The Evolution of Thyroidal Function in Fishes

Although the thyroid gland evolved from the gut, there is noevidence that thyroxine functions as part of the gastro-intestinalendocrine system nor does it have any major function analogousto the control of glucose by the pancreatic islets. The controlof the thyroid evolved from the pituitary control of the gonadsuggesting that an early role of thyroxine was in reproduction.This idea is supported by the presence of cycles of thyroidactivity associated with reproduction in both elasmobranchsand teleosts. In teleosts thyroxine is necessary for gonadalmaturation. The numerous other effects of thyroxine in teleostsmay have evolved from this maturational effect or have beenadded to it during the course of teleost evolution.     

Effect of thiourea on intracranial bone tumour formation in AkR mice.

The effect of administration of thiourea (5 g/kg in diet) alone or simultaneously with thyroxine (1 mg/l in drinking water) on the frequency of hyperplastic benign osteoma of the skull was studied in AkR mice. Animals treated with both thiourea and thyroxine were in hyperthyroidism: the thyroxine dose received was higher that that required to prevent thiourea-induced thyroid gland hypertrophy. A significant increase of the intracranial bone tumour (IBT) frequency was observed both in mice treated with thiourea alone and those which received thiourea and thyroxine simultaneously. Increase of IBT frequency was not due to the antithyroid effect of thiourea but seems due to a direct toxic action of thiourea on the pituitary.     

Spiperone: a receptor ligand and/or a granular uptake tracer?

The accumulation of [³H]spiperone and [³H]dopamine was measured in striatum and pituitary gland slices of rat. Contrary to [³H]dopamine, [³H]spiperone storage was similar in striatum and pituitary gland. In addition, [³H]spiperone accumulation was not diminished by reserpine and tetrabenazine. These data show that spiperone is not subject to the granular uptake/storage mechanism and suggest that spiperone and its derivatives are specific ligands for dopamine receptors only.     

Combined reserpine and pituitary irradiation therapy for Cushing's disease patients following unsuccessful transsphenoidal microsurgery

The effectiveness of treatment with reserpine and pituitary irradiation, and with reserpine alone was evaluated in three female patients with Cushing's disease whose transsphenoidal pituitary microsurgery (TPM) had been unsuccessful. In these patients, endocrinological examination after the surgery demonstrated a recurrence of the disease although the microadenomas had apparently been curetted out from the pituitary in all patients. The first patient therefore received 1.0-2.0 mg/day of reserpine with 60 Gy x-ray irradiation, and there was complete remission within 3 months and the patient remained asymptomatic even when reserpine was reduced to 0.1 mg/day 10 years later. The second case was treated with low dose x-ray (20 Gy) and reserpine (0.5-2.0 mg/day), which were also effective. However, 2 weeks discontinuation of the drug caused urinary 17-hydroxycorticosteroids (17-OHCS) and serum cortisol to increase abnormally again, but these were finally re-normalized by an additional administration of reserpine. The third case was given reserpine alone (1.0-2.0 mg/day). She also had a remission in 3 months and the treatment was continued for one year, requiring no further treatment. These results suggest that additional treatment with reserpine and pituitary irradiation or with reserpine alone after unsuccessful TPM may be an effective alternative for patients with Cushing's disease.     

Effects of thyroxine and cold exposure on hypothalamic TRH levels in rats with various pituitary-thyroid states.

The hypothalamic content and concentration of thyrotropin-releasing hormone (TRH) were determined by radioimmunoassay in normal, thyroidectomized, hypophysectomized and cold-exposed rats with or without thyroxine. In normal animals, the single administration of thyroxine (1,5 and 20 microgram/100 g B.W.) altered neither the content nor the concentration of TRH in the hypothalamus. However, seven days' administration of this hormone resulted in the dose-dependent increase in the hypothalamic TRH levels. In thyroidectomized rats the hypothalamic TRH levels were slightly reduced in spite of the marked increase of plasma TSH levels and decrease of pituitary TSH levels. In the animals given thyroxine (10 microgram/100 g B.W.) for 7 days in addition to thyroidectomy, however, the TRH levels exceeded that in the animals which underwent throidectomy alone. The hypothalamic TRH levels were markedly reduced in hypophysectomized rats. Conversely, in hypophysectomized rats given 7 days' thyroxine (1 and 5 microgram/100 g B.W.), the levels were increased dose-dependently. In cold-exposed rats, the plasma TSH levels roughly doubled, but the TRH levels remained unchanged. These findings strongly suggest that the feedback site of thyroxine extends not only to the pituitary gland but also to the hypothalamus, and that thyroxine has an increasing effect of the hypothalamic TRH level, though the mechanism(s) remain to be clarified.     

