seems to be a good characteristic biomarker of each antipsychotic drug for the risk of hyperprolactinemia at therapeutic dose.
Abstract: Objective: Hyperprolactinemia is a common side effect of antipsychotic drugs used in the treatment of schizophrenia. However, the magnitude of hyperprolactinemia differs among antipsychotics, and there is no reliable mechanism-related marker for the risk of hyperprolactinemia that would allow us to characterize antipsychotics. Method: In this study, 11 healthy male subjects taking different doses of sulpiride and 24 male patients with DSM-IV-diagnosed schizophrenia taking different antipsychotic drugs (risperidone, olanzapine, haloperidol, and sulpiride) participated. Positron emission tomography scanning using [ 11 C] FLB 457 was performed on all subjects. The dopamine D 2 receptor occupancy of antipsychotics in the pituitary and temporal cortex was calculated. Correlations between plasma concentration of prolactin and dopamine D 2 receptor occupancies were evaluated. The ratio of drug concentration of cerebral receptor site to that of pituitary receptor site (brain/plasma concentration ratio; B/P ratio) was calculated from the receptor occupancies in the 2 regions. Data were collected between November 2001 and September 2007. Results: Significant positive correlation was observed between the plasma concentration of prolactin and dopamine D 2 receptor occupancy in the pituitary by all 4 antipsychotics (P=.001). Dopamine D 2 receptor occupancies of sulpiride were markedly different between the pituitary and temporal cortex, and the B/P ratio for sulpiride (0.34) was significantly lower than for olanzapine (P=.007) and risperidone (P=.015). Olanzapine had a relatively high B/P ratio (2.70), followed by haloperidol (2.40) and risperidone (1.61). Conclusions: Dopamine D 2 receptor occupancy in the pituitary is a good indicator of hyperprolactinemia. B/P ratio, indicating the penetrating capability across the blood-brain barrier, seems to be a good characteristic biomarker of each antipsychotic drug for the risk of hyperprolactinemia at therapeutic dose.
TL;DR: The sst subtype, as well as the co-expression of sst and D2, has significant impact on the possibility to treat patients with pituitary tumours with SS analogues and DA agonists.
TL;DR: The data show a novel interplay between PRL and E(2) to modulate gene regulation in breast cancer cells, synergised to regulate EGR3, while multiple genes were regulated additively.
Abstract: The pituitary hormone prolactin (PRL) plays an important role in mammary gland development. It was also suggested to contribute to breast cancer progression. In vivo data strongly supported a crucial role of PRL in promoting tumour growth; however, PRL demonstrated only a weak, if any, pro-proliferative effect on cancer cells in vitro. Several recent studies indicated that PRL action in vivo may be influenced by the hormonal milieu, e.g. other growth factors such as 17beta-oestradiol (E(2)). Here, we explored the potential interplay between PRL and E(2) in regulation of gene expression and cell growth. PRL alone induced either a weak or no proliferative response of T47D and BT-483 cells respectively, while it drastically enhanced cell proliferation in E(2)-stimulated cultures. Affymetrix microarray analysis revealed 12 genes to be regulated by E(2), while 57 genes were regulated by PRL in T47D cells. Most of the PRL-regulated genes (42/57) were not previously described as PRL target genes, e.g. WT1 and IER3. One hundred and five genes were found to be regulated upon PRL/E(2) co-treatment: highest up-regulation was found for EGR3, RUNX2, EGR1, MAFF, GLIPR1, IER3, SOCS3, WT1 and AREG. PRL and E(2) synergised to regulate EGR3, while multiple genes were regulated additively. These data show a novel interplay between PRL and E(2) to modulate gene regulation in breast cancer cells.
TL;DR: It is suggested that PRL enhances nNOS activity in the PVN and SON, thereby contributing to the regulation of OXT and AVP release, which likely contributes to theregulation of processes beyond those of female reproduction.
Abstract: Prolactin (PRL) stimulates the secretion of oxytocin (OXT) and arginine AVP as part of the maternal adaptations facilitating parturition and lactation. Both neurohormones are under the regulation o...
TL;DR: It is concluded that prolonged exposure to high-altitude hypoxia induces contrasted changes in hormonal levels, but the hypophyseal response to hypothalamic factors does not appear to be blunted.
Abstract: Acute and chronic exposure to high altitude induces various physiological changes, including activation or inhibition of various hormonal systems. In response to activation processes, a desensitization of several pathways has been described, especially in the adrenergic system. In the present study, we aimed to assess whether the hypophyseal hormones are also subjected to a hypoxia-induced decrease in their response to hypothalamic factors. Basal levels of hormones and the responses of TSH, thyroid hormones, prolactin, sex hormones, and growth hormone to the injection of TRH, gonadotropin-releasing hormone, and growth hormone-releasing hormone (GHRH) were studied in eight men in normoxia and on prolonged exposure (3-4 days) to an altitude of 4,350 m. Thyroid hormones were elevated at altitude (+16 to +21%), while TSH levels were unchanged, and follicle-stimulating hormone and prolactin decreased, while leutinizing hormone was unchanged. Norepinephrine and cortisol levels were elevated, while no change was observed in levels of epinephrine, dopamine, growth hormone (GH), IGF-1, and IGFBP-3. The mean response to hypothalamic factors was similar in both altitudes for all studied hormones, although total T4 was lower in hypoxia during 45 to 60 min after injection. The effect of hypoxia on the hypophyseal response to hypothalamic factors was similar among subjects, except for the GH response to GHRH administration. We conclude that prolonged exposure to high-altitude hypoxia induces contrasted changes in hormonal levels, but the hypophyseal response to hypothalamic factors does not appear to be blunted.
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TL;DR: The development and function of the sebaceous gland in the fetal and neonatal periods appear to be regulated by maternal androgens and by endogenous steroid synthesis, as well as by other morphogens.
Abstract: The development and function of the sebaceous gland in the fetal and neonatal periods appear to be regulated by maternal androgens and by endogenous steroid synthesis, as well as by other morphogens. The most apparent function of the glands is to excrete sebum. A strong increase in sebum excretion occurs a few hours after birth; this peaks during the first week and slowly subsides thereafter. A new rise takes place at about age 9 years with adrenarche and continues up to age 17 years, when the adult level is reached. The sebaceous gland is a target organ but also an important formation site of hormones, and especially of active androgens. Hormonal activity is based on an hormone (ligand)-receptor interaction, whereas sebocytes express a wide spectrum of hormone receptors. Androgens are well known for their effects on sebum excretion, whereas terminal sebocyte differentiation is assisted by peroxisome proliferator-activated receptor ligands. Estrogens, glucocorticoids, and prolactin also influence sebaceous gland function. In addition, stress-sensing cutaneous signals lead to the production and release of corticotrophin-releasing hormone from dermal nerves and sebocytes with subsequent dose-dependent regulation of sebaceous nonpolar lipids. Among other lipid fractions, sebaceous glands have been shown to synthesize considerable amounts of free fatty acids without exogenous influence. Atopic dermatitis, seborrheic dermatitis, psoriasis and acne vulgaris are some of the disease on which pathogenesis and severity sebaceous lipids may or are surely involved.