Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.1 (RNase)
 16,360 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We describe here a protocol developed to detect specific mRNAs by in situ hybridization using tissue sections that were not treated to inactivate RNase and were stored in cryoprotectant solution for several years. Brains from rats, monkeys and humans were sectioned at 50 microns and stored free floating in an ethylene glycol based cryoprotective solution at -20 degrees C. Rat brain sections were kept in cryoprotective solution for 3 days, 1 month and 2 months. Control sections were cut and mounted immediately on gelatin-coated slides and stored at -80 degrees C. Monkey brain sections were stored in cryoprotective solution for up to 5 years. Human sections were tested after storage for one year. Oligonucleotide probes that were complementary to human preproenkephalin mRNA (amino acid sequences 130-145), rat preproenkephalin mRNA (sequences 388-435) and rat tyrosine hydroxylase mRNA (sequences 1441-1488) were labeled with 35S-dATP and terminal deoxynucleotidyl transferase. To prevent possible RNase contamination from mounting the tissue sections onto gelatin coated slides, the in situ hybridization was performed in sterile culture dishes. Following each step, solutions were aspirated out of the dish. The amount of probe necessary for each section was 45 microliters (rat), 450 microliters (monkey), and 350 microliters (human). Using this protocol, the detection of specific mRNAs in rat brain sections was more specific with less non-specific background as compared to control sections that were processed after they were mounted onto gelatin-coated sides. Excellent resolution was also obtained from monkey brain sections that were stored in cryoprotectant for up to 31 months and in human brain sections stored for 12 months.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In situ hybridization histochemistry: a new method for processing material stored for several years. 135 96

We have investigated putative dopaminergic regulation of opiomelanotropinergic activity in the arcuate/periarcuate mediobasohypothalamus (MBH) by assessing the changes in MBH tyrosine hydroxylase (TH; rate-limiting enzyme in catecholamine synthesis) and proopiomelanocortin (POMC; opiomelanotropin precursor) mRNA levels under conditions in which endogenous tuberinfundibular dopaminergic activity exhibits marked changes. Adult Sprague-Dawley rats were sacrificed at 09.00 and 15.00 h, and individual MBH POMC and TH cytoplasmic mRNA levels were simultaneously quantified by multiplex solution hybridization-RNase protection assay with protected fragments separated by polyacrylamide gel electrophoresis. In ovariectomized (OVX) rats treated for 3 days with low-dose estradiol (E2) implants (resulting in 18 +/- 4 pg E2/ml serum), the MBH levels of POMC and TH mRNAs were approximately 17 and 31% lower than those measured in OVX controls, respectively. In OVX rats implanted for 20 days with larger E2 implants (99 +/- 9 pg E2/ml serum), POMC and TH mRNA levels were approximately 29 and 41% lower than in OVX controls, respectively. Additional groups were exposed to the higher E2 dose for 20 days and then killed 10 or 20 days after removal of the E2 implant. In these rats, POMC mRNA levels rebounded to the same level seen in OVX controls, while TH mRNA levels even exceeded control values by 22-27%. TH and POMC mRNA levels did not change significantly between 09.00 and 15.00 h, except 10 days after removal of the E2 implants, when 09.00 h POMC mRNA levels were higher than the 15.00 h levels. MBH POMC and TH mRNA levels were positively correlated with each other within individual animals. This correlation is maintained when both POMC and TH mRNA levels are suppressed in response to both 3-day low-dose and 20-day high-dose E2 treatment. However, although rat MBH opiomelanotropinergic and tuberoinfundibular dopaminergic mRNA biosynthesis thus appear to be positively correlated, the coregulation or functional interactions of these two neuronal systems remain to be determined.
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PMID:Positive correlation between proopiomelanocortin and tyrosine hydroxylase mRNA levels in the mediobasohypothalamus of ovariectomized rats: response to estradiol replacement and withdrawal. 135 37