Histological changes in the pituitary-thyroid axis during spontaneous and artificially-induced metamorphosis of larvae of the flounder Paralichthys olivaceus

Summary Histological changes in the pituitary TSH cells and in the thyroid gland of flounder (Paralichthys olivaceus) larvae during spontaneous or artificially induced metamorphosis were studied. Activity of the immunoreactive TSH cells (IrTSH cells) gradually increased during premetamorphosis, reaching the highest level in prometamorphic larvae, and the cells were degranulated in metamorphic climax. The IrTSH cells were most inactive at the post-climax stage. The thyroid gland was morphologically the most active in metamorphic climax when the degranulation occurred in the pituitary IrTSH cells, and appeared inactive at post-climax. A few weeks after metamorphosis, both the IrTSH cells and the thyroid gland appeared to be activated again in the benthic, juvenile flounder. Administration of thyroxine or thiourea revealed negative feedback regulation of the pituitary-thyroid axis in flounder larvae. These results indicate that activation of the pituitary-thyroid axis induces metamorphosis in the flounder.     

The thyrotropin secreting basophils in the adenohypophysis of Anoptichthys jordani

Summary In order to identify the TSH cells in the pituitary gland of Anoptichthys jordani, the development of the adenohypophysial cell types was studied in relation with the differentiation of the thyroids. In addition experiments were performed in young and adult animals with propylthiouracil (PTU) and thyroxine. At the time of the first thyroid development two meso-adenohypophysial cell types in the pituitary gland of Anoptichthys jordani are distinctly differentiated: orangeophilic cells and Alcian Blue (AB)-positive basophils. Because thyroxine and PTU could evoke changes in activity of the latter but had no effect on the orangeophils, it is concluded that the angular AB-positive basophils in the meso-adenohypophysis of Anoptichthys are responsible for the TSH production. PTU and thyroxine were unable to affect TSH cell activity in adult animals.This study was partly supported by a grant from the Netherlands Organization for the Advancement of Pure Research (Z.W.O.).I wish to thank Prof. Dr. P. G. W. J. van Oordt for his constant interest and helpful suggestions. I am indebted also to Miss M. I. Willems and Miss Tjitske van Soelen, who both gave conscientious technical assistance and to Mr. E. van der Vlist for making the photographs.     

Immunoreactive 7B2 concentrations in rats with various endocrine conditions

Changes in 7B2 immunoreactivity in the pituitary as well as in the other brain regions and gut after various endocrine situations were investigated. Gonadectomy and neonatal monosodium glutamate (MSG) treatment resulted in an appreciable increase in the pituitary 7B2 concentration, though 7B2 content in the MSG treated pituitary was not significantly different when calculation was performed on a per pituitary gland basis. The 7B2 concentration in the cerebellum, midbrain and cortex in thyroxine treated rats showed a significant increase, which might indicate possible thyroid hormone involvement in 7B2 metabolism in the brain. The pituitary 7B2 concentration during the estrous cycle did not change significantly. These results suggest that pituitary 7B2 may correlate to the pituitary gonadotropins and that brain 7B2 content may be modulated by thyroid hormones.     

Precocious development of UDP-glucuronyltransferase activity in chick-embryo liver after administration of adrenocorticotropic hormone and of certain 11beta-hydroxy corticosteroids.

