Thyroid glands: novel sites of growth hormone action

Hull, Kerry; Janssens, W.; Baumbach, W R; Harvey, Stewart C.

doi:10.1677/joe.0.1460449

Cited by 18 publications

(5 citation statements)

References 24 publications

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“…GH receptor immunoreactivity has also been reported in other tumor types, such as hepatocellular carcinoma (22) and occasionally in tumors appearing after GH therapy in immunocompromised patients (23). In our cases we found intense diffuse immunoreactivity in papillary carcinoma cells, though note that GH receptors have also been detected in normal thyroid cells of chickens (24), humans and rats (25). Other studies have also demonstrated the presence of the IGF-1 receptor in thyroid papillary carcinomas (26).…”

Section: Discussionsupporting

confidence: 73%

Papillary thyroid carcinoma after recombinant GH therapy for Turner syndrome

et al. 2005

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Turner syndrome (TS) has been included for several years among the indications for GH treatment, generally with satisfactory outcomes. Nevertheless, the long-term effects of this treatment in non-GH deficient patients are not fully known. The incidence of thyroid carcinoma is rare in patients during childhood, it is unusual to find this neoplasia in children under sixteen years old. This article reports the cases of two Spanish patients with papillary thyroid carcinoma after GH treatment for TS. Recent studies have indicated a possible relationship between the GH -IGF axis and the pathogenesis of neoplasias, questioning the chance association of these two pathologies. In line with this, we detected GH receptor expression in the papillary carcinoma cells. Long-term prospective studies are required to clarify the possible effects of GH treatment on the risk of neoplasia.European Journal of Endocrinology 153 499-502

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Section: Discussionsupporting

confidence: 73%

Papillary thyroid carcinoma after recombinant GH therapy for Turner syndrome

et al. 2005

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“…[29], and large species-related differences have also been reported (see electronic supplementary material). On the other hand, the lack of significant differences in circulating hormone levels among our specific T3 dosages could be interpreted as a result of a negative feedback regulation to avoid excessive hormone circulation at the end of the experiment [41,56,57]. The dosage-related effects detected on bill redness could, however, be a consequence of differences in plasma levels days before blood sampling.…”

Section: Discussionmentioning

confidence: 87%

Testing the carotenoid-based sexual signalling mechanism by altering CYP2J19 gene expression and colour in a bird species

et al. 2020

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Ornaments can evolve to reveal individual quality when their production/maintenance costs make them reliable as ‘signals’ or if their expression level is intrinsically linked to condition by some unfalsifiable mechanism (indices). The latter has been mostly associated with traits constrained by body size. In red ketocarotenoid-based colorations, that link could, instead, be established with cell respiration at the inner mitochondrial membrane (IMM). The production mechanism could be independent of resource (yellow carotenoids) availability, thus discarding costs linked to allocation trade-offs. A gene coding for a ketolase enzyme (CYP2J19) responsible for converting dietary yellow carotenoids to red ketocarotenoids has recently been described. We treated male zebra finches with an antioxidant designed to penetrate the IMM (mitoTEMPO) and a thyroid hormone (triiodothyronine) with known hypermetabolic effects. Among hormone controls, MitoTEMPO downregulated CYP2J19 in the bill (a red ketocarotenoid-based ornament), supporting the mitochondrial involvement in ketolase function. Both treatments interacted when increasing hormone dosage, indicating that mitochondria and thyroid metabolisms could simultaneously regulate coloration. Moreover, CYP2J19 expression was positively correlated to redness but also to yellow carotenoid levels in the blood. However, treatment effects were not annulated when controlling for blood carotenoid variability, which suggests that costs linked to resource availability could be minor.

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“…Historically, many studies have shown that both mammalian TSHs and avian pituitary homogenates stimulate thyroid gland activities (radioiodine uptake, thyroid hormone release, and gland growth; see, e.g., work by MacKenzie, 1981), and these activities are mediated via TSH receptors (Hull et al, 1995).…”

Section: Pituitary Control Of Thyroid Gland Functionmentioning

confidence: 99%

“…The effects of GH on deiodinases vary with deiodinase type and tissue; GH decreases hepatic 5D III (effect at the level of transcription) but does not alter 5 D II in the brain ( Van der Geyten et al, 2001). GH receptors are present in the thyroid and in vitro studies indicate that GH decreases T 4 release from the thyroid and may directly stimulate thyroid gland growth (Hull et al, 1995).…”

Section: Effects On Growth Interactions Between the Thyroid And Growtmentioning

confidence: 99%

The Hypothalamic-Pituitary-Thyroid (HPT) Axis in Birds and Its Role in Bird Development and Reproduction

McNabb

2007

Critical Reviews in Toxicology

189

163

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This article reviews thyroid function and its hypothalamic-pituitary-thyroid (HPT) axis control in birds with emphasis on the similarities and differences in thyroid function compared to mammals and other vertebrate classes. Thyroid hormones are important in metabolism and the thermogenesis required for homeothermy in birds, as in mammals, the other homeothermic class of vertebrates. Thyroid hormones play important roles in development and growth in birds, as is the case for all vertebrate classes. The developmental effects of thyroid hormones in birds are presented in the context of differences in precocial and altricial patterns of development and growth with emphasis on oviparous development. The sections on thyroid hormone actions include discussion of effects on the development of a number of tissue types as well as on seasonal organismal processes and interactions of the thyroid axis with reproduction. The current picture of how environmental chemicals may disrupt avian thyroid function is relatively limited and is presented in the context of the assessment endpoints that have been used to date. These endpoints are categorized as thyroid and HPT axis endpoints versus target organ endpoints. The final section discusses two recommended assay protocols, the avian two-generation toxicity assay and the avian one-generation assay, and whether these protocols can evaluate thyroid disruption in birds.

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Thyroid glands: novel sites of growth hormone action

Cited by 18 publications

References 24 publications

Papillary thyroid carcinoma after recombinant GH therapy for Turner syndrome

Papillary thyroid carcinoma after recombinant GH therapy for Turner syndrome

Testing the carotenoid-based sexual signalling mechanism by altering CYP2J19 gene expression and colour in a bird species

The Hypothalamic-Pituitary-Thyroid (HPT) Axis in Birds and Its Role in Bird Development and Reproduction

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