Carla Verhoelst

Specific detection of type III iodothyronine deiodinase protein in chicken cerebellar purkinje cells

Because iodothyronine deiodinases play a crucial role in the regulation of the available intracellular T3 concentration, it is important to determine their cellular localization. In brain, the presence of type III iodothyronine deiodinase (D3) seems to be important to maintain homeostasis of T3 levels. Until now, no cellular localization pattern of the D3 protein was reported in chicken brain. In this study polyclonal antisera were produced against specific peptides corresponding to the D3 amino acid sequence. Their use in immunocytochemistry led to the localization of D3 in the Purkinje cells of the chicken cerebellum. Both preimmune serum as well as the primary antiserum exhausted with the peptide itself were used as negative controls. Extracts of chick cerebellum and liver were made in the presence of Triton X-100 to solubilize the membrane-bound deiodinases. Using these extracts in Western blot analysis, a band of the expected molecular weight (∼30 kDa) could be detected in both tissues. Using a full-...

Type I iodothyronine deiodinase in euthyroid and hypothyroid chicken cerebellum.

Immunocytochemistry using polyclonal anti-type I deiodinase (D1) led to the localization of D1 protein in the internal granule cells of the cerebellum in 1-day-old chicks, which was confirmed by the presence of in vitro D1 activity. Western blot analysis of hepatic and cerebellar extracts revealed a band of 27 kDa. In hypothyroid embryos D1 was expressed in both the internal and external granule cell layer and the signal diminished with more severe hypothyroidism, which is in agreement with the expected downregulation of D1 activity during hypothyroidism. In accordance with the protein data, hypothyroidism resulted in the downregulation of cerebellar D1 mRNA. Finally, histological stainings confirmed that the lack of staining in the external germinal layer of 1-day-old euthyroid chicks was due to the fact that migration of immature granule cells from the external towards the internal layer was completed at this stage while cell migration was retarded in hypothyroid animals.

Role of spatiotemporal expression of iodothyronine deiodinase proteins in cerebellar cell organization.

Thyroid hormones (TH) play a crucial role in various developmental processes in all vertebrates. The expression of a number of thyroid hormone responsive genes is of critical importance in processes like cell maturation and migration. Since these genes are mostly regulated by binding of the receptor-active TH (T(3)) to the thyroid hormone receptor, the availability of this T(3) is indispensable for correct brain lamination. One important way to regulate local TH availability is via the ontogenetic changes in activating and inactivating iodothyronine deiodinases. The current study was set up to investigate the distribution of type I, type II and type III (D1, D2 and D3) iodothyronine deiodinase protein in the chicken cerebellum at two important developmental ages, namely embryonic day 18 when cerebellar cell migration is fully in progress, and 1 day posthatch, when cerebellar maturation is mostly finished. The results show that the deiodinase proteins are divergently expressed in the cerebellar cell population. D1 and D3 are expressed in the granule cells at E18, whereas D2 is found mostly in the molecular layer and the Purkinje cells at that time. One day posthatch, the expression of D1 is limited to the mature granule cells and that of D3 to the Purkinje cells exclusively, whereas D2 remains clearly present in the molecular layer. Comparison of the deiodinase protein distribution with the expression of TH-responsive proteins involved in cell migration (reelin, disabled protein 1 and tenascin-C) allows speculating about the effect of this spatiotemporal distribution pattern on cerebellar cell communicative pathways.

Regulation of Thyroid Hormone Availability by Iodothyronine Deiodinases at the Blood‐Brain Barrier in Birds

Abstract: It is accepted that type II iodothyronine deiodinase (D2) is predominantly found in brain, where it maintains homeostasis of thyroid hormone (TH) levels. The current study describes the production of a polyclonal D2 antiserum and its use in the comparison of D2 protein distribution with that of type I (D1) and type III (D3) deiodinase protein in the chicken choroid plexus (CP). Immunocytochemistry showed high D2 protein expression in the epithelial cells of the CP, whereas the D1 and D3 proteins were absent. Furthermore, dexamethasone treatment led to an upregulation of the D2 protein in these cells.