1. Precocious development of UDP-glucuronyltransferase (EC 2.4.1.17) and of glucuronidation by endogenous compounds of known chemical composition is reported for the first time. 2. This development occurs precociously in chick-embryo liver after administration to the egg of mammalian adrenocorticotropic hormone, of Synacthen (a synthetic compound possessing adrenocorticotropic activity), or of certain corticosteroids possessing a hydroxy or an oxo group at C-11. 3. Corticosterone-dependent transferase development parallels the rise of infused corticosterone in plasma, but does not require the presence of embryo pituitary in ovo, and is demonstrable in embryo liver explants in vitro. 4. Competence of embryo liver transferase to respond to corticosterone (or dexamethasone) begins over days 13-14, the time of competence to respond to grafted pituitary gland. 5. The transferase appearing after treatment with corticosterone or adrenocorticotropic hormone, like that appearing after pituitary grafting or on natural development and unlike that from the untreated embryo, is markedly activated by membrane-perturbation procedures, suggesting it appears through induction, not activation. 6. Thyroxine and tri-iodothyronine accelerate transferase development after treatment with adrenocorticotropic hormone or corticosteroid to the rate seen after pituitary grafting. 7. A wide range of other hormones and steroids did not obviously influence transferase development in this system. 8. We suggest that grafted pituitary gland evokes precocious transferase development in embryo liver through production of adrenocorticotropic hormone and hence of the active corticosteroids; thyrotropin and thyroxine hasten the process. The role of this mechanism in the natural development of UDP-glucuronyltransferase is discussed.     

Histo-physiological studies on the interrenal gland of a catfish, Clarias batrachus (Linn.)

The effects of three drugs namely, reserpine, atropine, and adrenaline have been investigated on the interrenal gland of Clarias batrachus. All the drugs bring about lesser or greater degree of hypertrophy in the interrenal gland of this fish. Atropine exhibits more vigorous effect than reserpine and adrenaline.     

Effect of Thyrotropin-releasing Hormone on the Thyroid of a Teleost,Chasmichthys dolichognathus,and a Hagfish,Eptatretus burgeri

Abstract Intraperitoneal injection of mammalian thyrotropin-releasing hormone (TRH) caused hypertrophy of possible thyrotropic cells in the pituitary gland of the teleost, Chasmichthys dolichognathus. The epithelial cells of the thyroid follicles also appeared hypertrophic after the TRH injection. On the other hand, in the hagfish, Eptatretus burgeri, TRH injection had no effect either on the cytological appearance of the adenohypophysis or on the thyroidal activity in terms of serum thyroxine concentration and epithelial cell height.     

Increase of the peroxidase activity of mouse submaxillary gland by reserpine

The peroxidase activity of mouse submaxillary gland was found to be elevated by about 128% at 22 hr. after the administration of reserpine (0.5 mg/kg). This effect of reserpine was observed in rat also. Neither pretreatment with 6-hydroxy dopamine (6-OH dopamine) nor surgical sympathetic denervation could abolish the increase of the peroxidase activity elicited by reserpine. Also, treatment with propranolol, dibenamine or atropine sulfate failed to reverse the effect of reserpine. These results suggest that neither catecholamine nor acetyl choline is involved in this reserpine action.     

The influence of hormones and other substances on lens regeneration in vitro

Culturing the dorsal iris epithelium of a newt with a pituitary gland in organ culture greatly enhances the ability of the iris epithelium to produce advanced lens regenerates in vitro. In an attempt to elucidate the mechanism by which the pituitary enhances lens regeneration irido-corneal complexes from adult newts were cultured in medium to which various substances had been added either singly or in numerous combinations. Prolactin, insulin, hydrocortisone, and thyroxine failed to enhance the production of advanced lens regenerates in any of the doses or combinations tested. Similarly, addition of 50 microgram/ml of sodium or calcium ascorbate had no effect on the progress of lens regeneration in vitro. Addition of dibutyryl cyclic-AMP caused an inhibition of depigmentation and regeneration at high doses. The results of these experiments show that the effects of the pituitary cannot be duplicated by hormones which other authors have asserted to be beneficial to limb or tail regenerates in vitro. The results with cyclic AMP suggest that prolonged exposure to high doses of cyclic AMP inhibit regeneration and indicate that further studies on the fluctations in cyclic AMP levels throughout the process of lens regeneration must be done.     

