The Influence of Nutritional State on Thyroid Function in Various Vertebrates

SYNOPSIS. The thyroid system in endothermic birds and mammalsas well as ectothermic teleost fish is profoundly sensitiveat several levels to acute and chronic alterations in the qualityand quantity of ingested food. Predominant amongst the thyroidchanges is a consistent alteration in peripheral T₃, productiondue to regulation of hepatic T₄ 5'-monodeiodinase activity,which causes decreased T₃ blood levels in caloric- (mainly carbohydrate)deficient states. The essentially similar response of endothermicand ectothermic (teleost) thyroid systems to caloric intakeprovides a unifying theme, previously lacking in comparativethyroid function, and emphasizes the need to consider nutritionaltatus in thyroid hormone studies.     

Is Lamprey Metamorphosis Regulated by Thyroid Hormones?

Lampreys are one of just a few fishes which have a true (firstor first type) of metamorphosis in their life cycle. In thesea lamprey (Petromyzon marinus), spontaneous metamorphosisis initiated when the size (length and weight), condition factor,and lipid stores reach appropriate levels and coincide withthe postwinter rise in water temperature. The serum levels ofthe thyroid hormones, thyroxine (T₄) and triiodothyronine (T₃),drop dramatically at the onset of metamorphosis and metamorphosiscan be induced with treatment of animals with the goitrogen,KCIO₄, which also results in a decline in serum levels of thyroidhormones. The fact that thyroid hormone treatment can blockspontaneous and induced metamorphosis is support for the viewthat thyroid hormones, particularly T₃, operates like a juvenilehormone in lamprey metamorphosis; this view is counter to therole of thyroid hormones in metamorphosis of other vertebrates.The monodeiodinase pathways, whereby T₄ is converted to T₃ orto the biologically inactive reverse T₃, and even further degradationof T₃, may be a significant mechanism directing metamorphicchange. Lamprey metamorphosis is facultative in that it is initiatedor inhibited depending upon the coordination of a complex integrationof environmental, metabolic and hormonal cues. Thyroid hormonesdo not regulate lamprey metamorphosis in the sense observedin other vertebrate metamorphoses but they are important tothe developmental process. Some of the features of the involvementof thyroid hormones in lamprey metamorphosis may be relatedto the presence of the endostyle in larvae which in turn reflectsthe ancient origins of this vertebrate and perhaps the conservationof an ancient method of induction of metamorphosis. Some cluefor other factors which initiate lamprey metamorphosis may comethrough the examination of inducers of metamorphosis in lowerchordates     

Protein synthesis-dependent potentiation by thyroxine of antiviral activity of interferon-gamma

We have studiedthe prenuclear signal transduction pathway by which thyroid hormonepotentiates the antiviral activity of human interferon- (IFN-) inHeLa cells, which are deficient in thyroid hormone receptor (TR). Theaction of thyroid hormone was compared with that of milrinone, whichhas structural homologies with thyroid hormone.L-Thyroxine(T₄),3,5,3'-L-triiodothyronine (T₃), and milrinone enhanced theantiviral activity of IFN- up to 100-fold, a potentiation blocked bycycloheximide. The 5'-deiodinase inhibitor6-n-propyl-2-thiouracil did not blockthe T₄ effect. 3,3',5,5'-Tetraiodothyroacetic acid prevented the effect ofT₄ but not of milrinone. Theeffects of T₄ and milrinone wereblocked by inhibitors of protein kinases C (PKC) and A (PKA) andrestored by PKC and PKA agonists; only the effect ofT₄ was blocked by genistein, atyrosine kinase inhibitor. In separate models, milrinone was shown notto interact with nuclear TR-.T₄ potentiation of the antiviralactivity of IFN- requires PKC, PKA, and tyrosine kinase activitiesbut not traditional TR.

