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Query: UMLS:C0432222 (
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47,337
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Estrogens affect the functioning of several non-reproductive tissues, the immune system in particular. In mammalian immunocytes, 17beta-estradiol (E2) has both dose- and cell-type specific effects and the responses to E2 seem to be mediated by rapid, non-genomic mechanisms; these may be initiated at either membrane or cytosolic locations, and can result in both direct local effects, such as modification of ion fluxes, and regulation of gene transcription secondary to activation of different kinase cascades, including mitogen activated protein kinases (MAPKs). In this work, the short-term effects of E(2) and the possible mechanisms of estrogen-mediated cell signaling were investigated in the hemocytes, the immune cells of the bivalve mollusc, the mussel Mytilus galloprovincialis Lam. The results show that E2 (25nM) caused a rapid and significant increase in hemocyte cytosolic [Ca2+]; lower concentrations (5 nM) showed a smaller, not significant effect. Both E2 concentrations affected the phosphorylation state of the components of tyrosine kinase-mediated signal transduction MAPK- and STAT- (signal transducers and activators of transcription) like proteins within 5-15 min from E2 addition. A greater effect and clearer time course were observed with 25 nM E2: in particular, E2 induced a transient increase in p-
ERK2
MAPK and a persistent increase in p-p38 MAPK. Moreover, both STAT3 and STAT5 were tyrosine phosphorylated in response to E2. E2 (5 nM) induced both morphological (as evaluated by
SEM
) and functional changes (such as extracellular release of hydrolytic enzymes, lysosomal membrane destabilisation, and stimulation of the bactericidal activity) within 10-30 min from addition. Lysosomal membrane destabilisation induced by both E2 concentrations was abolished by hemocyte preincubation with the p38 MAPK inhibitor SB203580, and significantly reduced by PD98059 and Wortmannin (inhibitors of ERK MAPK and PI3-K, respectively), this suggesting that rapid activation of kinase cascades is involved in mediating the effects of E2 in mussel hemocytes. The antiestrogen Tamoxifen prevented or strongly reduced most, but not all, the effects of E2. Western blotting with heterologous anti-ERalpha-anti-ERbeta-antibodies revealed the presence of immunoreactive ERalpha- and ERbeta-like proteins in hemocyte protein extracts. Overall, our data support the hypothesis that the rapid effects and mechanisms of action of 17beta-estradiol are extremely conserved and that they may play a crucial role in endocrine-immune interactions in invertebrates.
...
PMID:Rapid effects of 17beta-estradiol on cell signaling and function of Mytilus hemocytes. 1498 Jul 97
This study was carried out to investigate mammary tumorigenesis in growth hormone (GH) deficient spontaneous dwarf rats (SDR). At 50-60 days of age, the rats were divided into five groups. Group 1 received bovine (b) GH (prolonged release formulation) administered at a dose of 40-50 mg/kg body wt. in 50 microl weekly injections; group 2 received recombinant human insulin-like growth factor-I (IGF-I) at a dose of 1 mg/kg body wt./day administered via osmotic pumps; animals in group 3 were fitted with subcutaneous silastic capsule containing 30 microg 17 beta-estradiol (E2) plus 30 mg progesterone (P4), replaced every 2 months; group 4 received both bGH and E2 plus P4 treatments at the same doses as above, and control animals (group 5) received sham treatments (vegetable oil injection, silastic capsules containing cellulose). After 1 week of treatment, all animals were injected intraperitoneally with the carcinogen N-methyl-N-nitrosourea (MNU) at a dose of 50 mg/kg body wt. Other groups of animals, receiving identical hormonal treatment to those exposed to MNU, were treated for 10 days only and then sacrificed for assessment of circulating concentrations of hormones and mammary gland characteristics at