β- and γ-Crystallin Synthesis in Rat Lens Epithelium Explanted with Neural Retina

Culturing the dorsal iris epithelium of a newt with a pituitary gland in organ culture greatly enhances the ability of the iris epithelium to produce advanced lens regenerates in vitro. In an attempt to elucidate the mechanism by which the pituitary enhances lens regeneration irido-corneal complexes from adult newts were cultured in medium to which various substances had been added either singly or in numerous combinations. Prolactin, insulin, hydrocortisone, and thyroxine failed to enhance the production of advanced lens regenerates in any of the doses or combinations tested. Similarly, addition of 50 μg/ml of sodium or calcium ascorbate had no effect on the progress of lens regeneration in vitro. Addition of dibutyryl cyclic-AMP caused an inhibition of depigmentation and regeneration at high doses. The results of these experiments show that the effects of the pituitary cannot be duplicated by hormones which other authors have asserted to be beneficial to limb or tail regenerates in vitro. The results with cyclic AMP suggest that prolonged exposure to high doses of cyclic AMP inhibit regeneration and indicate that further studies on the fluctations in cyclic AMP levels throughout the process of lens regeneration must be done.     

Die Auslösung des Laichreflexes durch Reserpin bei dem südamerikanischen BuntbarschPterophyllum scalare

Summary In half-grown immaturePterophyllum scalare it is possible to induce expansion of melanophores and the spawning reflex response by injections of 0.0005 mg reserpine per g body-weight. The first effect occurs 1 to 3 hours after injection, the second 6 to 8 hours later. Spawning response is shown in typical manner but there is no protrusion of the genital papilla or ejaculation of sperms. The number of spawning reflexes observed per animal is between 2 and 10 within 60 to 90 minutes. Further injections of reserpine are without any effect. There is some evidence that reserpine is stimulating the release of hormones of the anterior (MSH — expansion of melanophores) and of the posterior lobe of the pituitary gland of which Ichthyotocin may be responsible for the initiation of the spawning reflex response.

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Die Experimente zu dieser Mitteilung wurden im Zoologischen Institut der Universität Frankfurt a.M. durchgeführt. Ich danke den Herren Prof.Burkhardt und Prof.Lindauer für die Überlassung eines Arbeitsplatzes und der Deutschen Forschungsgemeinschaft für die finanzielle Unterstützung.     

Reserpine induced changes in the estradiol uptake by the pituitary and the uterus in ovariectomized rats.

Reserpine treatment produced a marked decrease of the in vitro binding of estradiol to the nuclear fraction of the uterus. A similar observation was made when reserpine was given into the incubation medium of uterine tissue. In contrast to these findings both in vitro and in vivo reserpine administration resulted in an increase of the estradiol binding to the nuclear fraction of the anterior pituitary in ovariectomized rats. The binding capacity of cytosol fraction after reserpine administration did not show significant alterations. In addition to these observations it is worth to mention that reserpine treatment resulted in a significant decrease of the estradiol-induced increase of uterus weight in ovariectomized rats.     

Binding site of salsolinol: its properties in different regions of the brain and the pituitary gland of the rat

It has been recently shown that salsolinol (SAL) is present in the hypothalamic neuroendocrine dopaminergic (NEDA) system and appears to be a selective and potent stimulator of prolactin (PRL) secretion in the rat. Furthermore, the lack of interference of SAL with 3H-spiperone binding in the striatum and the anterior lobe (AL) of the pituitary gland has been also demonstrated. These data clearly indicate that SAL does not act at the dopamine (DA) D(2) receptors, and suggest that SAL supposedly has a binding site through which the secretion of PRL may be affected. Therefore, binding of 3H-SAL to different regions of the central nervous system (CNS) has been investigated. Specific and saturable binding has been detected in the striatum, cortex, median eminence and in the hypothalamus as well as in the AL and the neuro-intermediate lobe (NIL) of the pituitary gland. K(D) values of the bindings were in the nanomolar range in all tissue tested. 3H-SAL displacing activity of several agonists and antagonists of known DA receptors have also been tested. It has been found that DA and in a lesser extent, apomorphine could displace 3H-SAL, but other DA receptor specific ligands have not been able to affect it. Furthermore, several pharmacologically active compounds, selected on the basis of their influence on DA synthesis, transport mechanisms and signal transduction, have also been tested. Neither mazindol (a selective DA transporter inhibitor) nor clonidine (an alpha(2)-adrenoreceptor agonist) could alter SAL binding. At the same time, L-dopa, carbidopa, benserazide and alpha-methyldopa were able to displace 3H-SAL. The possible changes in SAL binding due to physiological and pharmacological stimuli, like suckling stimulus and reserpine pretreatment (that blocks vesicular monoamine transport in DA terminals), respectively, have also been investigated. In the NIL of the pituitary gland and in the median eminence of the hypothalamus the binding decreased following 10 min of suckling stimulus compared to the binding detected in the same tissues obtained from mothers separated from their pups for 4h and not allowed to be suckled. At the same time, there were no changes in the binding at the AL and striatum. Following reserpine pretreatment that has completely prevented PRL releasing effect of SAL, the binding was significantly augmented. These results support our assumption that SAL should have specific binding sites through which it can affect PRL secretion. Furthermore, it clearly suggests that it may regulate DAergic neurotransmission of NEDA neurons by an altered intracellular or intraterminal synthesis and/or distribution of hypophysiotropic DA.     