     

Endocrine Factors Affecting Thyroid Economy of Teleost Fish

SYNOPSIS. This review examines the way in which the activityof the hypothalamo-pituitary-thyroid axis in teleost fishesis modified by pituitary, steroid and amine hormones. Thesefactors may act at the level of the hypothalamus, the pituitarygland (thyrotrops), the thyroid gland, or the peripheral tissues,and affect thyroid hormone synthesis, release, metabolism, ordegradation. With few exceptions, the studies are limited toonly a few species, the results are often fragmentary and contradictory,are based on experiments in which pharmacological, rather thanphysiological, hormone ranges have been used, and there is toolittle information to establish a consistent pattern of responseto endocrines other than those which are components of the hypothalamo-pituitary-thyroidaxis itself. Most studies evaluating the effects of pituitaryhormones on thyroid economy in fish have, of necessity, reliedon mammalian preparations. Some of these (e.g., prolactin andthe gonadotropins) elicit very different responses from thoseof the equivalent semipurified or purified piscine hormone,although mammalian and piscine TSH and GH respectively appearto elicit similar responses in the teleostean thyroid system.The elevation of plasma T₄ levels in response to a challengeof exogenous TSH has been used in several studies as a way ofevaluating the sensitivity of the thyroid to TSH; the responseis modified by photoperiod, season, stage of development, estrogenand corticosteroids.     

Thyroid function and vitamin A deficiency.

Rats, when vitamin A deficient, had increased plasma T₃, T₄ and free thyroxine indexes. Pituitary TSH and hypothalamic TRH content were increased in vitamin A deficient animals compared to pair-fed controls. The plasma TSH response to TRH was normal in the vitamin A deficient rats. Basal prolactin, LH and FSH levels did not differ significantly in the two groups. Both groups had significant increases in LH and FSH after LRH. Vitamin A deficiency produces biochemical hyperthyroidism. Our data are consistent with an abnormality in thyroid hormone feedback on the hypothalamic pituitary axis.     

A role for thyroid hormones in the development of premigratory disposition in redheaded bunting,Emberiza bruniceps

Excessive fat deposition and zugunruhe (nocturnal restlessness), two characteristics of premigratory disposition, are displayed in caged redheaded buntings. In earlier experiments thyroid ablation was found to inhibit premigratory fattening in this bird. Also, seasonal investigations on thyroid hormonal profiles indicated a distinct rise in circulating tri-iodothyronine just before spring migration, most likely as a result of increased peripheral monodeiodination of thyroxine. The physiological relevance of these findings has been assessed in the present paper. Results indicated that removal of thyroid gland completely prevented development of zugunruhe and fat deposition; replacement therapy with T4 or T3 restored both. Thyroxine-induced fattening in thyroidectomized birds was found to be dose responsive. In two experiments in thyroidectomized and intact birds each suppression of extrathyroidal conversion of thyroxine into triiodothyronine by iopanoic acid completely suppressed zugunruhe and fattening in thyroidectomized as well as intact birds, arguing for a role of triiodothyronine in migratory physiology. Blockage of thyroxine to triiodothyronine conversion, however, did not suppress feather regeneration, indicating that unlike effects on migratory parameters in the same individuals thyroxine-induced feather regeneration does not involve prior monodeiodination to triiodothyronine. Thus, contrary to the prevailing view that triiodothyronine alone is the finally active thyroid hormone (thyroxine being a precursor), both thyroxine and triiodothyronine may have specific roles to play in the physiology of seasonal events, and peripheral conversion of thyroxine to triiodothyronine may be one of the physiological devices to ensure that energetically incompatible events like migration and moulting do not occur simultaneously. Results also indicate that increasing spring daylengths which are known to trigger avian migration may influence peripheral conversion of thyroxine to triiodothyronine possibly imparting to this physiological process an adaptive value in the timing of seasonal events.Abbreviations IOP iopanoic acid - NS normal saline - RIA radioimmunoassay - T4 thyroxine - T3 triiodothyronine - Tx thyroidectomized     

