Species differences in the expression of multiple tyrosine hydroxylase protein isoforms

In subprimates, a single form of tyrosine hydroxylase (TH) is expressed, whereas two TH protein isoforms have been identified in monkeys and four isoforms have been demonstrated in humans. In order to establish the evolutionary pattern/emergence of these multiple TH isoforms, adrenal medullae from different mammalian species were analyzed by blot immunolabeling using pan-specific TH antibodies and antibodies specific to each of the four human TH isoforms. The expression of multiple TH isoforms was primate specific and restricted to anthropoids: only a single TH isoform was detected in adrenal medullae from several subprimate and prosimian species (six species from four families), while two TH isoforms were found in all of the anthropoid species studied. The presence of four TH isoforms could only be demonstrated in human specimens. Contrary to previous suggestions, only one TH protein isoform was found in rats and only four TH protein isoforms were found in humans.     

The human tyrosine hydroxylase gene

1. Tyrosine hydroxylase (TH) is a rate-limiting enzyme for catecholamine biosynthesis, and it is a pterin-requiring monooxygenase. Both cDNAs and genomic DNA of human TH have been cloned and the nucleotide sequence has been determined. 2. Four similar but distinct mRNAs encode human TH. The results of Southern blot analysis and the nucleotide sequence of the human TH genomic DAN indicate that the four types of human TH mRNA are produced through alternative splicing from a single gene. 3. The human TH gene was split into 4 exons and 13 introns. The 12-bp insertion sequence is encoded by the 3'-terminal portion of the first exon. The 81-bp insertion sequence corresponds to the second exon. Two kinds of alternative splicing are involved: the alternative use of two donor sites in the first exon and the inclusion/exclusion of the second exon. 4. The four types (type 1-4) were expressed in COS cells, and all had enzymatic activities. The type 1 enzyme had the highest homospecific activity (activity per enzyme protein), the values for the other enzymes ranging from 30 to 40%. The Km values of the four types for L-tyrosine and 6-methyl-5,6,7,8-tetrahydropterin were similar.     

Differential Effects of Increasing Gestational Age and Placental Restriction on Tyrosine Hydroxylase, Phenylethanolamine N-Methyltransferase, and Proenkephalin A mRNA Levels in the Fetal Sheep Adrenal

Abstract: We have demonstrated that there are differential changes in the levels of tyrosine hydroxylase (TH), phenylethanolamine N -methyltransferase (PNMT), and proenkephalin A (Pro Enk A) mRNA in the fetal sheep adrenal during late gestation. Adrenal TH mRNA:18S rRNA ratios increased between gestational days 100 (0.98 ± 0.13; n = 6) and 125 (1.40 ± 0.15; n = 6) and then decreased, whereas adrenal PNMT mRNA:18S rRNA ratios increased regularly between gestational days 100 (0.08 ± 0.01) and 146 (0.17 ± 0.03). The ratio of adrenal Pro Enk A mRNA to 18S rRNA was higher at gestational day 125 (0.085 ± 0.005) than at either 80–100 days (0.038 ± 0.007) or 140–146 days of gestation (0.055 ± 0.013). In 12 ewes, the growth and development of the placenta were restricted (placental restriction group) from conception. The ratio of adrenal PNMT mRNA to 18S rRNA was significantly reduced in the placental restriction group of fetal sheep (0.003 ± 0.002) compared with controls (0.011 ± 0.002), and there was a significant correlation between the ratio of adrenal PNMT mRNA to 18S rRNA and the mean arterial P o ₂ ( r = 0.88, p < 0.0005). In contrast, TH mRNA and Pro Enk mRNA were unaffected by placental restriction. Adrenaline and nonadrenaline syntheses are therefore differentially regulated in the adrenal during late gestation and in response to chronic intrauterine hypoxemia.     

Expression of nicotinic acetylcholine receptors in human and rat adrenal medulla.