Effects of starvation on gonadotropin and thyrotropin subunit mRNA levels and plasma hormone levels in the male Japanese quail (Coturnix coturnix japonica)

Contents of mRNAs encoding LHbeta-, FSHbeta-, TSHbeta- and common a-subunit precursor molecules were measured in male Japanese quail deprived of food for three days. Plasma LH, FSH, thyroxine and triiodothyronine levels were also measured in the same birds. Plasma LH levels declined during the period of food deprivation. Levels in starved birds were not different from those in control birds after one day of starvation but were significantly lower after three days. Plasma FSH levels showed a similar decline, although the changes were not significant. Plasma thyroxine levels did not decrease during starvation, whilst plasma triiodothyronine levels decreased drastically and significantly soon after the start of starvation. All the hormone subunit mRNA contents in starved birds also decreased, with differences from control birds significant 3 days after the start of starvation. Plasma FSH levels showed a strong positive correlation with pituitary FSHbeta mRNA levels, while plasma LH levels had a strong positive correlation with common a mRNA levels and practically no correlation or even a negative correlation with LHbeta mRNA levels. These results suggest that starvation suppresses not only gonadotropin and thyrotropin secretion but also their synthesis in the pituitary gland. Furthermore, these results showed that FSH and LH have different synthesis and secretion dynamics in the Japanese quail. Contradicting results with TSHbeta mRNA and thyroid hormones lead us to assume that starvation affects thyroid hormone metabolism in peripheral tissue, presumably in the liver.     

Thyrotropin-secreting pituitary adenoma: a case report.

We report a 44-year-old male with a thyrotropin (TSH)-secreting pituitary adenoma. Based serum free triiodothyronine (FT3, 12.1 pmol/l) and free thyroxine (FT4, 28 pmol/l) were increased with normal basal TSH (3.1 mU/l). There was impaired TSH response to thyrotropin releasing hormone (TRH) test. Serum TSH was suppressed to 59% of the basal level after oral administration of 1.4 mg 3,3'-5-triiodothyroacetic acid (triac), whereas no suppression was observed after 75 micrograms daily administration of triiodothyronine (T3). Serum concentrations of alpha-subunit of TSH (TSH-alpha) and TSH-alpha/TSH molar ratio were high, being 1.95 micrograms/l, and 4.4, respectively. Pituitary CT and MRI scan showed the presence of a macroadenoma in the anterior lobe of the pituitary gland. Histopathology of the excised pituitary confirmed the diagnosis of a TSH-producing adenoma. A positive correlation between TSH and FT3 (r = 0.66, P less than 0.01) or FT4 (r = 0.54, P less than 0.01) was observed in serial sera obtained before and after operation.     

Role of the hypophysis in thyroid regeneration after partial thyroidectomy.

The role of the hypophysis in thyroid regeneration was investigated by measuring the mitotic activity of the thyroid remnant in hemithyroidectomized rats as well as the blood levels of thyroid hormone at various time-intervals after hemithyroidectomy. Mitotic activity underwent a significant increase to reach a peak (a 5- to 8- fold increase) 2 days after hemithyroidectomy. The thyroid hormone level in blood was lower than in controls. Histologically, the thyroid gland showed signs of an elevated rate of functional activity, as indicated by losses of colloid and cell hypertrophy. In a second approach, the mitotic activity of the thyroid remnant was estimated in hypophysectomized and in thyroxine treated rats. Both hypophysectomy and thyroxine injection prevented occurrence of the mitotic peak at 2 days. The regeneration of the thyroid after hemithyroidectomy, as it occurred in the present work, may be explained by a release of thyroid stimulating hormone from the pituitary, brought about by the low level of circulating thyroid hormone, itself resulting from a loss of thyroid tissue.