Selenium Deficiency Inhibits the Conversion of Thyroidal Thyroxine (T4) to Triiodothyronine (T3) in Chicken Thyroids

Selenium (Se) influences the metabolism of thyroid hormones in mammals. However, the role of Se deficiency in the regulation of thyroid hormones in chickens is not well known. In the present study, we examined the levels of thyroidal triiodothyronine (T₃), thyroidal thyroxine (T₄), free triiodothyronine, free thyroxine (FT₄), and thyroid-stimulating hormone in the serum and the mRNA expression levels of 25 selenoproteins in chicken thyroids. Then, principal component analysis (PCA) was performed to analyze the relationships between the selenoproteins. The results indicated that Se deficiency influenced the conversion of T₄ to T₃ and induced the accumulation of T₄ and FT₄. In addition, the mRNA expression levels of the selenoproteins were generally decreased by Se deficiency. The PCA showed that eight selenoproteins (deiodinase 1 (Dio1), Dio2, Dio3, thioredoxin reductase 2 (Txnrd2), selenoprotein i (Seli), selenoprotein u (Selu), glutathione peroxidase 1 (Gpx1), and Gpx2) have similar trends, which indicated that they may play similar roles in the metabolism of thyroid hormones. The results showed that Se deficiency inhibited the conversion of T₄ to T₃ and decreased the levels of the crucial metabolic enzymes of the thyroid hormones, Dio1, Dio2, and Dio3, in chickens. In addition, the decreased selenoproteins (Dio1, Dio2, Dio3, Txnrd2, Seli, Selu, Gpx1, and Gpx2) induced by Se deficiency may indirectly limit the conversion of T₄ to T₃ in chicken thyroids. The information presented in this study is helpful to understand the role of Se in the thyroid function of chickens.     

Unusual Ratio between Free Thyroxine and Free Triiodothyronine in a Long-Lived Mole-Rat Species with Bimodal Ageing

Ansell''s mole-rats (Fukomys anselli) are subterranean, long-lived rodents, which live in eusocial families, where the maximum lifespan of breeders is twice as long as that of non-breeders. Their metabolic rate is significantly lower than expected based on allometry, and their retinae show a high density of S-cone opsins. Both features may indicate naturally low thyroid hormone levels. In the present study, we sequenced several major components of the thyroid hormone pathways and analyzed free and total thyroxine and triiodothyronine in serum samples of breeding and non-breeding F. anselli to examine whether a) their thyroid hormone system shows any peculiarities on the genetic level, b) these animals have lower hormone levels compared to euthyroid rodents (rats and guinea pigs), and c) reproductive status, lifespan and free hormone levels are correlated. Genetic analyses confirmed that Ansell''s mole-rats have a conserved thyroid hormone system as known from other mammalian species. Interspecific comparisons revealed that free thyroxine levels of F. anselli were about ten times lower than of guinea pigs and rats, whereas the free triiodothyronine levels, the main biologically active form, did not differ significantly amongst species. The resulting fT4:fT3 ratio is unusual for a mammal and potentially represents a case of natural hypothyroxinemia. Comparisons with total thyroxine levels suggest that mole-rats seem to possess two distinct mechanisms that work hand in hand to downregulate fT4 levels reliably. We could not find any correlation between free hormone levels and reproductive status, gender or weight. Free thyroxine may slightly increase with age, based on sub-significant evidence. Hence, thyroid hormones do not seem to explain the different ageing rates of breeders and non-breeders. Further research is required to investigate the regulatory mechanisms responsible for the unusual proportion of free thyroxine and free triiodothyronine.     

