甲状腺乳头状癌合并桥本氏甲状腺炎的BRAF基因表达及侵袭性

目的:比较甲状腺乳头状癌合并桥本氏甲状腺炎与不合并桥本氏甲状腺炎的BRAFV600E基因表达以及侵袭性的区别。方法:2011年9月到2013年9月四川大学华西医院手术治疗并有BRAFV600E基因测定的甲状腺乳头状癌患者226名,均有病理证实。其中合并桥本氏甲状腺炎者50例为研究组,同期随机抽取50例不合并桥本氏甲状腺炎者作为对照组。比较两组性别、年龄、肿瘤大小、数量、BRAFV600E基因表达以及甲状腺外侵犯和淋巴结转移与侵袭性相关的因素的区别。结果:甲状腺乳头状癌合并桥本氏甲状腺炎在男女性别,发病年龄、肿瘤大小上和对照组相比无差异(P0.05);BRAFV600E突变率、甲状腺外侵犯和淋巴结转移都较对照组更低(P0.05)。BRAF基因突变阳性组甲状腺外侵犯和淋巴结转移率较BRAFV600E基因突变阴性组更高(P0.05)。结论:BRAFV600E基因突变的甲状腺乳头状癌患者有更高的甲状腺腺外侵犯和淋巴结转移。甲状腺乳头状癌合并桥本氏甲状腺炎较不合并桥本氏甲状腺炎有着更低的BRAFV600E突变率,更低的甲状腺外侵犯和淋巴结转移。     

RET rearrangements in papillary thyroid carcinomas and adenomas detected by interphase FISH

Activation of the RET protooncogene through somatic rearrangements represents the most common genetic alteration in papillary thyroid carcinoma (PTC). Three main rearranged forms of RET have been described: RET/PTC1 and RET/PTC3, which arise from a paracentric inversion of the long arm of chromosome 10, and RET/PTC2, which originates from a 10;17 translocation. We have developed a dual-color FISH approach to detect RET/PTC rearrangements in interphase nuclei of thyroid lesions. By using a pool of three cosmids encompassing the RET chromosome region and a chromosome 10 centromeric probe, we could discriminate between the presence of an inversion (RET/PTC1 and RET/PTC3) or a translocation (RET/PTC2). We have investigated a series of thyroid tissue samples from Italian and French patients corresponding to a total of 69 PTCs and 22 benign lesions. Among PTCs, 13 (18.8%) showed a RET rearrangement, and 11 (15.9%) of these carried an inversion (RET/PTC1 or RET/PTC3) in more than 10% of the nuclei examined. Activated forms of RET were also observed in three adenomas. RT-PCR analysis on the same samples confirmed the presence and the type of rearrangement predicted using FISH analysis. An interesting difference in the frequency and type of RET rearrangements was detected between the Italian and the French patients. Furthermore, we identified a putative novel type of rearrangement in at least one PTC sample. Several PTCs carried a significant number of cells characterized by a trisomy or a tetrasomy of chromosome 10. Overall, the FISH approach in interphase nuclei represents a powerful tool for detecting, at the single cell level, RET/PTC rearrangements and other anomalies involving the RET chromosome region.     

Conditional expression of RET/PTC induces a weak oncogenic drive in thyroid PCCL3 cells and inhibits thyrotropin action at multiple levels

Chromosomal rearrangements linking the promoter(s) and N-terminal domain of unrelated gene(s) to the C terminus of RET result in constitutively activated chimeric forms of the receptor in thyroid cells (RET/PTC). RET/PTC rearrangements are thought to be tumor-initiating events; however, the early biological consequences of RET/PTC activation are unknown. To explore this, we generated clonal lines derived from well-differentiated rat thyroid PCCL3 cells with doxycycline-inducible expression of either RET/PTC1 or RET/PTC3. As previously shown in other cell types, RET/PTC1 and RET/PTC3 oligomerized and displayed constitutive tyrosine kinase activity. Neither RET/PTC1 nor RET/PTC3 conferred cells with the ability to grow in the absence of TSH, likely because of concomitant stimulation of both DNA synthesis and apoptosis, resulting in no net growth in the cell population. Effects of RET/PTC on DNA synthesis and apoptosis did not require direct interaction of the oncoprotein with either Shc or phospholipase Cgamma. Acute expression of the oncoprotein decreased TSH-mediated growth stimulation due to interference of TSH signaling by RET/PTC at multiple levels. Taken together, these data indicate that RET/PTC is a weak tumor-initiating event and that TSH action is disrupted by this oncoprotein at several points, and also predict that secondary genetic or epigenetic changes are required for clonal expansion.     