Neuronal nicotinic receptors (nAChRs) are expressed in the brain but also in the peripheral tissues including the adrenal medulla. However, it is unclear which nAChRs are present in the human adrenal medulla. In the study, receptor binding assay, Western blot and RT-PCR have been performed to investigate the expression of nAChRs in adrenal medulla from human, rat and mouse. The results showed that in human adult adrenal medulla, mRNAs for nAChR alpha3, alpha4, alpha5, alpha7, beta2, beta3, and beta4 subunits but not beta2 in the fetal human adrenal medulla were expressed. Saturation binding of [3H]epibatidine showed two binding sites in human aged adrenal medulla. The specific binding of [3H]epibatidine (0.1 nM) was significantly higher in human fetal compared to human aged adrenal medulla. mRNAs for the alpha3, alpha4, alpha5, alpha7, beta2, and beta4 subunits but not the beta3 were detectable in adult rat and mouse adrenal medulla. No differences in gene-expression of the nAChRs were observed between new born, adult and aged rat adrenal medulla. Saturation binding of [3H]epibatidine showed only one binding site in rat adrenal medulla. Lower protein levels for the nAChR subunits were observed in the rat adrenal medulla compared to rat brain. There was lower protein levels of the nAChRs in aged rat adrenal medulla compared to the young rats. Sub-chronic treatment of nicotine to rats did not influence level of the nAChRs in the adrenal medulla. In conclusion, the expression of nAChRs in adrenal medulla is age- related and species dependent.     

Expression of mRNAs for PACAP and its receptor in human neuroblastomas and their relationship to catecholamine synthesis

PURPOSE: Pituitary adenylate cyclase-activating polypeptide (PACAP), a member of the secretin/glucagon/vasoactive intestinal peptide family, induces the expression of catecholamine-synthesizing enzymes in adrenal medullary cells. In addition, PACAP and its receptor have been detected in human neuroblastoma tissues and cell lines, though it is not yet known whether PACAP enhances the expression of genes encoding catecholamine-synthesizing enzymes. To address this question, we analyzed PACAP, PACAP receptor and tyrosine hydroxylase (TH) mRNAs in neuroblastomas. METHODS: The levels of mRNA for PACAP and vasoactive intestinal peptide (VIP), as well as their receptors and the mRNA for TH were measured by RT-PCR or real-time PCR analysis. RESULTS: VPAC1R mRNA was detected in all of 16 tissues and 3 cell lines that were examined, while VPAC2R mRNA was detected in 5 of 16 (31%) tissue and 2 of 3 cell lines. PAC1R mRNA was detected in 6 out of 16 (38%) tissues and none of 3 cell lines. mRNA expression of PACAP and TH were detected in many tissues (10/16 and 16/16, respectively). However, neither in tissues nor cell lines did PACAP mRNA expression correlate with TH mRNA expression. CONCLUSION: Our findings suggest that PACAP is not involved in the regulation of expression of TH in neuroblastomas.     

Purification and immunochemical characterization of human adrenal tyrosine hydroxylase

Tyrosine hydroxylase (TH) was purified from the soluble fraction of human adrenal glands. The enzyme in human adrenal glands that was purified to apparent homogeneity had an apparent M_r of about 280,000. Sodium dodecyl sulfate (SDS) gel electrophoresis gave a single band with a M_r of 60,000 similar to the M_r of bovine adrenal enzyme. The enzyme is considered to be composed of four identical subunits. The specific activity of the final preparation was approximately 310 nmol 3,4-dihydroxyphenylalanine (DOPA) formed/min/mg protein. The use of the “Western Blot” method showed that human adrenal TH did not aggregate as rapidly as bovine adrenal TH.     

Activation and Multiple-Site Phosphorylation of Tyrosine Hydroxylase in Perfused Rat Adrenal Glands