Thyroid hormone regulation by stress and behavioral differences in adult male rats

Thyroid hormones are essential regulators of growth, development and normal bodily function and their release is coordinated by the hypothalamic-pituitary-thyroid (HPT) axis. While the HPT axis has been established as an acutely stress-responsive neuroendocrine system, relatively little is known about the mechanisms of its stress regulation. The present study examined acute stress-induced changes in peripheral hormone levels [triiodothyronine (T3); thyroxine (T4), thyroid-stimulating hormone (TSH), reverse triiodothyronine (rT3)] and central mRNA levels of regulators of the HPT axis [thyrotropin-releasing hormone (TRH), somatostatin (SST), type II deiodinase (D2)] in response to an inescapable tail-shock, a rodent model of stress. Additionally, we examined whether individual differences in spontaneous exploratory behavior in an open field test predicted basal levels of TH or differential susceptibility to the effects of stress. The stress condition was associated with decreases in peripheral T3, T4 and TSH, but not rT3, when compared with controls. No changes were observed in TRH or SST mRNA levels, but there was a trend suggesting stress-related increases in D2 mRNA. We also found that an animal's exploratory behavior in an unfamiliar open field arena was positively related to peripheral thyroid hormone levels and predicted the magnitude of stress-induced changes.In conclusion, we found suggestive evidence for stress-induced decrease in central drive HPT axis, but the central mechanisms of its stress regulation remain to be elucidated. Additionally, we found that individual differences in animals' exploratory behavior were correlated with peripheral TH levels.     

Thyroxine can mimic photoperiodically induced gonadal growth in Japanese quail

Summary Pharmacological doses of thyroxine are able to mimic the effects of long photoperiods in Japanese quail. In birds maintained on short daylengths thrice-weekly injections of 100 g thyroxine cause full testicular maturation at rates not greatly different from those seen if quail are exposed to long days. Thyroxine stimulates increases in the secretion of FSH and LH, in pituitary prolactin content and in the hypothalamic content of Gn-RH. The effects are dose-dependent. If female quail kept on short daylengths are given thyroxine their ovaries develop and they lay eggs. In castrated male quail on short days thyroxine causes a ten-fold increase in circulating LH within a week. Thyroxine injections are also capable of maintaining quail in a photorefractory state even when they are transferred to short daylengths. The results suggest that thyroxine mimics long days by acting high in the photoneuroendocrine system and does not simply act to facilitate hormone secretion per se. This is in line with growing evidence in mammals and birds that parts of the photoperiodic machinery are sensitive to thyroid hormones.Abbreviations Gn-RH gonadotropin releasing hormone - FSH follicle stimulating hormone - LH luteinizing hormone - T ₄ thyroxine     

Thyroxine in Early Strobilation in Aurelia aurita

Radiochromatographic studies of ¹³¹I-treated Aurelia polypsrevealed synthesis of three compounds tentatively identifiedas monoiodotyrosine (MIT), diiodotyrosine (DIT), and thyroxine(T₄). One compound, MIT, is found within 8 hr after ¹³¹I administration,before the detection of DIT or T₄ which appear within 24 hr.T₄ is not usually detected after 48 hr although MIT and DITwere found up to the segmentation period. None of the compoundswere detected in ephyrae treated with ¹³¹I for 24 hr. Administration of low dosages of the goitrogens, thiourea,,propylthiouracil, and potassium thiocyanate, in conjunctionwith iodide, prevented strobilation induction. Radiochromatographyof jellyfish given the goitrogens and ¹³¹I revealed a reduceduptake of iodide and an impairment of the synthesis of the iodinatedcompounds. Jellyfish use thyroxine directly for strobilatioa inductionas demonstrated by ¹³¹I - labeled T₄ administration. The T₄was detected in the polyps up to the 48-hr period of strobilationduring which time some of the T₄ was excreted into the medium,as was some ¹³¹I. The fact that T₄, synthesis has thus far been found only instrobilating forms of Aurelia suggests that T₄ is involved primarilywith the differentiation of new structures which occurs duringstrobilation.     