Molecular Analysis of Structural Abnormalities in Papillary Thyroid Carcinoma Genome

Rearrangements of the protooncogene RET (RET/PTC) and somatic mutations of the gene BRAF are the most common events in the etiopathogenesis of papillary thyroid carcinoma (PTC). The rates of RET/PTC rearrangements and BRAF mutations in different nodular formations of the thyroid gland (TG) have been estimated. Comparative expression analysis of the extracellular (EC) and tyrosine kinase (TK) domains of RET has shown that 14% (12 out of 85) of PTC cases are RET/PTC-positive, including one RFP/RET-, two RET/PTC3-, and seven RET/PTC1-positive tumors, as well as two unidentified chimeric RET/PTC oncogenes. The standard T1796A transversion in the gene BRAF has been found in 60% (55 out of 91) PTC cases with the use of amplification refractory mutation system–polymerase chain reaction (ARMS–PCR). Somatic mutation G1753A and deletion del1800_1811 have been identified in PTC for the first time. The absence of the BRAF mutations in RET/PTC-positive tumors allows these two genetic defects to be regarded as alternative mechanisms of the RAS–RAF–MEK–ERK mitogen-activated protein (MAP) kinase cascade activation in PTCs. In none of the three follicular thyroid carcinomas (FTCs), 11 follicular thyroid adenomas (FTAs), and 13 nodular goiters have either BRAF mutations or RET/PTC rearrangements been found. Thus, the RET/PTC chimeric oncogenes and BRAF somatic mutations are specific markers of PTC and can be used for the preoperative diagnosis of these tumors.     

BRAF initiating mutations in the papillary thyroid carcinoma

Among genetic alterations most important for the initiation of papillary thyroid carcinoma (PTC) is mutation T1799A in the BRAF gene which is the most frequent event (54.5%) in this type of thyroid cancer. It is seen in all stages, from microcarcinoma through clinically overt disease to anaplastic cancer. It has been shown that BRAF mutation is correlated with PTC histotype. It is identified most frequently in classical PTC and in tall cell variant. Moreover, BRAF mutation is described more often in older patients, whereas in young patients RET/PTC rearrangements dominate. In PTC cases with BRAF mutation V600E the prognosis is poorer, with more cancer invasiveness, metastasis and recurrence. The presence of BRAF mutation is related to the specific gene expression signature, different than in cancer cases showing RET/PTC rearrangement or no known initiating mutation.     

桥本氏病合并甲状腺乳头状癌患者血清甲状腺相关激素水平的变化及意义

目的:探究桥本氏病(HT)合并甲状腺乳头状癌(PTC)患者血清甲状腺相关激素水平的变化及意义。方法:对我院148例HT患者的临床资料进行回顾性分析,根据其是否合并PTC分为HT合并PTC组(n=68)和单纯HT组(n=80)。比较两组患者性别、年龄及血清促甲状腺激素(TSH)、甲状腺功能指标[游离三碘甲腺原氨酸(FT3)、游离甲状腺素(FT4)]、抗甲状腺抗体[甲状腺球蛋白抗体(TGAb)、甲状腺过氧物酶抗体(TPOAb)]水平等临床资料差异,分析血清TSH水平变化及意义。结果:HT合并PTC组患者男性比例、年龄、病程及血清TSH水平均大于单纯HT组,血清TGAb、TPOAb水平则均小于单纯HT组(P0.05);血清FT3、FT4水平比较差异无统计学意义(P0.05)。HT合并PTC患者组血清TSH4.2 m IU/L患者占比高于血清TSH正常组(P0.05)。血清TSH4.2 m IU/L患者中HT合并PTC患者的占比大于血清TSH水平正常的患者(P0.05)。HT合并PTC患者中,血清TSH水平4.2 m IU/L患者中央区淋巴结转移发生率高于血清TSH水平正常患者(P0.05);血清TSH4.2 m IU/L与血清TSH正常患者多灶癌发生率比较差异无统计学意义(P0.05)。结论:HT患者血清TSH水平升高可能促进其甲状腺组织癌变,HT合并PTC患者血清TSH水平升高可能促进其中央区淋巴结转移。     

Molecular analysis of structural abnormalities in papillary thyroid carcinoma gene

Rearrangements of the RET proto-oncogene (RET/PTC) and BRAF gene mutations are the major genetic alterations in the etiopathogenesis of papillary thyroid carcinoma (PTC). We have analyzed a series of 118 benign and malignant follicular cell-derived thyroid tumors for RET/PTC rearrangements and BRAF gene mutations. Oncogenic rearrangements of RET proto-oncogene was revealed by semiquantitative RT-PCR of simultaneously generated fragments corresponding to tyrosine kinase (TK) and extracellular RET domains. The clear quantitative shift toward the TK fragment is indicative for the presence of RET rearrangements. The overall frequency of RET/PTC rearrangements in PTC was 14% (12 of 85), including 7 RET/PTC1, 2 RET/PTC3, 1 deltaRFP/RET and 2 apparently uncharacterized rearrangements. The most common T1796A transversion in BRAF gene was detected in 55 of 91 PTC (60%) using mutant-allele-specific PCR. We also identified two additional mutations: the substitution G1753A (E585K) and a case of 12-bp deletion in BRAF exon 15. Moreover, there was no overlap between PTC harboring BRAF and RET/PTC mutations, which altogether were present in 75.8% of cases (69 of 91). Taken together, our observations are consistent with the notion that BRAF mutations appear to be an alternative pathway to oncogenic MAPK activation in PTCs without RET/PTC activation. Neither RET/PTC rearrangements nor BRAF muta-tions were detected in any of 3 follicular thyroid carcinomas, 11 follicular adenomas and 13 nodular goiters. The high prevalence of BRAF mutations and RET/PTC rearrangements in PTCs and the specificity of these alterations to PTC make them potentially important markers for the preoperative tumor diagnosis.     