the time of carcinogen exposure. The hormonal treatments of the animals exposed to the MNU were continued for an additional 20 weeks and mammary tumor development monitored by weekly palpation and tumors collected as necessary. The rats were weighed weekly. At the end of the treatment period, all animals were sacrificed and remaining tumors were collected. Rats in all groups continued to gain weight throughout the experimental period, but the largest weight gain was see in animals receiving GH either alone or with E2 and P4. Animals treated with IGF-I also gained weight compared to controls, but this weight gain was less than that seen in GH-treated rats. GH treatment alone increased mammary tumor incidence from 4.8% in controls to 100%. Average tumor load and latency in the GH-treated rats were 7.0 +/- 0.8 tumors/tumor-bearing rat (mean +/-
SEM
) and 57.3 +/- 2.7 days (mean +/-
SEM
), respectively. As in intact Sprague-Dawley rats, approximately 90% of the tumors that developed in the GH-treated rats were ovarian dependent for growth. IGF-I treatment also increased mammary tumor development to 62.5%. Average tumor load and latency in the IGF-I-treated rats were 1.6 +/- 0.4 tumors/tumor-bearing rat (mean +/-
SEM
) and 96.2 +/- 14.5 days (mean +/-
SEM
), respectively. However E2 + P4 treatments did not significantly alter tumorigenesis and, surprisingly, simultaneous treatment with E2 + P4 and GH obliterated the GH-stimulated increase in tumor development. Prolactin (PRL) did not appear to influence mammary tumorigenesis in the SDRs, as untreated SDRs had significantly elevated serum concentration of PRL as compared with normal Sprague-Dawley (SD) rats, whereas GH-treated SDRs had PRL levels similar to that of normal SD rats. No obvious structural characteristics were associated with high or low susceptibility to mammary tumorigenesis, as assessed by mammary gland whole mounts from the different animal groups sacrificed at the time of carcinogen administration. Enhanced expression of the extracellular signal-regulated kinase 1/2 (
ERK1
/2), and activation (phosphorylation) of
ERK1
/2 were associated with an increase in mammary tumorigenesis. Similarly, the expression of the estrogen receptor-alpha (ER alpha) was significantly elevated in animal groups with the highest susceptibility to tumorigenesis, whereas the levels of cyclin D1 expression were not related to mammary tumorigenesis.
...
PMID:Mammary tumorigenesis in growth hormone deficient spontaneous dwarf rats; effects of hormonal treatments. 1552 71
ACTH is known to act through the activation of cAMP/PKA in adrenocortical cells, but it has been suggested that it could also act via other pathways such as the ERK 1/2 cascade. To determine the effects of ACTH administration at sequential time points on the activation of ERKs 1/2, groups of rats (n = 6/group) were subjected to i.p. injections of either ACTH (Synacthen Depot-0.2 mg/Kg), or saline (Ct). The animals were sacrificed and the adrenal glands collected at different timings after ACTH injection (2 h, 18 h and 24 h). Two additional groups were injected daily until sacrifice (3 days and 15 days). Blood was collected for analysis and the adrenals were used for immunohistochemistry or Western Blot (WB) analysis. Immunoreactivity was scored by counting the mean number of zonae fasciculata (ZF) and reticularis (ZR) positive cells/section (mean +/-
SEM
). Adrenal weight was increased by ACTH in comparison with Ct. Corticosterone levels, as expected, were higher in ACTH treated animals than in Ct. The number of pERK positive cells increased in a time-dependent manner until 3d, and declined although not significantly in the 15 days animals (Control--48.13 +/- 9.0; ACTH 2 h--125.93 +/- 14.5; ACTH 18 h-139.46 +/- 10.0; ACTH 24 h--185.28 +/- 13.3; ACTH 3 days--198.47 +/- 18.6; ACTH 15 days--158.58 +/- 15.1). Comparable results were obtained with WB analysis. Our data shows that ACTH induces the activation of the
MAPK
/ERKs 1/2 cascade, especially in the ZF, consistent with this zone being more responsive to ACTH.
...