Changes in whole body concentrations of thyroid hormones and cortisol in metamorphosing conger eel

Summary To clarify the hormonal regulation of metamorphosis of the conger eel (Conger myriaster), changes in whole body concentrations of thyroid hormones, thyroxine (T₄) and triiodothyronine (T₃), and cortisol during metamorphosis were examined, as well as the changes in the histological activity of the thyroid gland. In larvae before metamorphosis, T₄ and T₃ levels were less than 5 and 0.15 ng·g^-1 respectively. Levels of T₄ increased to about 30 ng·g^-1 during early metamorphosis, and decreased subsequently. Levels of T₃ increased gradually in early metamorphosis, and then increased abruptly to about 2.0 ng·g^-1 in late metamorphosis. Before metamorphosis, cortisol levels of the leptocephali less than 11 cm in total length were greater than 200 ng·g^-1. Cortisol levels decreased rapidly in larger premetamorphic leptocephali, and low levels were maintained throughout the metamorphic period. Histological observation revealed an activation of the thyroid gland in early metamorphosis; thyroid follicle epithelial cells became columnar and their nuclei larger. Active uptake of colloid by these cells and intensive vascularization of the gland were also observed. By the end of metamorphosis, follicle epithelial cells became squamous, indicating a low level of glandular activity. These results suggest that thyroid hormone plays an important role in regulation of conger eel metamorphosis.Abbreviations AL anal length - TL total length - T ₃ triiodothyronine - T ₄ thyroxine     

Selenium,zinc, and thyroid hormones in healthy subjects

Iodothyronine 5′ deiodinase, which is mainly responsible for peripheral T₃ production, has recently been demonstrated to be a selenium (Se)-containing enzyme. The structure of nuclear thyroid hormone receptors contains Zinc (Zn) ions, crucial for the functional properties of the protein. In the elderly, reduced peripheral conversion of T₄ to T₃ with a lower T₃/T₄ ratio and overt hypothyroidism are frequently observed. We measured serum Se and RBC GSH-Px (as indices of Se status), circulating and RBC Zinc (as indices of Zn status), thyroid hormones and TSH in 109 healthy euthyroid subjects (52 women, 57 men), carefully selected to avoid abnormally low thyroid hormone levels induced by acute or chronic diseases or calorie restriction. The subjects were subdivided into three age groups. To avoid under- or malnutrition conditions, dietary records were obtained for a sample of 24 subjects, randomly selected and representative of the whole population for age and sex. Low T₃/T₄ ratios and reduced Se and RBC GSH-Px activity were observed only in the older group. A highly significant linear correlation between the T₃/T₄ ratio and indices of Se status was observed in the older group of subjects (r=0.54;p<0.002, for Se;r=0.50;p<0.002, for RBC GSH-Px). Indices of Zn status did not correlate with thyroid hormones, but RBC Zn was decreased in older as compared with younger subjects. We concluded that reduced peripheral T₄ conversion is related to impaired Se status in the elderly.     

Absence of A Thyroid Phenotype in Sortilin-Deficient Mice

Objective: The Vps10p family member sortilin is expressed in thyroid epithelial cells where it contributes to recycling of the thyroid hormone precursor thyroglobulin (Tg), a process that is thought to render hormone release more effective. Here we investigated the functional impact of sortilin in the thyroid gland using sortilin-deficient mice.Methods: We measured free T₄, thyroid-stimulating hormone (TSH) and Tg serum levels and studied thyroid morphology in 14 sortilin-deficient (Sort1)^-/-and 12 wildtype (WT) mice.Results: Serum free T₄ levels did not differ between Sort1^-/-and WT females but were significantly lower in Sort1^-/-males compared with WT (P = .0424). Neither serum TSH nor Tg levels differed between Sort1^-/-and WT mice, regardless of sex. On the same line, no thyroid histology differences were observed.Conclusion: Our findings seem to exclude a role of sortilin in thyroid hormone secretion, although it is possible that the absence of sortilin may result in a thyroid phenotype if combined with other molecular defects of thyroid hormone synthesis and secretion or under iodine deficiency.Abbreviations: T₄ = thyroxine Sort1 = Sortilin 1 Tg = thyroglobulin TSH = thyroid-stimulating hormone WT = wild type     

