Tokuji Iriuchijima

REGULATION OF RAT LIVER TYPE 1 IODOTHYRONINE DEIODINASE MRNA LEVELS BY TESTOSTERONE

To investigate the underlying mechanisms of sex-related differences in liver type 1 iodothyronine deiodinase (ID1), we studied the sex-related differences and roles of sex steroids in liver ID1 mRNA levels in the rat. In both euthyroid and thyroidectomized rats, liver ID1 activity and ID1 mRNA levels in female rats were less than those in male rats. A positive correlation was observed between liver ID1 activity and ID1 mRNA levels. Liver ID1 activity and ID1 mRNA levels in male rats decreased after orchiectomy, and were increased to control levels by testosterone administration. Ovariectomy of beta-estradiol administration did not alter liver ID1 activity or ID1 mRNA levels in female rats. ID1 mRNA levels in cultured rat hepatocytes were significantly increased by testosterone, but not by beta-estradiol. These results suggest that the sex-related differences in liver ID1 activity are attributable to differences in ID1 mRNA levels, and that testosterone plays an important role in the sex-related differences in liver ID1 mRNA levels.

Differential regulation of thyrotropin-releasing hormone receptor mRNA levels by thyroid hormone in vivo and in vitro (GH3 cells)

We studied the effect of thyroid status on thyrotropin-releasing hormone receptor (TRH-R) mRNA levels both in vivo and in vitro (GH3 cells) using a cloned rat TRH-R cDNA by RT-PCR. Experimental hypothyroid rats were produced by total thyroidectomy and were then killed 7 days after the operation. TRH receptor binding in the anterior pituitary and serum TSH level were elevated approximately 2-fold and 8-fold, respectively, in 7 day thyroidectomized rats. TRH-R mRNA levels in hypothyroid rats were also increased significantly compared with those of normal rats. In GH3 cells, however, no significant change of TRH-R mRNA level was observed between cultures treated with triiodothyronine (T3, 10(-9) and 10(-7) M) and the untreated group. The present data indicate that 1) the in vivo effects of thyroid status on TRH-R mRNA levels differ from the in vitro one, and that 2) the down regulation of TRH-R binding by thyroid hormone in GH3 cells may be mediated by translational or post-translational mechanisms.

Influences of Hypothyroidism on TRH Concentrations and PreproTRH mRNA Levels in Rat Hypothalamus: A Simple and Reliable Method to Detect PreproTRH mRNA Level

To gain further insight into the regulation of hypothalamic TRH by thyroid hormones, we measured TRH concentration in specific hypothalamic nuclei and preproTRH mRNA levels in the anterior hypothalamus. Adult male rats were decapitated 1, 7, 14 days after thyroidectomy. Micropunches by the method of Palkovitz from seven hypothalamic nuclei and median eminence were used for measurement of TRH by radioimmunoassay. As compared with normal levels, TRH concentration significantly decreased in the median eminence and five hypothalamic nuclei including paraventricular nucleus (PVN), posterior nucleus, anterior nucleus, arcuate nucleus, and ventromedial nucleus pars lateralis, by 7 days after thyroidectomy. No significant changes were observed in dorsomedial nucleus or ventromedial nucleus pars medialis until 14 days after thyroidectomy. A rapid and simple method to detect specific mRNA for preproTRH was developed using the polymerase chain reaction and a single anterior hypothalamic section. PreproTRH mRNA levels in the anterior hypothalamus increased approximately twice 7 days after thyroidectomy. These data indicate that thyroidectomy caused a marked increase in preproTRH mRNA levels of the anterior hypothalamus, while it significantly reduced TRH concentrations not only in PVN and median eminence but also in other specific hypothalamic nuclei, suggesting that these nuclei might be involved in the thyrotropin regulation in the hypothalamus.

Regional Dissociation of Cyclic AMP and Inositol Phosphate Formation in Response to Thyrotropin‐Releasing Hormone in the Rat Brain

Abstract: The present study was undertaken to define effects of thyrotropin‐releasing hormone (TRH) on formation of cyclic AMP (cAMP) and inositol phosphates (IPs) in rat brain regions. The brain of male Wistar rats was dissected into seven discrete regions, and each region was sliced. The slices were incubated in Krebs‐Henseleit glucose buffer containing varying doses of TRH. TRH caused a significant and consistent increase in cAMP level, but not in formation of IPs, in the hypothalamus, striatum, and midbrain. TRH stimulated formation of IPs in the cerebellum, where the tripeptide did not change the cAMP level. In contrast, formation of neither cAMP nor IPs was affected by TRH in the cortex, hippocampus, or pons‐medulla. These data suggest that TRH possesses two distinct types of brain intracellular signaling systems, which vary with brain regions.

Nitric oxide-dependent soluble guanylate cyclase activity is decreased in platelets from male niddm patients

To elucidate the underlying mechanisms of platelet dysfunction in diabetes mellitus, we examined the activity of soluble guanylate cyclase (sGC), a key enzyme in the nitric oxide (NO)-related signalling pathway, in platelets from NIDDM (non-insulin dependent diabetes mellitus) patients. The sGC activity was determined by measuring the amount of cyclic GMP produced in platelet cytosol. In the first study, we investigated the platelet sGC activity in untreated NIDDM patients without diabetic complications. In the male NIDDM patients, sodium nitroprusside (SNP) caused a significantly lower sGC response than that in age-matched control male subjects, while the enzyme activity of female diabetics did not differ from that in the controls. Secondly, we investigated effects of diabetic-associated factors on the enzyme activity in the male NIDDM patients. There was no difference in the SNP-stimulated sGC activity in platelets from male diabetics between with and without retinopathy. In the male diabetic patients with retinopathy, however, the platelet sGC activity was slightly increased by treatment with insulin. Interestingly, the changes in enzyme activity did not correlate with plasma glycosylated hemoglobin A1c levels in diabetic patients. The impairment of the NO-related signalling pathway may contribute to the platelet dysfunction observed in patients with diabetes mellitus.

