Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.14.16.2 (tyrosine hydroxylase)
 14,760 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although it has been known for some time that estrogen exerts a profound influence on brain development a definitive demonstration of the role of the classical estrogen receptor (ERalpha) in sexual differentiation has remained elusive. In the present study we used a sexually dimorphic population of dopaminergic neurons in the anteroventral periventricular nucleus of the hypothalamus (AVPV) to test the dependence of sexual differentiation on a functional ERalpha by comparing the number of tyrosine hydroxylase (TH)-immunoreactive neurons in the AVPV of wild-type (WT) mice with that of mice in which the ERalpha had been disrupted by homologous recombination (ERKOalpha). Only a few ERalpha-immunoreactive neurons were detected in the AVPV of ERKOalpha mice, and the number of TH-immunoreactive neurons was three times that of WT mice, suggesting that disruption of the ERalpha gene feminized the number of TH-immunoreactive neurons. In contrast, the AVPV contains the same number of TH-immunoreactive neurons in testicular feminized male mice as in WT males, indicating that sexual differentiation of this population of neurons is not dependent on an intact androgen receptor. The number of TH-immunoreactive neurons in the AVPV of female ERKOalpha mice remained higher than that of WT males, but TH staining appeared to be lower than that of WT females. Thus, the sexual differentiation of dopamine neurons in the AVPV appears to be receptor specific and dependent on the perinatal steroid environment.
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PMID:Estrogen receptor-dependent sexual differentiation of dopaminergic neurons in the preoptic region of the mouse. 939 Nov 55

Central catecholaminergic systems play an important role in the control of reproductive activities including sexual behavior, luteinizing hormone (LH) and prolactin secretion. It has been reported that catecholaminergic neurons in the locus coeruleus (A6) are activated by mating in rabbits and ferrets, animals known as reflex ovulators. This study used Fos as a marker of neuronal activity to examine whether brainstem catecholaminergic neurons are activated by mating in the spontaneous ovulator, the female rat. Proestrous rats receiving intromissions (mated group) from males or mounts-without-intromission (mounted group) were sacrificed along with rats taken directly from their home cage (control group) 90 min after the beginning of mating or mounting. Double-label immunocytochemistry was used to examine the expression of c-Fos in catecholaminergic neurons labeled by tyrosine hydroxylase (TH) antibody, or adrenergic neurons labeled by phenylethanolamine-N-methyl transferase (PNMT) antibody. Double label immunofluorescent immunohistochemistry was used to determine the number of neurons containing the estrogen receptor (ERalpha) that were activated by mating in these brain areas. The results showed that mating-with-intromissions induced a significant increase in the percentage of TH/Fos colabeled neurons in both A1 and A2 cells compared to mounting-without-intromission or control. In both these areas, over 50% ERalpha-ir neurons were activated after mating while mounting-without-intromission did not affect the percentage of colabeled Fos/ERalpha neurons. In A6 region, neither the expression of Fos nor the percentage of TH/Fos colabeled cells was influenced by either mating or mounting compared to controls. The percentage of PNMT-containing neurons colabeled with Fos was not different in C1 and C2 among the three experimental groups. The results indicate that catecholaminergic neurons were activated by mating in A1 and A2 but not in adjoining adrenergic C1 and C2 cells. In contrast to the findings that catecholaminergic neurons in A6 are activated by mating in induced ovulators, mating did not affect neuronal activity in A6 neurons in the female rat. In A1 and A2 areas, a high percentage of neurons containing ERalpha were activated by mating suggesting both tactile and hormonal information may converge on these populations of neurons. The activated catecholaminergic neurons in A1 and A2 may be an important pathway by which sensory information generated during sexual interaction modulates both behavior and pituitary function.
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PMID:Mating-activated brainstem catecholaminergic neurons in the female rat. 1125 Nov 89