Effects of ovine prolactin on iodide metabolism and thyroid activity in the eel

Summary In the eel, ovine prolactin (oPrl) treatment (0.018 IU/day·g body weight), for 8 to 13 days modifies neither iodide absorption from the water nor excretion, extrathyroidal metabolism and plasma level of iodide.Thyroid activity, evaluated by epithelial cell height, radioiodine uptake and absolute iodide uptake is approximately twice that of controls. However, the amounts of total iodine, thyroxine (T₄) and triiodothyronine (T₃) in thyroid are unaltered by oPrl. Therefore, the decrease of plasma T₄ and the increase of plasma T₃, previously observed in oPrl-treated eels, do not result from a preferential thyroidal secretion of T₃, but only from a stimulation of peripheral conversion of T₄ to T₃. Furthermore, the increased thyroid activity probably originates from a decreased feedback inhibition following the fall of circulating T₄ induced by oPrl.Abbreviations oPrl ovine prolactin - T ₄ Thyroxine - T ₃ 3.5.3 triiodothyronine - TRH thyrotropin releasing hormone - TSH thyroid stimulating hormone - PBI protein bound iodine     

Effect of Zinc Supplementation on the Status of Thyroid Hormones and Na,K, and Ca Levels in Blood Following Ethanol Feeding

The influence of zinc (Zn) on the serum levels of triiodothyronine (T₃), thyroxine (T₄), thyroid-stimulating hormone (TSH) and sodium (Na), potassium (K), and calcium (Ca) was evaluated following ethanol toxicity to the rats. To achieve this, male Wistar rats (150–195 g) were given 3 ml of 30% ethanol orally, and zinc was given in the form of zinc sulfate (227 mg/l) in their drinking water daily for 8 weeks. Ethanol feeding resulted in a slight decrease in T₃ and T₄ levels and a significant increase in thyroid-stimulating hormone concentration, which may be due to the direct stimulatory effect of ethanol on thyroid. Interestingly, when zinc was given to these rats, all the above levels were brought quite close to their normal levels, thus indicating the positive role of zinc in thyroid hormone metabolism. Serum Zn and Ca levels were found to be reduced, but Na levels were raised upon ethanol feeding. Restoration of normal levels of these metals upon zinc supplementation to ethanol fed rats confirms that zinc has potential in alleviating some of the altered thyroid functions following ethanol administration.     

Diagnostic Confusion Attributable to Spurious Elevation of Both Total Thyroid Hormone and Thyroid Hormone Uptake Measurements in the Setting of Autoantibodies: Case Report and Review of Related Literature

ObjectiveTo review the effect of thyroid autoantibodies on thyroid function assays and to present a case in which thyroid autoantibodies resulted in spurious assay readings for both total thyroid hormone levels and thyroid hormone uptake measurements.MethodsWe present a detailed case, including serial laboratory data, and review the relevant literature.ResultsA 61-year-old man with a history of autoimmune disease presented for evaluation of abnormal results of thyroid function tests. The patient had been treated for hypothyroidism with levothyroxine and was noted to have an elevated total thyroxine (T₄) level in the setting of a low total triiodothyronine (T₃) value and a mildly elevated thyrotropin concentration. He had been referred for evaluation of a presumed deiodinase deficiency that impaired conversion of T₄ to T₃. During treatment with levothyroxine, these test results were confirmed, and the patient was also found to have an elevated T₄ uptake. These findings were initially thought to be due to an excess of transthyretin; however, more extensive testing revealed that the patient had an autoantibody to T₄ that interfered with the assays for both T₄ and T₄ uptake.ConclusionAutoantibodies to both T₃ and T₄ have been described. Such antibodies are not uncommon in patients with thyroid disease. On rare occasions, these antibodies may cause spurious assay readings and obscure the diagnosis. To our knowledge, this is the first report in which both the total T₄ level and the T₄ uptake were elevated because of the presence of autoantibodies. Thyroid hormone autoantibodies must be considered when clinicians encounter patients with unexplained abnormal results of thyroid function tests. (Endocr Pract. 2008; 14:738-742)     

