Virginia D. Sarapura scite author profile

The pituitary hormones LH, FSH, and TSH are heterodimers composed of a common alpha-subunit and unique beta-subunits. We demonstrate that 4.6, 2.7, 1.49 or 0.48 kilobases (kb) mouse alpha-subunit 5'-flanking sequences are sufficient for transgene expression in both gonadotropes and thyrotropes but not in inappropriate pituitary cells. In contrast, transgenes with bovine or human alpha-subunit flanking sequences have been shown to confer reporter gene expression only to gonadotrope cells, suggesting that the elements regulating cell-specific expression may differ between species. Equal levels of reporter gene expression were conferred by 5.0 and 0.48 kb in transiently transfected thyrotrope tumor-derived cells. In contrast, in transgenic mice, high level expression was only obtained with 4.6 kb 5'-flanking sequences, indicating the presence of an enhancer element between 4.6 and 2.7 kb. The 4.6 kb of 5'-flanking sequences are sufficient for both hormonal and developmental regulation of transgene expression. Mice rendered hypothyroid by radiothyroidectomy had significantly higher levels of transgene expression than either hyperthyroid or euthyroid animals. The temporal and spatial pattern of transgene expression in Rathke's pouch paralleled that of the endogenous gene; the onset of transgene expression occurred by embryonic day 9.5. Low level expression of both the transgene and the endogenous alpha-subunit gene were detected in some unexpected peripheral sites, such as the embryonic extraocular and olfactory regions, suggesting that alpha-subunit may have a more diverse role in development than previously considered.

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Activation of thyroid antigen-reactive B cells in recent onset autoimmune thyroid disease patients

Smith

Rihanek

Coleman

et al. 2018

Journal of Autoimmunity

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Autoimmune thyroid disease (AITD), including Hashimoto's thyroiditis (HT) and Graves' disease (GD), is the most common autoimmune disorder in the United States, affecting over 20 million people. At the time of diagnosis, both HD and GD are characterized by the accumulation of B and T lymphocytes in the thyroid gland and production of autoantibodies targeting the thyroid, indicating that a breach in tolerance of autoreactive lymphocytes has occurred. However, few studies have sought to understand the underlying pathogenesis of AITD that ultimately leads to production of autoantibodies and loss of thyroid function. In this study, we analyzed the phenotype of thyroid antigen-reactive B cells in the peripheral blood of recent onset and long standing AITD patients. We found that in recent onset patients thyroid antigen-reactive B cells in blood no longer appear anergic, rather they express CD86, a marker of activation. This likely reflects activation of these cells leading to their production of autoantibodies. Hence, this study reports the early loss of anergy in thyroid antigen-reactive B cells, an event that contributes to development of AITD.

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Thyrotrope Expression and Thyroid Hormone Inhibition Map to Different Regions of the Mouse Glycoprotein Hormone α-Subunit Gene Promoter*

et al. 1990

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The alpha-subunit gene of the glycoprotein hormones is normally expressed in pituitary thyrotropes and gonadotropes and in placental cells. Thus, this gene must contain elements that mediate expression and hormonal responses in different cell types. The localization of DNA regions important for expression and regulation of the alpha-subunit gene in thyrotrope cells has not previously been reported. In these studies luciferase expression constructs containing 1700 basepairs of 5' flanking DNA derived from the mouse alpha-subunit gene were introduced by electroporation into freshly dispersed cells from TSH-producing mouse pituitary tumors (TtT 97). This promoter functioned with greater efficiency in thyrotropes than in nonthyrotrope pituitary GH4 cells and L-cell fibroblasts. Primer extension confirmed that transcription from the alpha-subunit constructs initiated at the same site as the endogenous gene. Studies using 5' truncations showed a progressive loss of alpha-subunit promoter activity in thyrotropes between -480 and -120, with regions upstream of -254 contributing substantially to expression in thyrotrope cells. Thyroid hormone inhibited alpha-subunit promoter activity in a dose-dependent fashion, although in vivo treatment of tumors with thyroid hormone before transfection was necessary to achieve maximal inhibition. Thyroid hormone inhibition of alpha-subunit promoter activity also occurred in GH4 cells, but no effect was observed in L-cells. Studies using 5' truncations localized a region responsible for thyroid hormone inhibition between -62 and +43, encompassing the TATA sequence and the transcriptional initiation site. When this region was compared to the thyroid hormone inhibitory regions of the alpha-subunit genes from other species and the mouse TSH beta-subunit gene, a 6-basepair motif, 5' (G/A)GTG(G/A)G 3', emerged as a possible consensus sequence for a thyroid hormone inhibitory element.

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Analysis of Pit-1 in regulating mouse TSH β promoter activity in thyrotropes

Gordon

Haugen

Sarapura

et al. 1993

Molecular and Cellular Endocrinology

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