Tryptic digestion of tyrosine hydroxylase (TH) isolated from rat adrenal glands labeled with 32Pi produced five phosphopeptides. Based on the correspondence of these phosphopeptides with those identified in TH from rat pheochromocytoma cells, four phosphorylation sites (Ser8, Ser19, Ser31, and Ser40) were inferred. Field stimulation of the splanchnic nerves at either 1 or 10 Hz (300 pulses) increased 32P incorporation into TH. At 10 Hz, the phosphorylation of Ser19 and Ser40 was increased, whereas at 1 Hz, Ser19, Ser31, and Ser40 phosphorylation was increased. Stimulation at either 1 or 10 Hz also increased the catalytic activity of TH, as measured in vitro (pH 7.2) at either 30 or 300 microM tetrahydrobiopterin. Nicotine (3 microM, 3 min) increased Ser19 phosphorylation, vasoactive intestinal polypeptide (10 microM, 3 min) increased Ser40 phosphorylation, and muscarine (100 microM, 3 min) increased TH phosphorylation primarily at Ser19 and Ser31. Vasoactive intestinal polypeptide, but not nicotine or muscarine, mimicked the effects of field stimulation on TH activity. Thus, the regulation of rat adrenal medullary TH phosphorylation by nerve impulses is mediated by multiple first and second messenger systems, as previously shown for catecholamine secretion. However, different sets of second messengers are involved in the two processes. The action of vasoactive intestinal polypeptide as a secretagogue involves the mobilization of intracellular calcium, whereas its effects on TH phosphorylation are mediated by cyclic AMP. This latter effect of vasoactive intestinal polypeptide and the consequent increase in Ser40 phosphorylation appear to be responsible for the rapid activation of TH by splanchnic nerve stimulation.     

Characterization of FSH-regulated genes isolated by mRNA differential display from pig ovarian granulosa cells

The present authors have isolated FSH-regulated genes from primary granulosa cell cultures with or without Follicle Stimulating Hormone (FSH) treatment using mRNA differential display. mRNA differential display consists of amplification of partial sequences of cDNAs (150–400 bp) corresponding to 3' ends of cellular messenger RNAs, and thus, generates 3' expressed sequence tags (3' ESTs). Five thousand cDNA bands were examined, among which the present authors have isolated and sequenced 16 different FSH-regulated products. These sequences were compared with those available in databases. Three of the sequences showed similarity to identified genes from other species (bovine NADH dehydrogenase subunit 4, Xenopus chromosome sequence-associated polypeptide E and transformation-sensitive protein IEF SSP) and four others with human ESTs. Regulation of the corresponding genes has been checked by RT-PCR since most of these are expressed at a low level. FSH-regulation was confirmed for 12 mRNAs (four down- and eight up-regulated). The present authors have also mapped 12 of these ESTs on porcine chromosomes regions using a somatic cell hybrid panel.     

Structure of the human tyrosine hydroxylase gene: alternative splicing from a single gene accounts for generation of four mRNA types

Tyrosine hydroxylase (TH) is a rate-limiting enzyme for catecholamine biosynthesis. Recently, Grima et al. (Nature (1987) 326, 707-711) and we (Biochem. Biophys. Res. Commun. (1987) 146, 971-975; Nucleic Acids Res. (1987) 15, 6733) reported four similar but distinct mRNAs that encode human TH. These mRNAs are constant for the major part, but are distinguishable from one another as to the insertion/deletion of 12-bp and 81-bp sequences near the N-terminus. We isolated genomic clones encoding the human TH gene and determined the nucleotide sequence. The human TH gene is split into 14 exons. The 12-bp insertion sequence is encoded by the 3'-terminal portion of the first exon. The 81-bp insertion sequence corresponds to the second exon. Taking into consideration also the results of Southern blot analysis of human genomic DNA, we concluded that the four types of human TH mRNA are produced through alternative splicing from a single gene. Two kinds of alternative splicing are involved: the alternative use of two donor sites in the first exon, and the inclusion/exclusion of the second exon. We propose a possible secondary structure for the latter alternative splicing pathway.     

Role of protein phosphatase 2C from bovine adrenal chromaffin cells in the dephosphorylation of phospho-serine 40 tyrosine hydroxylase