We have examined the expression of mRNAs encoding five major neurotransmitter-synthesizing enzymes in MAH cells, a clonal cell line derived by retroviral immortalization of a rat embryonic sympathoadrenal progenitor cell. These mRNAs include tyrosine hydroxylase (TH), choline acetyltransferase (ChAT), tryptophan hydroxylase (TpH), and glutamic acid decarboxylases (GADs) 1 and 2. We find that MAH cells express high levels of TH mRNA and low levels of ChAT and TpH mRNAs. Neither GAD1 nor GAD2 mRNAs are detectable using an RNase protection assay with a detection limit of less than one transcript per cell. A similar pattern of mRNA expression is observed in postnatal superior cervical ganglia, adrenal medulla, and in PC12 cells. Transmitter synthesis and accumulation assays indicate that MAH cells can synthesize both catecholamines and acetylcholine. Thus the TH and ChAT mRNAs detected in these cells are likely to be translated into active enzyme. To corroborate these data obtained using MAH cells, we performed similar transmitter synthesis and accumulation assays on sympathoadrenal progenitors directly isolated from E14.5 fetal adrenal glands by fluorescence-activated cell sorting. These progenitor cells also synthesize and accumulate both catecholamines and acetylcholine, albeit to different extents than MAH cells. Both MAH cells and their nonimmortal counterparts are able to increase slightly their cholinergic function upon short-term exposure to CDF/LIF, a factor known to induce acetylcholine synthesis in postmitotic sympathetic neurons. Taken together, these data suggest that progenitor cells in the sympathoadrenal lineage acquire the ability to simultaneously transcribe several different neurotransmitter enzyme genes early in development, prior to their choice of final cell fate. At the same time, the progenitors possess receptors which regulate expression of these genes in response to environmental factors. This ability may permit the cells to choose from several different transmitter phenotypes in response to different environments, as they migrate through the embryo. The persistent transcription of these genes in adult cells, moreover, may in part account for the phenotypic plasticity of cells in this lineage.
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PMID:Co-expression of multiple neurotransmitter enzyme genes in normal and immortalized sympathoadrenal progenitor cells. 168 90

An alkaline phosphatase-labelled anti-sense oligonucleotide probe specific for tyrosine hydroxylase (TOH) mRNA has been used for visualisation of TOH mRNA in the rat brain and adrenal gland. Both ribonuclease pre-treatment and the use of excess non-labelled probe abolished the specific hybridization signal. Furthermore the TOH mRNA-positive signal was only found in cells known from earlier studies to react with anti-TOH antibodies. To determine if the alkaline phosphatase-labelled probe could be used in a semiquantitative manner for measurement of the density of TOH mRNA signal, we used reserpine pre-treatment which induces TOH mRNA expression. The results revealed a significant increase in TOH mRNA signal in locus coeruleus and substantia nigra neurons, and in adrenal medulla chromaffin cells. The increased signal in these areas agreed with the increase in TOH mRNA signal previously observed by Northern analysis and suggests that this type of alkaline phosphatase-labelled probe allows sensitive detection of changes in TOH gene expression.
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PMID:Sensitive non-radioisotopic in situ hybridization histochemistry: demonstration of tyrosine hydroxylase gene expression in rat brain and adrenal. 197 Aug 45

Cultured explants of the mouse substantia nigra were used to analyze mechanisms underlying the depolarization-induced increase in tyrosine hydroxylase activity. Steady-state levels of messenger RNA encoding tyrosine hydroxylase were detected using an antisense riboprobe in an RNase protection assay. Explants exposed to the depolarizing agent, veratridine, exhibited an approximate 2-fold increase in tyrosine hydroxylase messenger RNA. Moreover, the native presynaptic excitatory agonist substance K also elicited a significant increase in tyrosine hydroxylase message. We conclude that depolarizing influences induce tyrosine hydroxylase in the cultured substantia nigra in association with an elevation of enzyme messenger RNA.
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PMID:Substance K (NKA) increases tyrosine hydroxylase mRNA in cultured substantia nigra. 289 71

The tyrosine hydroxylase (TH) gene is expressed exclusively in cells and neurons that synthesize and release L-DOPA or catecholamines. To further understand the molecular genetic mechanisms that regulate this cell-type specific expression, a chimeric gene was prepared by linking 3.6 kb of the 5' flanking DNA of the mouse TH gene, including the +1 initiation site for transcription, to an E. coli beta-galactosidase reporter. This fusion gene (TH3.6LAC) was used to prepare transgenic mice, and the tissue distribution of expression of TH3.6LAC was determined by the measurement of beta-galactosidase enzymatic activity and/or by the detection of the transcription product of the chimeric gene by RNase protection assays. In two separate founder lines, TH3.6LAC expression was observed in every region of the brain that was examined, including the olfactory bulb, brainstem, cerebellum, diencephalon, hippocampus, striatum, and cerebral cortex. Expression of TH3.6LAC was observed in the adrenal gland of one founder line but not in the other. TH3.6LAC activation was undetectable in peripheral organs that were examined, including the liver, heart, salivary gland, kidney, lung, and spleen. Although 3.6 kb of the 5' regulatory DNA of the mouse TH gene is sufficient to activate the TH fusion gene in the mouse, it is not enough to restrict its expression to catecholaminergic cells.
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PMID:3.6 kb of the 5' flanking DNA activates the mouse tyrosine hydroxylase gene promoter without catecholaminergic-specific expression. 852 54