Steroid actions in the song system may be modulated by ascending inputs from catecholaminergic (CA) brain nuclei; however, whether these nuclei contain steroid receptors is unknown. Here, we compared the distribution of androgen receptor (AR) and estrogen receptor-alpha (ER-alpha) mRNA with that of tyrosine hydroxylase immunoreactivity (TH-IR) in the brainstems of male canaries. Areas containing AR and ER-alpha mRNA overlapped with areas containing TH-IR cell bodies in the locus ceruleus and the area ventralis of Tsai. The substantia nigra and the midbrain central gray contained both TH-IR and AR mRNA. The presence of AR and ER-alpha within CA cell groups suggests that sex steroid hormones may modulate song production at the site of CA synthesis.
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PMID:Gonadal steroid receptor mRNA in catecholaminergic nuclei of the canary brainstem. 1157 26

Gender-specific differences in susceptibility to a number of disorders related to catecholaminergic systems, including depression and hypertension, have been postulated to be mediated, at least in part, by estrogens. In this study, we examined if estrogens may regulate gene expression of norepinephrine biosynthetic enzymes. Administration of five injections of 15 or 40 microg/kg estradiol benzoate to ovariectomized (OVX) female rats elicited a dose-dependent elevation in mRNA levels of tyrosine hydroxylase (TH) in locus coeruleus, to as great as 3-fold over control. Dopamine beta-hydroxylase (DBH) mRNA levels were also similarly increased. To examine the mechanism, PC12 cells were cotransfected with luciferase reporter constructs under control of DBH or TH promoters [pDBH/Luc(-2,236/+21) or pTH/Luc(-272/+27 or -773/+27)] with an expression vector for estradiol receptor alpha. The cells were treated with 17beta-estradiol (E(2)) for 12-36 h. E(2) triggered a several fold increase in luciferase activity under control of the DBH promoter in a dose-dependent fashion. Omission of estrogen receptor alpha or addition of the estrogen receptor antagonist ICI 182,780 prevented the DBH promoter-driven increase in luciferase. When E(2) was given with 0.2 mM CPT-cAMP, reporter activity with pDBH/Luc(-2,236/+21) was increased greater than with either treatment alone. In contrast, addition of E(2) to cells transfected with pTH/Luc(-272/+27) elicited no change in basal luciferase activity nor in the response to 0.2 mM CPT-cAMP. These findings are the first to reveal that estrogen can stimulate DBH gene expression. Differing mechanisms may underlie the regulation of TH and DBH gene expression by estrogens.
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PMID:Estradiol stimulates gene expression of norepinephrine biosynthetic enzymes in rat locus coeruleus. 1191 91

Norepinephrine (NE) and epinephrine are important stimulators of GnRH release during the preovulatory surge in female rats. Previous studies have shown that the catecholaminergic neurons are sensitive to estradiol and that NE release in the hypothalamus is decreased in middle-aged rats at the time when the estrous cycles become irregular and later cease to exist. The aims of the present study were to determine whether the NE and epinephrine neurons continue to express estrogen receptor (ER)-alpha in middle-aged rats; temporal expression of ER-alpha and cFos changes with age during the steroid-induced surge; and tyrosine hydroxylase (TH), dopamine-beta-hydroxylase (DBH), and phenylethanol-N-methyltransferase mRNA content in catecholaminergic neurons of the brain stem changes during the surge with age. The results show that there was no difference in TH mRNA content; however, DBH mRNA levels in areas A1, A2, and C1 of the middle-aged animals did not rise during the surge as was observed in the young animals. Although the percentage of NE and epinephrine neurons that express ER-alpha was unchanged during the surge in both young and middle-aged animals, cFos expression was enhanced in areas A1 and A2 of the middle-aged animals but not in the young animals. Together the results suggest that NE and epinephrine neurons in the middle-aged rat continue to express appropriate basal levels of TH, DBH, and phenylethanol-N-methyltransferase mRNAs as well as ER-alpha and cFos; however, the enhancement of DBH expression, as seen in the young animals during the steroid-induced surge, was not detected in middle-aged animals. On the other hand, cFos expression in the middle-aged rat was higher in areas A1 and A2 during the surge. It is concluded that the reduced catecholamine release during the surge in middle-aged rats is caused, in part, by an altered sensitivity of the NE neurons to estradiol, which results in an aberrant cFos expression and probably not by major deficits in the expression of transmitter synthesizing enzymes or steroid receptors.
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PMID:Expression of estrogen receptor-alpha and cFos in norepinephrine and epinephrine neurons of young and middle-aged rats during the steroid-induced luteinizing hormone surge. 1223 9

