Thyroid Hormone Receptors in Two Model Species for Vertebrate Embryonic Development: Chicken and Zebrafish

Chicken and zebrafish are two model species regularly used to study the role of thyroid hormones in vertebrate development. Similar to mammals, chickens have one thyroid hormone receptor α (TRα) and one TRβ gene, giving rise to three TR isoforms: TRα, TRβ2, and TRβ0, the latter with a very short amino-terminal domain. Zebrafish also have one TRβ gene, providing two TRβ1 variants. The zebrafish TRα gene has been duplicated, and at least three TRα isoforms are expressed: TRαA1-2 and TRαB are very similar, while TRαA1 has a longer carboxy-terminal ligand-binding domain. All these TR isoforms appear to be functional, ligand-binding receptors. As in other vertebrates, the different chicken and zebrafish TR isoforms have a divergent spatiotemporal expression pattern, suggesting that they also have distinct functions. Several isoforms are expressed from the very first stages of embryonic development and early chicken and zebrafish embryos respond to thyroid hormone treatment with changes in gene expression. Future studies in knockdown and mutant animals should allow us to link the different TR isoforms to specific processes in embryonic development

Pleomorphic Adenoma Gene 1 Is Needed For Timely Zygotic Genome Activation and Early Embryo Development

Pleomorphic adenoma gene 1 (PLAG1) is a transcription factor involved in cancer and growth. We discovered a de novo DNA motif containing a PLAG1 binding site in the promoters of genes activated during zygotic genome activation (ZGA) in human embryos. This motif was located within an Alu element in a region that was conserved in the murine B1 element. We show that maternally provided Plag1 is needed for timely mouse preimplantation embryo development. Heterozygous mouse embryos lacking maternal Plag1 showed disrupted regulation of 1,089 genes, spent significantly longer time in the 2-cell stage, and started expressing Plag1 ectopically from the paternal allele. The de novo PLAG1 motif was enriched in the promoters of the genes whose activation was delayed in the absence of Plag1. Further, these mouse genes showed a significant overlap with genes upregulated during human ZGA that also contain the motif. By gene ontology, the mouse and human ZGA genes with de novo PLAG1 motifs were involved in ribosome biogenesis and protein synthesis. Collectively, our data suggest that PLAG1 affects embryo development in mice and humans through a conserved DNA motif within Alu/B1 elements located in the promoters of a subset of ZGA genes.Peer reviewe

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The chicken embryo as a model for developmental endocrinology: Development of the thyrotropic, corticotropic, and somatotropic axes

The ease of in vivo experimental manipulation is one of the main factors that have made the chicken embryo an important animal model in developmental research, including developmental endocrinology. This review focuses on the development of the thyrotropic, corticotropic and somatotropic axes in the chicken, emphasizing the central role of the pituitary gland in these endocrine systems. Functional maturation of the endocrine axes entails the cellular differentiation and acquisition of cell function and responsiveness of the different glands involved, as well as the establishment of top-down and bottom-up anatomical and functional communication between the control levels. Extensive cross-talk between the above-mentioned axes accounts for the marked endocrine changes observed during the last third of embryonic development. In a final paragraph we shortly discuss how genomic resources and new transgenesis techniques can increase the power of the chicken embryo model in developmental endocrinology research.status: publishe

Increasing plasma thyroxine levels during late embryogenesis and hatching in the chicken are not caused by an increased sensitivity of the thyrotropes to hypothalamic stimulation

The hatching process in the chicken is accompanied by dramatic changes in plasma thyroid hormones. The cause of these changes, though crucial for hatching and the onset of endothermy, is not known. One hypothesis is that the pituitary gland becomes more sensitive to hypothalamic stimulation during this period. We have tested whether the responsiveness of the thyrotropes to hypothalamic stimuli changes throughout the last week of embryonic development and hatching by studying the mRNA expression of receptors involved in the control of the secretory activity of this cell type. We used a real-time PCR set-up to quantify whole pituitary mRNA expression of the beta subunit of thyrotrophin (TSH-beta), type 1 thyrotrophin-releasing hormone receptor (TRH-R1), corticotrophin-releasing hormone receptors (CRH-R1 and CRH-R2) and somatostatin subtype receptor 2 (SSTR2) on every day of the last week of embryonic development, including the day of hatch and the first day of posthatch life. The thyrotrope-specific expression was investigated by a combination of in situ hybridization with immunohistochemistry at selected ages. Although TSH-beta mRNA levels increased towards day 19 of incubation (E19), the expression of CRH-R2 and TRH-R1 mRNA by the thyrotropes tended to decrease during this period, suggesting a lower sensitivity of the thyrotropes to the stimulatory factors CRH and TRH. CRH-R1, which is not involved in the control of TSH secretion, increased steadily throughout the period tested. The expression of SSTR2 mRNA by the thyrotropes was low during embryonic development and increased just before hatching. We have concluded that the sensitivity of the pituitary thyrotropes to hypothalamic stimulation decreases throughout the last week of embryonic development, so that the higher expression of TSH-beta mRNA around E16-E19, and hence the increasing plasma thyroxine level, is unlikely to be the result of an increased stimulation by either TRH or CRH.status: publishe

