The Highly Expressed FAM83F Protein in Papillary Thyroid Cancer Exerts a Pro-Oncogenic Role in Thyroid Follicular Cells.

Thyroid cancer is the most common endocrine cancer with predominant prevalence of papillary thyroid cancer (PTC) histotype. MAPK signaling genetic alterations are frequent in PTC, affecting more than 80% of cases. These alterations constitutively activate MAPK signaling cross-regulating different pro-oncogenic pathways. However, additional molecular alterations associated with thyroid cancer are not completely understood. In this extent, the new family of proteins named FAM83 (FAMily with sequence similarity 83) was recently identified as mediator of oncogenic signaling in different types of cancer. Here we report FAM83F as a novel highly expressed protein in PTC. We evaluated FAM83F levels in 106 PTC specimens, 34 goiter, and 41 adjacent non-tumoral human thyroid, and observed FAM83F cytoplasmic overexpression in 71% of PTC (76 of 106) while goiter tissues showed nuclear positivity and normal thyroid showed no staining by immunohistochemistry. Moreover, TSH-induced goiter and BRAF T1799A -induced PTC animal models also showed FAM83F activation. In vitro, we generated a stable thyroid cell line PCCL3 with FAM83F overexpression and observed that FAM83F deregulates thyroid follicular cell biology leading to loss of thyroid differentiation genes such as Sodium-Iodide Symporter (NIS), reactivation of stem cell markers such as LIN28B and SOX2, induction of cell migration and resistance to doxorubicin-induced apoptosis. Moreover, FAM83F activates MAPK signaling through interaction with BRAF and RAF while impairs TGFß antiproliferative signaling transduction. In this study, we showed FAM83F as a new pro-oncogenic protein overexpressed in thyroid cancer that modulates thyroid follicular cell biology and differentiation through cross-regulation of MAPK and TGFß signaling.

NIS mediates iodide uptake in the female reproductive tract and is a poor prognostic factor in ovarian cancer.

CONTEXT: The sodium iodide symporter (NIS) mediates active transport of iodide into the thyroid and the lactating mammary glands and is highly expressed in thyroid and breast carcinomas. NIS is clinically very relevant because it allows the treatment with radioiodine of thyroid cancer patients. OBJECTIVE: In this study we wanted to explore whether NIS is expressed in the ovary and in ovarian cancer. METHODS/PATIENTS: Methods included NIS and paired box 8 expression and function in ovarian cancer patients and rats by immunochemistry, immunoblot, RT-PCR, and iodide uptake. RESULTS: Here we demonstrate for the first time that NIS is expressed in the ovary and fallopian tube and actively accumulates significant levels of radioiodide in vivo. In a large survey of menstruating women receiving radioiodide for medical purposes, 15% showed significant uptake in the normal reproductive tract. Ovarian NIS activity is influenced by the estrous cycle stage in rats, being up-regulated during peak levels of estrogens occurring immediately before the ovulation. We unveil that the regulatory mechanism underlying this phenomenon is based on the functional cooperation of estrogen receptor-α and paired box 8. We also show that NIS is highly expressed in ovarian cancer, predicting a poor prognosis in these patients. CONCLUSIONS: These results provide the basis that will help minimize the impact of therapeutic doses of radioiodide on gonadal function. We also suggest that NIS is a new ovarian cancer marker, opening a door for the use of radioiodide in the diagnosis and treatment of ovarian cancer patients.

O Polimorfismo no códon 98 do gene de galectina-3 não está associado a tumores benignos e malignos de tiróide / Polymorphism on codon 98 of the galectin-3 gene are not associated to benign and nalignant thyroid tumors / Polymorphism on codon 98 of the galectin-3 gene are not associated to benign and nalignant thyroid tumors

Galectina-3 é uma proteína multifuncional altamente expressa em câncer de tiróide. O gene de galectina-3 (LGALS3) apresenta vários candidatos a SNPs anotados, no entanto a relação entre estes SNPs e variações fenotípicas específicas relevantes à saúde não foi avaliada. Neste estudo, investigamos SNPs do LGALS3 e uma possível associação destes com a tumorigênese tiroidiana. A presença de SNPs do LGALS3 em linhagens de carcinoma de tiróide (WRO, NPA, TPC-1, ARO), tecidos tiroidianos de 55 pacientes com diagnóstico de bócio multinodular ou carcinoma papilífero e linfócitos do sangue periférico de 45 indivíduos saudáveis foi avaliada por seqüenciamento e SSCP. A análise da seqüência codificadora do LGALS3 mostrou que o sítio T98P apresenta uma grande variação genotípica, visto que observamos os padrões homozigoto (AA ou CC) e heterozigoto (AC). Em linhagens de carcinoma de tiróide, o genótipo da NPA no sítio T98P do LGALS3 é CC, enquanto TPC-1, WRO e ARO são AC. As freqüências genotípicas do T98P do LGALS3 observadas em bócio multinodular (AC= 67 por cento, AA= 23 por cento, CC= 10 por cento) e carcinoma papilífero (AC= 68 por cento, AA= 20 por cento, CC= 12 por cento) foram semelhante à freqüência observada na população controle (AC= 60 por cento, AA= 24 por cento, CC= 16 por cento). Em conclusão, não observamos associação entre o genótipo T98P do LGALS3 e o fenótipo de tumor benigno ou maligno de tiróide.