Estrogen plays an important role during differentiation of midbrain dopaminergic neurons. This is indicated by the presence of estrogen receptors and the transient expression of the estrogen-forming enzyme aromatase within the dopaminergic cell groups. We have previously shown that estrogen regulates the plasticity of dopamine cells through the stimulation of neurite growth/arborization. In this study, we have analyzed the capability of estrogen to influence the activity of developing mouse dopamine neurons. The expression of tyrosine hydroxylase (TH) was assessed by competitive RT-PCR and Western blotting. The developmental expression of TH in the ventral midbrain was studied from embryonic day 15 until postnatal day 15 and revealed highest TH levels early postnatally. This profile coincides with the transient aromatase expression in this brain area. Using cultured midbrain cells, we found that estrogen increased TH mRNA/protein levels. The application of the estrogen receptor antagonist ICI 182,780 resulted in a complete inhibition of estrogen effects. To verify these data in vivo, fetuses were exposed in utero from E15 until birth to the aromatase inhibitor CGS 16949A or to CGS supplemented with estrogen. CGS caused a robust reduction in TH mRNA/protein levels in the midbrain, which could be restored by estrogen substitution. Taken together, our data strongly suggest that estrogen controls dopamine synthesis in the developing nigrostriatal dopaminergic system and support the concept that estrogen is implicated in the regulation of ontogenetic steps but also in the function of midbrain dopamine neurons.
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PMID:Estrogen regulates tyrosine hydroxylase expression in the neonate mouse midbrain. 1255 75

The purpose of the present study was to determine whether the septo-preoptico-tuberoinfundibular gonadotropin-releasing hormone (GnRH) pathway comes in close juxtaposition with tyrosine hydroxylase immunoreactive (TH-IR) neurons in the arcuate nucleus of female mice. Immunohistochemical staining with a TH monoclonal antibody coupled with confocal microscopy was employed on vibratome-cut brain sections of female GnRH-green fluorescent protein (GFP) transgenic mice to evaluate possible appositions between GnRH and tuberoinfundibular dopaminergic (TIDA) neurons. TH-IR neurons of the arcuate nucleus received GnRH neuronal appositions in adult female mice at proestrus and estrus stages. In contrast, no GnRH appositions were observed in adult females at diestrus. Subsequently, double immunohistochemical staining for TH and estrogen receptor-alpha (ERalpha) was performed to examine the role of estradiol on this relationship. We found that most TH-IR neurons contacted by GnRH fibers were immunoreactive for ERalpha. Our observations suggest that GnRH neurons communicate directly with TIDA neurons in the adult female. Furthermore, ERalpha activation in TIDA neurons may be involved in the formation of connections between GnRH neurons and TIDA neurons.
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PMID:A confocal microscopic study of gonadotropin-releasing hormone (GnRH) neuron inputs to dopaminergic neurons containing estrogen receptor alpha in the arcuate nucleus of GnRH-green fluorescent protein transgenic mice. 1267 53

To estimate the potential risk of perinatal exposure to estrogenic endocrine disrupters, pregnant female mice received daily oral administration of diethylstilbestrol (DES; either 0.3 or 3 microg/kg body weight) dissolved in corn oil from gestation days 11 to 17 and from postnatal days 2 to 6. Multiple behaviors that are sexually dimorphic were examined, and the numbers of estrogen receptor-alpha and tyrosine hydroxylase-immunoreactive (ER-IR and TH-IR) cells in some brain loci related to these behaviors were investigated. Perinatal exposure to DES caused significantly enhanced open-field activity in both males and females and significantly poorer passive avoidance performance in males. In addition, a significant increase in the number of ER-IR cells in the ventromedial hypothalamic nucleus (VMH) was demonstrated for the first time. The DES-induced increases in the sexual and aggressive behaviors, although statistically nonsignificant, and the increase in the number of ER-IR cells did not agree with those obtained in previous studies using high-dose DES, which suggests that DES may have a different effect on these endpoints depending on the dose used. The relationship between the increase in ER-IR cells and behavioral changes should be further examined.
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PMID:Low-dose perinatal diethylstilbestrol exposure affected behaviors and hypothalamic estrogen receptor-alpha-positive cells in the mouse. 1501 59

