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Thyroglobulin ( Tg) is a 660 kDa, dimeric glycoprotein produced by the follicular cells of the thyroid and used entirely within the thyroid gland. Tg is secreted and accumulated at hundreds of grams per litre in the extracellular compartment of the thyroid follicles, accounting for approximately half of the protein content of the thyroid gland. Human TG (hTG) is a homodimer of subunits each containing 2768 amino acids as synthesized (a short signal peptide of 19 amino acids may be removed from the N-terminus in the mature protein).
Thyroglobulin is in all vertebrates the main precursor to , which are produced when thyroglobulin's tyrosine residues are combined with iodine and the protein is subsequently cleaved. Each thyroglobulin molecule contains approximately 16 tyrosine residues, but only around 10 of these are subject to iodination by thyroperoxidase in the follicular colloid. It takes two iodinated tyrosines to make a thyroid hormone molecule; therefore, each Tg molecule forms approximately 5 thyroid hormone molecules.
Newly synthesized thyroid hormones (T3 and T4) exist as prohormonal modified tyrosine residues of thyroglobulin, which comprise the colloid within the follicle. When stimulated by thyroid stimulating hormone (TSH), the colloid of the follicular lumen is endocytosed into the surrounding thyroid follicular epithelial cells. When endosomes fuse with lysosomes in these cells, Tg is subsequently cleaved by proteases to release thyroglobulin from its T3 and T4 attachments.
Because of the hydrophobic nature of T3 and T4, they are able to then diffuse across the lysosomal membrane and into the cytoplasm. The active forms of thyroid hormone (T3 and T4), are then released into circulation where they are either unbound or attached to plasma proteins. Iodine is recycled back into the follicular lumen where it can continue to serve as a substrate for thyroid hormone synthesis, while the non-modified residues of Tg reenter cellular metabolic pathways.
A subsequent elevation of the thyroglobulin level is an indication of recurrence of papillary or follicular thyroid carcinoma. In other words, a rise in thyroglobulin levels in the blood may be a sign that thyroid cancer cells are growing and/or the cancer is spreading. Hence, thyroglobulin levels in the blood are mainly used as a tumor marker for certain kinds of thyroid cancer (particularly papillary or follicular thyroid cancer). Thyroglobulin is not produced by medullary or anaplastic thyroid carcinoma.
Thyroglobulin levels are tested via blood tests including immunoassays and highly-sensitive thyroglobulin (hsTg) assays. These tests are often ordered after thyroid cancer treatment.
ATAs are often found in patients with Hashimoto's thyroiditis or Graves' disease. Their presence is of limited use in the diagnosis of these diseases, since they may also be present in healthy euthyroid individuals. ATAs are also found in patients with Hashimoto's encephalopathy, a neuroendocrine disorder related to—but not caused by—Hashimoto's thyroiditis.
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