PMID:ACTH modulates ERK phosphorylation in the adrenal gland in a time-dependent manner. 1566 9
We sought to determine if hypertonic saline (HTS) impacted alveolar macrophage (AM) activation and intracellular inflammatory gene signaling in a model of systemic inflammation. Rats received an intravenous administration of 4 mL/kg of 7.5% HTS or L-lactate lactated Ringer's (L-LR). They were simultaneously treated with an intraperitoneal injection of zymosan, which induces noninfectious systemic inflammation. AM were harvested by bronchoalveolar lavage 24 h after treatment. AM activation was analyzed by measurement of baseline and lipopolysaccharide (LPS)-induced TNF-alpha production. Intracellular signaling was analyzed for activation of the mitogen-activated protein kinases (MAPKs):
ERK1
/2,
JNK
, and p38. AM from HTS-treated rats produced less TNF-alpha than from L-LR-treated rats (927 +/- 335 pg/mL [
SEM
] vs. 3628 +/- 783 pg/mL [
SEM
], P = 0.001) and were also less responsive to LPS (4444 +/- 86 pg/mL [
SEM
] vs. 6666 +/- 91 pg/mL [
SEM
], P = 0.058). However, there was no difference in
MAPK
activation. In vivo HTS prevents excessive AM activation during systemic inflammation. This suppression is mediated through alternate pathways and does not induce the classic
MAPK
signaling cascade.
...
PMID:Hypertonic saline modulates innate immunity in a model of systemic inflammation. 1583 13
Glaucoma is the second leading cause of blindness in the world. Loss of vision in glaucomatous optic neuropathy is caused by the selective degeneration of retinal ganglion cells (RGCs). Ocular hypertension is a major risk factor in glaucoma, but visual field defects continue to progress in some patients despite the use of drugs that lower intraocular pressure. At present, there are no effective neuroprotective strategies for the treatment of this disease. The
extracellular signal-regulated kinase
(Erk) 1/2 pathway is an evolutionarily conserved mechanism used by several peptide factors to promote cell survival. Here we tested if selective activation of Erk1/2 protected RGCs in a rat model of experimental glaucoma. We used recombinant adeno-associated virus to transduce RGCs with genes encoding constitutively active or wild-type MEK1 (approved gene symbol MAP2K1), the upstream activator of Erk1/2. MEK1 gene transfer into RGCs markedly increased neuronal survival: 1366 +/- 70 RGCs/mm(2) (mean +/-
SEM
) were alive in the dorsal retina at 5 weeks after ocular hypertension surgery, a time when only 680 +/- 86 RGCs/mm(2) of these neurons remained in control eyes. We conclude that the Erk1/2 pathway plays a key role in the protection of RGCs from ocular hypertensive damage. This study identifies a novel gene therapy strategy in which selective activation of the Erk1/2 signaling pathway effectively slows cell death in glaucoma.
...
PMID:Activation of the extracellular signal-regulated kinase 1/2 pathway by AAV gene transfer protects retinal ganglion cells in glaucoma. 1597 50
Extracellular signaling pathways and transcriptional regulatory networks function during development to specify metazoan cell fates. During Caenorhabditis elegans vulval development, the specification of three vulval precursor cells (VPCs) requires the activity of Wnt, Notch, and Ras signaling pathways, and function of the Hox gene lin-39. LIN-39 protein levels are regulated in the VPCs by both Wnt and Ras signaling. In particular, activation of Ras signaling leads to an increase in LIN-39 protein in P6.p at the time of VPC fate specification. We wish to understand the regulation of lin-39 by these pathways. We first show that LIN-39 is a target for
MAP kinase
in vitro, suggesting that the Ras-dependent LIN-39 upregulation could be mediated post-translationally. To test this idea, we created transcriptional and translational lin-39::GFP fusions that include the entire lin-39 genomic region, allowing observation of lin-39 expression in live animals. The reporters express GFP in most, if not all, sites of expression previously observed by LIN-39 antibody staining. We used these constructs to show that at the time of vulval induction both lin-39::GFP reporters are upregulated in P6.p, indicating that the accumulation of high levels of LIN-39 protein detected previously corresponds to transcriptional upregulation of lin-39 expression. This transcriptional upregulation of lin-39 is dependent on Ras signaling. We tested the requirement for several transcription factors acting downstream of Ras signaling in the VPCs, and found that P6.p upregulation requires the transcription factors LIN-1 and LIN-25, but appears to be independent of LIN-31,
SEM
-4, EOR-1 and EOR-2.Finally, we found that when the Wnt pathway is over activated, expression from the transcriptional lin-39::GFP increases, suggesting that the Wnt pathway also regulates lin-39 at the transcriptional level.
