4.5 Article

Unraveling the Role of Thyroid Hormones in Seasonal Neuroplasticity in European Starlings (Sturnus vulgaris)

期刊

出版社

FRONTIERS MEDIA SA
DOI: 10.3389/fnmol.2022.897039

关键词

thyroid hormone; testosterone; MRI; DTI; neuroplasticity; songbird; European starling (Sturnus vulgaris)

资金

  1. Hercules Foundation (Belgium) [AUHA/012]
  2. Research Foundation-Flanders (FWO) [G030213N]
  3. Interuniversity Attraction Poles (IAP) [P7/17]
  4. FWO [12R1917N, 1115217N]

向作者/读者索取更多资源

Thyroid hormones play a role in the seasonal regulation of reproduction, and this study investigates their potential effects on song behavior and neuroplasticity in songbirds. The expression of thyroid hormone regulating genes in the song nucleus HVC suggests an active role of thyroid hormones during the photosensitive phase. Hypothyroidism affects song behavior and neuroplasticity, leading to decreased testosterone levels and impaired myelination. This study provides insights into the influence of thyroid hormones on seasonal neuroplasticity.
Thyroid hormones clearly play a role in the seasonal regulation of reproduction, but any role they might play in song behavior and the associated seasonal neuroplasticity in songbirds remains to be elucidated. To pursue this question, we first established seasonal patterns in the expression of thyroid hormone regulating genes in male European starlings employing in situ hybridization methods. Thyroid hormone transporter LAT1 expression in the song nucleus HVC was elevated during the photosensitive phase, pointing toward an active role of thyroid hormones during this window of possible neuroplasticity. In contrast, DIO3 expression was high in HVC during the photostimulated phase, limiting the possible effect of thyroid hormones to maintain song stability during the breeding season. Next, we studied the effect of hypothyroidism on song behavior and neuroplasticity using in vivo MRI. Both under natural conditions as with methimazole treatment, circulating thyroid hormone levels decreased during the photosensitive period, which coincided with the onset of neuroplasticity. This inverse relationship between thyroid hormones and neuroplasticity was further demonstrated by the negative correlation between plasma T3 and the microstructural changes in several song control nuclei and cerebellum. Furthermore, maintaining hypothyroidism during the photostimulated period inhibited the increase in testosterone, confirming the role of thyroid hormones in activating the hypothalamic-pituitary-gonadal (HPG) axis. The lack of high testosterone levels influenced the song behavior of hypothyroid starlings, while the lack of high plasma T4 during photostimulation affected the myelination of several tracts. Potentially, a global reduction of circulating thyroid hormones during the photosensitive period is necessary to lift the brake on neuroplasticity imposed by the photorefractory period, whereas local fine-tuning of thyroid hormone concentrations through LAT1 could activate underlying neuroplasticity mechanisms. Whereas, an increase in circulating T4 during the photostimulated period potentially influences the myelination of several white matter tracts, which stabilizes the neuroplastic changes. Given the complexity of thyroid hormone effects, this study is a steppingstone to disentangle the influence of thyroid hormones on seasonal neuroplasticity.

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