Induction of TIG3, a putative class II tumor suppressor gene, by retinoic acid in head and neck and lung carcinoma cells and its association with suppression of the transformed phenotype

Abstract

Retinoids can regulate the proliferation and differentiation of various tumor cells. It is thought that nuclear retinoid receptors mediate these effects by regulating gene transcription. The identity of specific retinoid target genes is only beginning to be unraveled.

One candidate for mediating retinoid-induced growth suppression is the novel class II tumor suppressor gene tazarotene-induced gene 3 (TIG3). We examined the constitutive and all-trans retinoic acid (ATRA)-inducible expression of TIG3 mRNA in five head and neck squamous cell carcinoma (HNSCC) and five nonsmall cell lung carcinoma (NSCLC) cell lines to determine whether it is associated with their responsiveness to ATRA. The expression patterns of retinoic acid receptor beta (RARbeta), another putative retinoid-inducible tumor suppressor gene, were also examined. The constitutive TIG3 expression was high in one HNSCC cell line and two NSCLC cell lines, and moderate to very low in the other cells. Some RARbeta-expressing cells had either low or undetectable TIG3 levels and vice versa. ATRA (1 microM; 48 h) increased TIG3 mRNA in 4/5 HNSCCs and 3/5 NSCLCs and RARbeta mRNA in some of the same cell lines, but also in cells that did not show TIG3 induction. TIG3 mRNA was induced by ATRA between 6 and 12 h in most of the responsive cells. ATRA concentrations required for TIG3 induction ranged from 1 to 500 nM depending on the cell line. The pan-RAR antagonists AGN193109 and the RARalpha antagonist Ro 41-5253 blocked TIG3 induction by ATRA. ATRA suppressed anchorage-independent colony formation in most cells that had a high or moderate constitutive or induced TIG3 expression level. In contrast, RARbeta mRNA expression pattern was not correlated with sensitivity to ATRA.

These results suggest that TIG3 is regulated by ATRA via retinoid receptors in certain aerodigestive tract cancer cells, and its induction by ATRA is associated with the suppression of anchorage-independent growth.

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See also:

- Official Web Site: The Di Bella Method;

- The Di Bella Method (A Fixed Part - All-Trans Retinoic Acid, Analogues and/or Derivatives - Approximately 60mg per day orally: 40mg per day Beta-Carotene/β-Carotene, 10mg per day ATRA and 10mg per day Axerophthol palmitate);

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- Publication, 2018 Jul: Over-Expression of GH/GHR in Breast Cancer and Oncosuppressor Role of Somatostatin as a Physiological Inhibitor (from Di Bella's Foundation);

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- Publication, 2019 Aug: The Entrapment of Somatostatin in a Lipid Formulation: Retarded Release and Free Radical Reactivity (from Di Bella's Foundation);

- Publication, 2019 Sep: Effects of Somatostatin and Vitamin C on the Fatty Acid Profile of Breast Cancer Cell Membranes (from Di Bella's Foundation);

- Publication, 2019 Sep: Effects of somatostatin, curcumin, and quercetin on the fatty acid profile of breast cancer cell membranes (from Di Bella's Foundation);

- Publication, 2020 Sep: Two neuroendocrine G protein-coupled receptor molecules, somatostatin and melatonin: Physiology of signal transduction and therapeutic perspectives (from Di Bella's Foundation);

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- Chronic Lymphocytic Leukemia: Long-Lasting Remission with Combination of Cyclophosphamide, Somatostatin, Bromocriptine, Retinoids, Melatonin, and ACTH;

- Somatostatin, retinoids, melatonin, vitamin D, bromocriptine, and cyclophosphamide in advanced non-small-cell lung cancer patients with low performance status;

- Somatostatin, retinoids, melatonin, vitamin D, bromocriptine, and cyclophosphamide in chemotherapy-pretreated patients with advanced lung adenocarcinoma and low performance status;

- Observations on the Report of a case of pulmonary adenocarcinoma with lymph node, hepatic and osseus metastasis;

- Neuroblastoma: Complete objective response to biological treatment;

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