...
PMID:Transcriptional upregulation of the C. elegans Hox gene lin-39 during vulval cell fate specification. 1641 17
The mechanisms by which corticosteroids reduce airway inflammation are not completely understood. Traditionally, corticosteroids were thought to inhibit cytokines exclusively at the transcriptional level. Our recent evidence, obtained in airway smooth muscle (ASM), no longer supports this view. We have found that corticosteroids do not act at the transcriptional level to reduce TNF-alpha-induced IL-6 gene expression. Rather, corticosteroids inhibit TNF-alpha-induced IL-6 secretion by reducing the stability of the IL-6 mRNA transcript. TNF-alpha-induced IL-6 mRNA decays at a significantly faster rate in ASM cells pretreated with the corticosteroid dexamethasone (t(1/2) = 2.4 h), compared to vehicle (t(1/2) = 9.0 h; P < 0.05) (results are expressed as decay constants [k] [mean +/-
SEM
] and half-life [h]). Interestingly, the underlying mechanism of inhibition by corticosteroids is via the up-regulation of an endogenous
mitogen-activated protein kinase
(
MAPK
) inhibitor,
MAPK
phosphatase-1 (MKP-1). Corticosteroids rapidly up-regulate MKP-1 in a time-dependent manner (44.6 +/- 10.5-fold increase after 24 h treatment with dexamethasone; P < 0.05), and MKP-1 up-regulation was temporally related to the inhibition of TNF-alpha-induced p38
MAPK
phosphorylation. Moreover, TNF-alpha acts via a p38
MAPK
-dependent pathway to stabilize the IL-6 mRNA transcript (TNF-alpha, t(1/2) = 9.6 h; SB203580 + TNF-alpha, t(1/2) = 1.5 h), exogenous expression of MKP-1 significantly inhibits TNF-alpha-induced IL-6 secretion and MKP-1 siRNA reverses the inhibition of TNF-alpha-induced IL-6 secretion by dexamethasone. Taken together, these results suggest that corticosteroid-induced MKP-1 contributes to the repression of IL-6 secretion in ASM cells.
...
PMID:Corticosteroids reduce IL-6 in ASM cells via up-regulation of MKP-1. 1831 42
Ischemic postconditioning (IPoC) reduces infarct size following ischemia/reperfusion. Whether or not phosphorylation of RISK (reperfusion injury salvage kinases) (AKT,
ERK1
/2, P70S6K, GSK3beta) is causal for protection by IPoC is controversial. We therefore studied the impact of RISK on IPoC in anesthetized pigs subjected to 90 minutes of left anterior descending coronary artery hypoperfusion and 120 minutes of reperfusion. In protocol 1, IPoC, by 6 cycles of 20/20 seconds of reperfusion/reocclusion (n=13), was compared with immediate full reperfusion (IFR) (n=15). In protocol 2, IPoC (n=4) or IFR (n=4) was performed with pharmacological RISK blockade by IC coinfusion of Wortmannin and U0126. Infarct size was determined by TTC staining, and the expression of phosphorylated RISK proteins by Western blot analysis in biopsies. In protocol 1, infarct size was 20+/-3% (percentage of area at risk; mean+/-
SEM
) with IPoC and 33+/-4% (P<0.05) with IFR. RISK phosphorylation increased with reperfusion but was not different between IPoC and IFR. In protocol 2, Wortmannin and U0126 blocked the increases in RISK phosphorylation during reperfusion, but infarct size was still smaller with IPoC (15+/-7%) than with IFR (35+/-6%; P<0.05).