Tyrosine hydroxylase (TH) is the rate-limiting enzyme in the synthesis of catecholamines. It is dephosphorylated by protein phosphatase (PP) 2A and PP2C. In this study we used a fixed amount of bacterially expressed rat TH (5 microM), phosphorylated only at serine 40 (pSer40TH), to determine the PP activities against this site that are present in extracts from the bovine adrenal cortex, adrenal medulla, adrenal chromaffin cells and rat striatum. We found that PP2C was the main TH phosphatase activity in extracts from the adrenal medulla and adrenal chromaffin cells. In adrenal cortex extracts PP2C and PP2A activities toward pSer40TH did not differ significantly. PP2A was the main TH phosphatase activity in extracts from rat striatum. Kinetic studies with extracts from adrenal chromaffin cells showed that when higher concentrations of pSer40TH (> 5 microM) were used the activity of PP2C increased more than the activity of PP2A. PP2C was maximally activated by 1.25 mM Mn2+ and by 5 mM Mg2+ but was inhibited by calcium. Our data suggest a more important role for PP2C than was previously suggested in the dephosphorylation of serine 40 on TH.     

Isolation and Characterization of Ovine Tyrosine Hydroxylase mRNA

Abstract: Tyrosine hydroxylase (TH) cDNA has been characterized in rodents and primates, but only a few studies have been developed in ungulates, except in cows. Because sheep is a species used for many physiological studies, it was of interest to clone TH cDNA in this species. Ovine TH cDNA was purified from a library of sheep adrenal glands. The entire cDNA was 1,721 bp long. It presented a higher percentage of similarity with bovine TH cDNA (93%) than with rodent cDNAs (75%). The deduced amino acid sequence was 490 amino acids long and had 96% similarity with the bovine amino acid sequence. The entire cDNA and different fragments obtained with endonuclease restriction enzymes were cloned in plasmid pUC 18 and were labeled with ³⁵S-dATP to detect TH mRNA by in situ hybridization. Strong labelings were observed on adrenal medulla and on noradrenergic and dopaminergic neurons in the sheep but also in the cow and pig. This labeling matched completely TH immunohistochemical staining obtained on the same sections with anti-TH antibodies. Ovine TH cDNA is a useful tool to study the variations of TH mRNA levels in sheep catecholaminergic neurons.     

Detection of inactive or less active forms of tyrosine hydroxylase in human adrenals by a sandwich enzyme immunoassay

A sensitive sandwich enzyme immunoassay for tyrosine hydroxylase (TH) from bovine and human adrenals has been developed. Anti-TH antibody was prepared from bovine adrenal TH. The assay system consisted of an antibody F(ab')2 immobilized on polystyrene beads as a solid phase and of beta-D-galactosidase-conjugated antibody. This method was highly sensitive and specific for the assay of TH. Human adrenal TH level was determined by similar sensitivity as bovine adrenal TH, suggesting the presence of common antigenic sites between human and bovine adrenal enzymes. The presence of inactive or less active forms of TH in human adrenals was revealed by purification of the enzyme and monitoring with this enzyme immunoassay as well as with enzyme activity assay.     

Multiple Forms of Tyrosine Hydroxylase in Human Neuroblastoma Cells: Quantitation with Isoform-Specific Antibodies

Abstract: Human tyrosine hydroxylase (HTH) RNA undergoes alternative splicing, and four different forms of HTH mRNA have been previously identified. Rabbit antibodies were raised against octapeptides unique to each of the four isoforms of HTH predicted from these mRNAs. Blot immunolabeling of human adrenal medulla, pheochromocytoma, and several neuroblastoma cell lines with affinitypurified anti-HTH peptide antibodies demonstrated the presence of all four HTH isoforms in each of these tissues. Quantitative immunolabeling assays for HTH-1, -2, and -4 were established, and HTH isoform levels were determined in several human neuroblastoma cell lines. Whereas total HTH levels differed up to fourfold among the HTH-positive neuroblastoma cell lines studied [LA-N-1, LA-N-5, CHP-234, BE(2)-C, and BE(2)-M17], the relative abundances of HTH isoforms in each of the cell lines were similar. Immunocytochemical analyses demonstrated that HTH immunoreactivity was distributed unequally among the cells in each of these neuroblastoma lines, and morphological interconversion did not account for this heterogeneity. A direct relationship between the percentage of HTH-positive cells and overall HTH levels was also observed. This relationship, in the absence of an apparent clonal basis for the heterogeneity, suggests that HTH expression in neuroblastoma cells may be controlled in a relatively "all-ornone"(bimodal) fashion.     