Environmental physiology of the teleostean thyroid gland: a review

Synopsis Recent studies of thyroid hormone function are reviewed as they relate to the environmental physiology of teleost fish. In addition, reports dealing with the apparent interdependence of thyroid gland function with that of other endocrine glands are discussed with emphasis on the interrelated endocrine response associated with changing physiological status of teleosts.Seasonal changes in thyroid gland activity are described in several species. Although seasonal alterations in apparent thyroid status are concomitant with changes in ambient temperature, photoperiod and/or gonadal status, their biological significance is not fully understood and direct relationships are for the most part, not proven. Similarly, most reports of thyroid involvement in gonadal development or maturation are based on indirect evidence of the relationship. The exception to this is a study in immature or hypophysectomized goldfish in which thyroxine (T₄) was shown to promote ovarian development and maturation, possibly acting collateralistically or synergistically with gonadotropin. Even in this study it is not clear whether the T₄ effect is a direct action on the ovarian tissue or an indirect action via the regulation of metabolites necessary for gonad metabolism. Integumentary silvering and retinal porphyropsin formation in salmonids are stimulated by administration of T₄ or thyroid extracts. Administration of T₄ or triiodothyronine (T₃) enhances skeletal and somatic growth in some teleostean species, although the effect on somatic growth is most pronounced when these hormones act synergistically with somatotropin (STH) or androgens. The growth-promoting effects of T₄ and T₃ may be linked to their apparent involvement in lipid, carbohydrate, protein and vitamin metabolism. alterations in apparent thyroid activity concomitant with changes in ambient temperature have been reported (for example correlated with seasonal ambient thermal changes), although there are marked contradictions in data presented by different investigators. Reported temperature-related effects on thyroid function are probably secondary responses of thyroid metabolism to altered temperatures. Evidence of a direct rate of thyroid hormones in the regulation of migration (and associated behavioural modifications), salmonid smoltification, oxygen consumption, and osmotic or ionic regulation although highly suggestive in a number of areas is inconclusive and requires further critical experimental evaluation.The pituitary control (by thyrotropin) of thyroid secretion of T₄ is convincingly shown in several teleosts, and evidence of an inhibitory hypothalamic control of thyrotrop activity is highly suggestive in some species. A thyrotropic effect of somatotropin preparations is well established in several teleostean species; the effect does not appear to be related to contamination of the somatotropin preparations with thyrotropin, and may be an important consideration in explaining the apparently related involvement of T₄ (or T₃) and somatotropin in growth and metabolism. The apparent thyrotropic property of some gonadotropin preparations, shown in several teleostean species, requires further investigation before the doubts regarding hormone preparation purity can be satisfied. Recent studies of effects of prolactin on thyroid function are highly suggestive of an inhibitory role of prolactin in peripheral monodeiodination of T₄ to T₃ which secondarily affects thyroid activity in some species. There is no evidence of a direct involvement of corticotropin, melanotropin or fractions of these molecules on thyroid function in teleosts. Moreover, the little evidence in support of a role of gonadal or adrenocortical steroids in thyroid control is either often contradictory or indirect and needs to be evaluated further.Interlake epizootiological studies of thyroid dysfunction in Great Lakes salmonids provide substantive evidence for the presence of a ubiquitous waterborne goitrogen(s) in the Great Lakes environs. The nature of the goitrogen(s), whether naturally-occurring or a man-introduced toxicant, remains to be determined but the possible existence of waterborne goitrogens in natural water systems and their possible effects on experimental studies of teleostean thyroid function have to be evaluated further. If goitrogens are a common component of aquatic environments their presence could explain some of the data discrepancy among different groups of investigators, and could account for some of the apparent seasonal change in teleost thyroid physiology.