...
PMID:Ischemic postconditioning in pigs: no causal role for RISK activation. 1903 64
Although it has long been recognized that thyroid hormone is an effective positive inotrope, its efficacy in supporting hemodynamics in the acute setting of ischaemia and reperfusion (R) without worsening reperfusion injury remains largely unknown. Thus, we investigated the effects of triiodothyronine (T3) on reperfusion injury in a Langendorff-perfused rat heart model of 30 min zero-flow ischaemia and 60 min of (R) with or without T3 (40 microg/l) at R, T3-R60, n = 11 and CNT-R60, n = 10, respectively. Furthermore, phosphorylated levels of intracellular kinases were measured at 5, 15 and 60 min of R. T3 markedly improved postischaemic recovery of left ventricular developed pressure (LVDP%); 56.0% (
SEM
, 4.4) in T3-R60 versus 38.8% (3.1) in CNT-R60, P < 0.05. Furthermore, LDH release was significantly lower in T3-R60. Apoptosis detection by fluorescent probe optical imaging showed increased fluorescent signal in CNT-R60 hearts, while the signal was hardly detectable in T3-R60 hearts. Similarly, caspase-3 activity was found to be 78.2 (8.2) in CNT-R60 vs 40.5 (7.1) in T3-R60 hearts, P < 0.05. This response was associated with significantly lower levels of phospho-p38
MAPK
at any time point of R. No significant changes in phospho-
ERK1
/2 and
JNK
levels were observed between groups. Phospho-Akt levels were significantly lower in T3 treated group at 5 min and no change in phospho-Akt levels were observed at 15 and 60 min between groups. In conclusion, T3 administration at reperfusion can improve postischaemic recovery of function while limiting apoptosis. This may constitute a paradigm of a positive inotropic agent with anti-apoptotic action suitable for supporting hemodynamics in the clinical setting of ischaemia-reperfusion.
...
PMID:Thyroid hormone improves postischaemic recovery of function while limiting apoptosis: a new therapeutic approach to support hemodynamics in the setting of ischaemia-reperfusion? 1910 50
The objectives of our present experiments were to determine whether the BK(Ca) channel agonist NS1619 is able to induce immediate preconditioning in cultured rat cortical neurons and to elucidate the role of BK(Ca) channels in the initiation of immediate preconditioning. NS1619 depolarized mitochondria and increased reactive oxygen species (ROS) generation, but neither of these effects was inhibited by BK(Ca) channel antagonists. NS1619 also activated the
extracellular signal-regulated kinase
signaling pathways. One-hour treatment with NS1619 induced immediate protection against glutamate excitotoxicity (viability 24 h after glutamate exposure: control, 58.45+/-0.95%; NS1619 50 microM, 78.99+/-0.90%; NS1619 100 microM, 86.89+/-1.20%; NS1619 150 microM, 93.23+/-1.23%; mean+/-
SEM
; p<0.05 vs. control; n=16-32). Eliminating ROS during the preconditioning phase effectively blocked the development of cytoprotection. In contrast, the BK(Ca) channel blockers iberiotoxin and paxilline, the phosphoinositide 3-kinase inhibitor wortmannin, the protein kinase C blocker chelerythrine, and the mitogen activated protein kinase antagonist PD98059 were unable to antagonize the immediate neuroprotective effect. Finally, preconditioning with NS1619 reduced the calcium load and ROS surge upon glutamate exposure and increased superoxide dismutase activity. Our results indicate that NS1619 is an effective inducer of immediate neuronal preconditioning, but the neuroprotective effect is independent of the activation of BK(Ca) channels.
...
PMID:Immediate neuronal preconditioning by NS1619. 1952 29
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