Activation of the thyrotropin-releasing hormone (TRH) receptor by a direct precursor of TRH, TRH-Gly

We studied the mechanism by which thyrotropin-releasing hormone (TRH)-Gly stimulated prolactin and thyrotropin (TSH) secretion in pituitary, using a pituitary mammotropic cell line, GH3 cells, and a cell line stably expressing a human TRH receptor (TRH-R). In GH3 cells expressing endogenous TRH-R, an addition of TRH-Gly evoked an immediate rise of intracellular calcium concentration, indicating that TRH-Gly reacted directly without converting from TRH-Gly to TRH. In order to determine whether this reaction might occur through TRH-R, we established a cell line stably expressing a human TRH-R, by transfecting a human TRH-R cDNA into Chinese hamster ovary cells (CHO cells). In this cell line, 10 nM TRH elevated intracellular calcium significantly; the Kd for MeTRH was 1.7 nM. One micromolar and 100 nM TRH-Gly also elevated intracellular concentration of calcium significantly, but not in CHO cells which were not transfected with the TRH-R cDNA. Competition studies further revealed that TRH-Gly displaced MeTRH binding (IC50, 12 microM). These data indicate that at high concentration, TRH-Gly interacts directly with TRH-R to activate signal transduction pathway, and that release of prolactin and TSH induced by TRH-Gly in vitro may be due, at least in part, to the direct effect of TRH-Gly on the TRH-R.

Sex and age differences in soluble guanylate cyclase activity in human platelets

Soluble guanylate cyclase is a key enzyme of nitric oxide (NO)-related intracellular signal transduction in platelets. In the present study, we investigated the effects of sex and age on the enzyme activity in human platelets. Soluble guanylate cyclase activity was determined by generation of cyclic GMP in platelet cytosol. No significant differences in the basal activity of soluble guanylate cyclase were observed between in men and women, and between in young and old subjects. However, soluble guanylate cyclase activity in response to sodium nitroprusside, an exogenous NO donor, was higher in young men than in young and old women. Furthermore, the enzyme activity was lower in old than in young men, but there were no differences in female platelets between from young and old subjects. The present data suggest that NO-related signal transduction system in the platelet is affected by sex and age, which, to certain extent, contributes to different sensitivity of human platelets.

Primary culture of cells from hyperfunctioning thyroid adenoma with an activating mutation of Gαs

We analyzed cultured cells from hyperfunctioning thyroid adenoma and its surrounding thyroid tissue from a Japanese woman and determined the nucleotide sequences of genes encoding the alpha subunit of the stimulatory G-protein 1 (G alphas) and thyrotropin (TSH) receptor in its tumor tissue. Primary culture of cells from hyperfunctioning thyroid adenoma and its surrounding thyroid tissue revealed that cAMP production was constitutively activated while intracellular Ca2+ concentration was suppressed both at the basal level and in the response to TSH stimulation in the cells from tumor tissue compared with those from non-tumor tissue. Nucleotide sequence analysis demonstrated the somatic missense mutation at codon 201 (CGT(Arg)-CAT(His)) of G alphas gene in tumor tissue but not in its surrounding tissue. No mutation was observed in the transmembrane region of TSH receptor. These results suggest that cAMP regulatory cascade is constitutively activated while phospholipase C-Ca2+ signaling cascade is suppressed in hyperfunctioning thyroid adenoma with an activating mutation of G alphas gene in the present case.

Northern analysis of type II iodothyronine deiodinase mRNA in rat harderian gland

It has been known that type II iodothyronine deiodinase activity is present in rat Harderian gland and the activity is significantly increased by isoproterenol administration. We have performed Northern analyses to study whether the transcript for type II iodothyronine deiodinase is expressed in rat Harderian gland and whether the isoproterenol stimulation of type II iodothyronine deiodinase activity in rat Harderian gland is due to the change in its mRNA level. Northern analyses have demonstrated that type II iodothyronine deiodinase mRNA, approximately 7.5 kb in size, is expressed in rat Harderian gland, and the mRNA levels as well as the deiodinase activities are greater in hypothyroid rats than those in euthyroid rats. Type II iodothyronine deiodinase mRNA levels and the deiodinase activities in Harderian gland were increased by isoproterenol administration, and the increase in the mRNA levels preceded that in the deiodinase activities. These results indicate that 7.5 kb transcript for type II iodothyronine deiodinase is expressed in rat Harderian gland and beta-adrenergic stimulation of type II iodothyronine deiodinase activity is due at least in part to the increase in its mRNA level.

Expression and nocturnal increase of type II iodothyronine deiodinase mRNA in rat pineal gland.

It has been demonstrated that thyroxine deiodinating activity is present in rat pineal gland, and its activity increases significantly during the night time. We have studied whether mRNA for type II iodothyronine deiodinase is expressed in rat pineal gland and whether the nocturnal rise of pineal T4 deiodinating activity is due to the change in type II iodothyronine deiodinase mRNA level. Reverse transcription-polymerase chain reaction amplification and Northern blot analyses have demonstrated that type II iodothyronine deiodinase mRNA is expressed in rat pineal gland and its mRNA level increases markedly at midnight. These results suggest that the nocturnal rise in pineal T4 deiodinating activity is due to the change in type II iodothyronine deiodinase mRNA level.