Animal Hoarding in Victoria, Australia: An Exploratory Study

Animal hoarding not only presents significant welfare issues for the animals involved, but also for the hoarders and people in the surrounding community. Existing studies on the issue have primarily been undertaken in the USA and little is known about animal hoarding in other countries, including Australia. It has been estimated that the per-capita prevalence of animal hoarding in Victoria, Australia, is similar to that in the USA, but in order to design effective intervention strategies, the extent of the issue and its characteristics need to be identified. This study analyzes data from 22 recent cases of animal hoarding from a number of agencies in Victoria. The demographics and living conditions of animal hoarders in Victoria and the USA were found to be similar. In contrast, the animals involved in hoarding cases in Victoria were in a better condition than the animals in the USA, with behavioral issues being the leading animal welfare concern in Australia. Behavioral problems resulted in euthanasia of the animals in 45% of the cases studied. All of the agencies included in this study call for a greater involvement or support from human mental health services to fully address the root of the problem. The information from this study can be used to help identify groups at risk to develop effective and appropriate means of prevention of, and intervention in, animal hoarding cases

Expression of the thyrotropin-releasing hormone receptor and the corticotropin-releasing hormone receptor in the pituitary gland of the chicken (Gallus gallus)

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In vitro study of corticotropin-releasing hormone-induced thyrotropin release: ontogeny and inhibition by somatostatin

Recent research has shown that in the chicken important interactions take place between the adrenal and the thyroidal axis both at the central and the peripheral level. In vivo as well as in vitro experiments showed that ovine corticotropin-releasing hormone (oCRH) clearly increases thyrotropin (TSH) secretion in late embryonic and early posthatch chicks. In vivo experiments in older chickens, however, suggested that this response might disappear at a later stage. Therefore we started to study in detail the ontogeny of the TSH releasing activity of oCRH using the in vitro perifusion technique. Several embryonic stages (E14, E16, and E18) as well as posthatch stages (C1, C8, C22, and adult chickens) were included in the study. We also investigated the possible regulatory role of somatostatin (SRIH) in this specific endocrine function of CRH. The perifusion studies show that CRH stimulated the TSH release at all stages tested. The 10 and 100 nM oCRH doses were almost equally effective at the early embryonic stages while in most posthatch stages the higher oCRH dose was significantly more effective than the lower one. The stimulation factor, representative for the relative increase in TSH secretion following oCRH challenge, was high at early embryonic stages and clearly lower in adult animals. This seemed to be related to an age-dependent increase in basal TSH secretion levels. In both embryonic (E19) and posthatch (C8) chicks a pretreatment of the pituitaries with SRIH lowered the sensitivity of the thyrotropes to an oCRH challenge. This effect was more pronounced in the posthatch chicks compared to the embryos. The results show that CRH is capable of stimulating the TSH secretion during the entire life cycle of the chicken and that SRIH may play an important role in the fine-tuning of this response by lowering the sensitivity of the thyrotropes to CRH. (C) 2003 Elsevier Science (USA). All rights reserved.status: publishe

The use of real-time PCR to study the expression of thyroid hormone receptor beta 2 in the developing chicken

Thyroid hormones and their receptors (TRs) have critical functions in development and metabolism. In chicken, three TRs are known: TR alpha, TR beta 0, and TR beta 2. The latter was isolated from chicken eye, but its presence in other tissues has not yet been extensively investigated. We therefore developed a real-time PCR assay using a Taqman probe and primers based on the unique amino-terminal region of TR beta 2. We detected a strong TR beta 2 mRNA signal in the pituitary, confirmed with in situ hybridization, and in several other tissues. TR beta 2 mRNA was more abundant in the pituitary of newly hatched chicks than in 15-day-old embryos.status: publishe

Chicken folliculo-stellate cells express thyrotropin receptor

We investigated the presence of thyrotropin receptor (TSHR) mRNA in chicken pituitary and brain, and quantified the changes in its expression during the last week of embryonic development. We found that in the pituitary gland, TSHR mRNA co-localizes with folliculo-stellate cells but not with thyrotropic cells, suggesting the existence of a paracrine ultra-short thyrotropin feedback loop. TSHR mRNA was also present throughout the diencephalon and various other brain regions, which implies a more general function for thyrotropin in the avian brain. During late embryogenesis, when the activity of the hypothalamo-pituitary-thyroidal axis increases markedly, a significant rise in TSHR mRNA expression was observed in pituitary, which may signify an important change in pituitary ultra-short thyrotropin feedback regulation around the period of hatching.status: publishe