Galectin-3 is a multifunctional protein highly expressed in thyroid cancer. The galectin-3 gene (LGALS3) has several annotated candidates SNPs, however the relationship between galectin-3 SNPs and specific phenotypic variations relevant to health has not been evaluated. In this study, we investigated SNPs in the galectin-3 gene and a putative association with thyroid tumorigenesis. The presence of LGALS3 SNPs in thyroid carcinoma cell lines (NPA, TPC-1, WRO, ARO), thyroid tissues of 55 patients with multinodular goiter or papillary carcinoma diagnosis and lymphocytes of peripherical blood of 45 healthy individuals was evaluated by sequencing and SSCP. The analysis of LGALS3 coding sequence showed that the T98P site presents a great genotypic variation, since we observed both homozygous (AA or CC) and heterozygous (AC) patterns. In thyroid carcinoma cell lines, the genotype of NPA in the LGALS3 T98P site is CC, while TPC-1, WRO and ARO are AC. The genotypic frequency of T98P SNP observed in multinodular goiter (AC= 67 percent; AA= 23 percent; CC= 10 percent) and papillary carcinoma (AC= 68 percent; AA= 20 percent; CC= 12 percent) were similar to the frequency observed in the control population (AC= 60 percent, AA= 24 percent, CC= 16 percent). In conclusion, no association between LGALS3 T98P genotype and the phenotype of the benign or malignant thyroid tumor was observed.

Transforming growth factor-beta1 and activin A generate antiproliferative signaling in thyroid cancer cells.

Transforming growth factor-beta 1 (TGF-beta1) and activin A (ActA) induce similar intracellular signaling mediated by the mothers against decapentaplegic homolog (SMAD) proteins. TGF-beta1 is a potent antimitogenic factor for thyroid follicular cells, while the role of ActA is not clear. In our study, the proliferation of TPC-1, the papillary thyroid carcinoma cell line, was reduced by both recombinant ActA and TGF-beta1. Due to the concomitant expression of TGF-beta1 and ActA in thyroid tumors, we investigated the effects of either TGF-beta1 or ActA gene silencing by RNA interference in TPC-1 cells in order to distinguish the specific participation of each in proliferation and intracellular signaling. An increased proliferation and reduced SMAD2, SMAD3, and SMAD4 mRNA expression were observed in both TGF-beta1 and ActA knockdown cells. Recombinant TGF-beta1 and ActA increased the expression of inhibitory SMAD7, whereas they reduced c-MYC. Accordingly, we detected a reduction in SMAD7 expression in knockdown cells while, unexpectedly, c-MYC was reduced. Our data indicate that both TGF-beta1 and ActA generate SMADs signaling with each regulating the expression of their target genes, SMAD7 and c-MYC. Furthermore, TGF-beta1 and ActA have an antiproliferative effect on thyroid papillary carcinoma cell, exerting an important role in the control of thyroid tumorigenesis.

[Polymorphism on codon 98 of the galectin-3 gene is not associated to benign and malignant thyroid tumors]. / O Polimorfismo no códon 98 do gene de galectina-3 não está associado a tumores benignos e malignos de tiróide.

Galectin-3 is a multifunctional protein highly expressed in thyroid cancer. The galectin-3 gene (LGALS3) has several annotated candidates SNPs, however the relationship between galectin-3 SNPs and specific phenotypic variations relevant to health has not been evaluated. In this study, we investigated SNPs in the galectin-3 gene and a putative association with thyroid tumorigenesis. The presence of LGALS3 SNPs in thyroid carcinoma cell lines (NPA, TPC-1, WRO, ARO), thyroid tissues of 55 patients with multinodular goiter or papillary carcinoma diagnosis and lymphocytes of peripheral blood of 45 healthy individuals was evaluated by sequencing and SSCP. The analysis of LGALS3 coding sequence showed that the T98P site presents a great genotypic variation, since we observed both homozygous (AA or CC) and heterozygous (AC) patterns. In thyroid carcinoma cell lines, the genotype of NPA in the LGALS3 T98P site is CC, while TPC-1, WRO and ARO are AC. The genotypic frequency of T98P SNP observed in multinodular goiter (AC= 67%; AA= 23%; CC= 10%) and papillary carcinoma (AC= 68%; AA= 20%; CC= 12%) were similar to the frequency observed in the control population (AC= 60%, AA= 24%, CC= 16%). In conclusion, no association between LGALS3 T98P genotype and the phenotype of the benign or malignant thyroid tumor was observed.