Alternative splicing of human tyrosine hydroxylase (TH) pre-mRNA produces four mRNAs leading to four different TH isoforms and is thought to have important regulatory functions. We show that the diversity of TH mRNAs is greater than previously described in the autonomous nervous system: New splice junctions corresponding to the skipping of exon 3 were identified by amplification of cDNA synthesized from pheochromocytoma RNA. In all cases the reading frame was maintained. These species were assayed by RNase protection experiments; their abundance (4-6%) was comparable to that of the previously identified human TH-3 and -4 species in normal adrenal medulla. However, higher levels (11-34%) of these species were found in adrenal medullas of patients suffering from progressive supranuclear palsy. Whether such changes are specific to the disease or the consequences of the stress associated with this severe neurodegeneration remains to be established.
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PMID:New species of human tyrosine hydroxylase mRNA are produced in variable amounts in adrenal medulla and are overexpressed in progressive supranuclear palsy. 866 91

Tyrosine hydroxylase (TH) catalyzes the first and rate-limiting step in the biosynthesis of catecholamines. Among the various mechanisms implicated in the regulation of TH activity, alternative splicing of TH primary transcript has been described as a characteristic of higher primates and Drosophila. We investigated whether there is such a regulatory mechanism in the rat. Reverse transcriptase-PCR experiments were performed with RNA from PC12 cells. A new TH mRNA species was evidenced, resulting from the use of an alternative donor site in exon 2. RNase protection assays and in situ hybridization experiments detected this mRNA species in the adrenal medulla but not in the main catecholaminergic nuclei of the CNS. The corresponding putative protein lacks 33 amino acids in the N-terminal regulatory domain. A recombinant protein was produced in E. coli. Its in vitro specific activity was similar to that of the previously identified TH protein.
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PMID:A novel rat tyrosine hydroxylase mRNA species generated by alternative splicing. 878 6

Cocaine exposure in utero is known to cause a variety of behavioral and motor deficits that may be attributable to alterations in the dopamine neurocircuitry. To ascertain cocaine effects in the fetus, we developed a nonhuman primate model in which pregnant monkeys were administered cocaine from day 20 through day 60 or 70 of gestation. Fetuses from these pregnancies develop a repertoire of neural deficiencies, including decreased mRNA expression of tyrosine hydroxylase in the midbrain and increased mRNA expression of dopamine receptor subtypes in the rostral forebrain. Presently, we studied the effects of maternal cocaine treatment on the mRNA expression of the endogenous opioids preprodynorphin (PPD) and preproenkephalin (PPE) in fetal monkey brains. Fetuses exposed to saline (0.9%) or cocaine (3 mg/kg) were delivered by Caesarean section, the fetal brains were dissected, and tissue RNA was extracted and quantified using ribonuclease protection assay analysis. The opioid peptides PPD and PPE were expressed in the fetal monkey brain by day 60, and even higher levels were found in day 70 fetuses. Maternal exposure to cocaine increased gene expression of PPD and PPE in the fetus at both day 60 and day 70 of gestation. Dynorphin mRNA levels were significantly elevated in the striatum, whereas enkephalin mRNA was elevated in both the frontal cortex and the striatal area of fetuses whose mothers received cocaine. Changes in the expression of these opioid peptides in presumed dopamine target neurons, which mediate motivation and reward, as well as motor control, provide further evidence for profound consequences of in utero cocaine exposure on the developing dopamine neurocircuitry.
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PMID:Maternal cocaine treatment alters dynorphin and enkephalin mRNA expression in brains of fetal rhesus macaques. 899 65

Experiments were performed in rats to test the hypothesis that adrenal mRNA levels of tyrosine hydroxylase (TH) and the norepinephrine transporter (NET) would be modified by water deprivation via activation of the sympathetic nervous system. TH and NET mRNA levels were measured using the ribonuclease protection assay. Adrenal TH mRNA was higher (P < 0.001) in water-deprived (921 +/- 39 fg/microgram total RNA) compared with the water-replete rats (657 +/- 45 fg/microgram total RNA). In contrast, water deprivation decreased (P < 0.01) adrenal NET mRNA levels (275 +/- 66 vs. 433 +/- 63 fg/microgram total RNA). The dehydration-induced increase in TH mRNA was prevented by prior splanchnicectomy, but the decrease in NET mRNA was produced even in the absence of adrenal nerves. Water deprivation also increased (P < 0.05) plasma adrenocorticotropic hormone (84 +/- 16 vs. 42 +/- 14 pg/ml) and corticosterone (358 +/- 87 vs. 44 +/- 15 ng/ml) levels. Interestingly, the corticosterone response was reduced (P < 0.05) by unilateral adrenal denervation. These results suggest that water deprivation increases both adrenal medullary and adrenocortical activity at least in part by stimulation of sympathetic nerve activity.
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PMID:Water deprivation and rat adrenal mRNAs for tyrosine hydroxylase and the norepinephrine transporter. 922 5


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