Expression of the noradrenaline transporter and phenylethanolamine N-methyltransferase in normal human adrenal gland and phaeochromocytoma

Expression of the noradrenaline transporter (NAT) was examined in normal human adrenal medulla and phaeochromocytoma by using immunohistochemistry and confocal microscopy. The enzymes tyrosine hydroxylase (TH) and phenylethanolamine N-methyltransferase (PNMT) were used as catecholamine biosynthetic markers and chromogranin A (CGA) as a marker for secretory granules. Catecholamine content was measured by using high performance liquid chromatography (HPLC). In normal human adrenal medulla (n=5), all chromaffin cells demonstrated strong TH, PNMT and NAT immunoreactivity. NAT was co-localized with PNMT and was located within the cytoplasm with a punctate appearance. Human phaeochromocytomas demonstrated strong TH expression (n=20 samples tested) but variable NAT and PNMT expression (n=24). NAT immunoreactivity ranged from absent (n=3) to weak (n=10) and strong (n=11) and, in some cases, occupied an apparent nuclear location. Unlike the expression seen in normal human adrenal medullary tissue, NAT expression was not consistently co-localized with PNMT. PNMT also showed highly variable expression that was poorly correlated with tumour adrenaline content. Immunoreactivity for CGA was colocalized with NAT within the cytoplasm of normal human chromaffin cells (n=4). This co-localization was not consistent in phaeochromocytoma tumour cells (n=7). The altered pattern of expression for both NAT and PNMT in phaeochromocytoma indicates a significant disruption in the regulation and possibly in the function of these proteins in adrenal medullary tumours.     

Large Dense-Core Vesicles in Rat Adrenal After Reserpine: Levels of mRNAs of Soluble and Membrane-Bound: Constituents in Chromaffin and Ganglion Cells Indicate a Biosynthesis of Vesicles with Higher Secretory Quanta

Abstract: Rats were injected with a large dose of reserpine known to stimulate the adrenal medulla. Various times after drug treatment the mRNA levels of several constituents of large dense-core vesicles were determined by northern blot analysis and in situ hybridization. The latter method allowed detection of changes in mRNA levels not only in chromaffin cells, but also in the ganglion cells found in adrenal medulla. Levels of the mRNAs of secretory components of large dense-core vesicles (chromogranins A and B., secretogranin II, VGF, and neuropeptide Y) increased in chromaffin cells by 215–857% after 1–3 days of drug treatment. For partly membrane-bound components (dopamine β-hydroxylase, prohormone convertase 2, carboxypeptidase H., and peptidylglycine α-amidating monooxygenase) the changes ranged from 182 to 315%, whereas for glycoprotein III and for intrinsic membrane proteins (cytochrome b ₆₆₁ and vesicle monoamine transporter 2) no change occurred. In ganglion cells the mRNAs that could be detected for VGF, neuropeptide Y., secretogranin II, carboxypeptidase H., and vesicle monoamine transporter 1 showed an analogous pattern of change, with significant increases for the secretory proteins and no change for the membrane components. From these and previous results we suggest the following concept: Long-lasting stimulation of chromaffin cells or neurons does not induce the biosynthesis of a larger number of vesicles but rather leads to the formation of vesicles containing higher secretory quanta of chromogranins and neuropeptides. Key Words : ChromograninSecretogranin II—Monoamine transporter—Prohormone convertase 2—Carboxypeptidase H—Cytochrome b ₆₆₁-Clusterin.     

Four Forms of Tyrosine Hydroxylase Are Present in Human Adrenal Medulla

Alternative splicing can result in up to four forms of human tyrosine hydroxylase (HTH) mRNA (mRNAHTH). In the adrenal gland, a major site of catecholamine biosynthesis, the presence of all four mRNAHTH forms is controversial. In the present study, postmortem human adrenal medullary tissue was analyzed for the presence of multiple forms of HTH protein by blot immunolabeling. Electrophoretic transfers were developed with affinity-purified rabbit anti-HTH antibodies raised against peptides that reproduced the unique amino acid sequences predicted by the four mRNAHTH forms. All four of the predicted HTH protein forms were present in the adrenal glands from a diverse sample population.