We sought an in vitro primate model for serotonin neurons. Rhesus monkey embryonic stem (ES) cell colonies were isolated and differentiated into embryoid bodies (EBs), then transferred to serum-free medium with 1% insulin-transferrin-selenium for 7 days to induce neural precursor cell (NPC) formation. NPCs were cultured in medium with 1% N-2 neural supplement and human fibroblast growth factor 2 (FGF2, 10 ng/ml) for 7 days to stimulate cell proliferation. Lastly, NPCs were dispersed into single cells and cultured without FGF2 for another 7 days to obtain terminal differentiation. Terminal cells were characterized for neuronal and serotonergic markers. Over 95% of the NPCs were immunopositive for nestin and Musashi1. Terminally differentiated cells appeared in both small and large morphologies. Most (>95%) of the mature cells (both small and large) were immunopositive for neuron-specific nuclear protein (NeuN), synaptophysin, microtubule-associated protein (MAP2C), Tau-1, neurofilament 160 (NF-160), beta-tubulin (TujIII), tryptophan hydroxylase (TPH), serotonin, the serotonin reuptake transporter (SERT), estrogen receptor-beta (ERbeta), and progestin receptor (PR), but not estrogen receptor-alpha (ERalpha). Less than 2-3% of cells were positive for tyrosine hydroxylase (TH). Reverse transcriptase polymerase chain reaction (RT-PCR) detected mRNA transcripts for TPH-1, TPH-2, SERT, 5-HT1A-autoreceptor, ERbeta, and PR in the differentiated population. A low level of expression of ERalpha mRNA was also detected. Quantitative RT-PCR indicated that the relative abundance of TPH-2 mRNA was greater than TPH-1 mRNA. Serotonin as measured by ELISA increased 3-fold in the mature stage compared to the selection and expansion stages. In summary, a remarkably high percentage of cells derived from monkey ES cells exhibited neuronal plus serotonergic markers as well as nuclear steroid receptors similar to primate CNS serotonin neurons, suggesting that these cells may serve as a useful primate model for serotonergic neurons.
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PMID:Serotonin neurons derived from rhesus monkey embryonic stem cells: similarities to CNS serotonin neurons. 1524 35

The study of microsatellite instability (MSI) has provided the evidence to support a sequential, progressive pathway for the development of cancer. In this study, we analyzed the role of MSI at chromosome 11p15.5 using microdissection of paraffin-embedded tissue from 68 matched normal and breast tumor samples. Components of intraductal, invasive and metastatic foci in lymph node were assessed for MSI using the polymorphic markers D11S922, tyrosine hydroxylase (TH) and D11S988. We found that MSI at D11S922 was relatively high incidence than other two markers and increased during breast cancer progression. The overall frequency of MSI at D11S922 was 26.7% in pure intraductal carcinoma, 36.4% in invasive carcinoma, and 40.0% in invasive carcinoma with metastases. We observed no significant correlation between MSI at chromosome 11p15.5 and the patient's age, tumor size, histological grade, or lymph node metastasis. We compared the MSI incidence with the expression of prognostic markers, such as p53, c-erb B2, estrogen receptor, and progesterone receptor, and found no significant correlation. We suggest that the MSI of chromosome 11p15.5 is increased during breast cancer progression, but long-term follow-up study would establish whether MSI at chromosome 11p15.5 could be useful as a potential prognostic marker for breast cancer.
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PMID:The role of microsatellite instability at chromosome 11p15.5 in the progression of breast ductal carcinoma. 1548 47


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