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BACKGROUND: Several of the currently used anticancer drugs may variably affect thyroid function, with impairment ranging from modified total but not free concentration of thyroid hormones to overt thyroid disease. SUMMARY: Cytotoxic agents seem to alter thyroid function in a relatively small proportion of adult patients. Anticancer hormone drugs may mainly alter serum levels of thyroid hormone-binding proteins without clinically relevant thyroid dysfunction. Old immunomodulating drugs, such as interferon-α and interleukin-2, are known to induce variably high incidence of autoimmune thyroid dysfunction. Newer immune checkpoint inhibitors, such as anti-CTLA4 monoclonal antibodies, are responsible for a relatively low incidence of thyroiditis and may induce secondary hypothyroidism resulting from hypophysitis. Central hypothyroidism is a well-recognized side effect of bexarotene. Despite their inherent selectivity, tyrosine kinase inhibitors may cause high rates of thyroid dysfunction. Notably, thyroid toxicity seems to be restricted to tyrosine kinase inhibitors targeting key kinase-receptors in angiogenic pathways, but not other kinase-receptors (e.g., epidermal growth factor receptors family or c-KIT). In addition, a number of these agents may also increase the levothyroxine requirement in thyroidectomized patients. CONCLUSIONS: The pathophysiology of thyroid toxicity induced by many anticancer agents is not fully clarified and for others it remains speculative. Thyroid dysfunction induced by anticancer agents is generally manageable and dose reduction or discontinuation of these agents is not required. The prognostic relevance of thyroid autoimmunity, overt and subclinical hypothyroidism induced by anticancer drugs, the value of thyroid hormone replacement in individuals with abnormal thyrotropin following anticancer systemic therapy, and the correct timing of replacement therapy in cancer patients need to be defined more accurately in well-powered prospective clinical trials

In vivo and in vitro activation of natural killer cells in advanced cancer patients undergoing combined recombinant interleukin-2 and LAK cell therapy.

Patients with advanced metastatic cancer were given combined autologous lymphokine activated killer (LAK) cell and recombinant interleukin-2 (rIL-2) therapy on a National Cancer Institute extramural phase II trial. Systemic administration of rIL-2 resulted in pronounced lymphocytopenia. Within two days after completion of in vivo rIL-2 therapy, there was a dramatic increase in absolute numbers of circulating lymphocytes, and cytotoxic activity against tumor cell targets was mediated by peripheral blood lymphocytes, indicating in vivo generation of LAK activity. Patients were leukapheresed and cells cultured for three to four days in rIL-2. rIL-2 cultured cells from all patients demonstrated cytotoxic activity. In order to characterize the effector cell, T cells and natural killer (NK) cells were isolated to greater than 95% purity by flow cytometry. Cytotoxic activity was mediated by rIL-2--activated NK cells, whereas T cells demonstrated no substantial activity. The circulating in vivo cytotoxic effectors detected after in vivo rIL-2 therapy were also shown to be rIL-2--activated NK cells. Results from these studies demonstrate that all patients were capable of generating a cytotoxic response, and that the cytotoxic effector cells were rIL-2--activated NK cells, identified by the phenotype CD3--, Leu 19+. </jats:p