Twist及Akt2在甲状腺乳头状癌中的表达及意义

目的探讨Twist、Akt2在甲状腺乳头状癌中的表达和相互关系。方法应用免疫组化方法,对60例甲状腺乳头状癌、10例结节性甲状腺肿进行Twist、Akt2表达的研究。结果甲状腺乳头状癌Twist及Akt2阳性表达率分别为81.67%(49/60)及60.00%(36/60),结节性甲状腺肿Twist及Akt2阳性表达率分别为0.00%(0/10)及10.00%(1/10),前者与后者相比差异有统计学意义(P<0.05);Twist及Akt2在甲状腺乳头状癌中的表达水平与病人的年龄及原发肿瘤分期无关,但与有无淋巴结转移相关(P<0.05),且Akt2的表达在T3,4期肿瘤及T1,2期肿瘤相比也具有显著性(P<0.05);Twist及Akt2的表达呈正相关(r=0.492,P=0.000)。结论在大多数甲状腺乳头状癌的上皮细胞中都存在Twist及Akt2的过表达,其淋巴结转移的发生与Twist及Akt2过表达或功能的不正常可能有密切的关系;Twist与Akt2的表达呈正相关。     

RET tyrosine kinase signaling in development and cancer

The variety of diseases caused by mutations in RET receptor tyrosine kinase provides a classic example of phenotypic heterogeneity. Gain-of-function mutations of RET are associated with human cancer. Gene rearrangements juxtaposing the tyrosine kinase domain to heterologous gene partners have been found in sporadic papillary carcinomas of the thyroid (PTC). These rearrangements generate chimeric RET/PTC oncogenes. In the germline, point mutations of RET are responsible for multiple endocrine neoplasia type 2 (MEN 2A and 2B) and familial medullary thyroid carcinoma (FMTC). Both MEN 2 mutations and PTC gene rearrangements potentiate the intrinsic tyrosine kinase activity of RET and, ultimately, activate the RET downstream targets. Loss-of-function mutations of RET cause Hirschsprung's disease (HSCR) or colonic aganglionosis. A deeper understanding of the molecular signaling of normal versus abnormal RET activity in cancer will enable the development of potential new treatments for patients with sporadic and inherited thyroid cancer or MEN 2 syndrome. We now review the role and mechanisms of RET signaling in development and carcinogenesis.     

Molecular Pathways Associated with Aggressiveness of Papillary Thyroid Cancer

The most common thyroid malignancy is papillary thyroid cancer (PTC). Mortality rates from PTC mainly depend on its aggressiveness. Geno- and phenotyping of aggressive PTC has advanced our understanding of treatment failures and of potential future therapies. Unraveling molecular signaling pathways of PTC including its aggressive forms will hopefully pave the road to reduce mortality but also morbidity from this cancer. The mitogen-activated protein kinase and the phosphatidylinositol 3-kinase signaling pathway as well as the family of RAS oncogenes and BRAF as a member of the RAF protein family and the aberrant expression of microRNAs miR-221, miR-222, and miR-146b all play major roles in tumor initiation and progression of aggressive PTC. Small molecule tyrosine kinase inhibitors targeting BRAF-mediated events, vascular endothelial growth factor receptors, RET/PTC rearrangements, and other molecular targets, show promising results to improve treatment of radioiodine resistant, recurrent, and aggressive PTC.     

Molecular Diagnostics of Fine Needle Aspiration for the Presurgical Screening of Thyroid Nodules

“The incidence of thyroid cancer, the most common endocrine malignancy, is rising. The two most common types of thyroid cancer are papillary and follicular” thyroid carcinomas. “Fine-needle aspiration (FNA) of thyroid nodules” can permit to detect many genetic mutations and other molecular alterations, including RAS and BRAF point mutations, PAX8/peroxisome proliferator-activated receptor (PPAR)γ and “RET/PTC rearrangements, occurring in thyroid papillary and follicular carcinomas” (more than 70% of cases), which can be used successfully to improve the diagnosis “and the management of patients with thyroid nodules”. The most extensive experience has been accumulated with “the diagnostic use of BRAF mutation”, which is highly specific for malignancy. “Testing FNA samples for a panel of mutations” that typically includes RAS, BRAF, PAX8/PPARγ and RET/PTC could permit to achieve the biggest diagnostic impact. “The accuracy of cancer diagnosis in thyroid nodules could be improved significantly using these and other emerging molecular markers”.     

Thyroid cancer in patients with hyperthyroidism

Thyroid cancer can be associated with thyrotoxicosis caused by Graves' disease, toxic multinodular goiter, or autonomously functioning thyroid adenoma. The objective of this study was to summarize current evidence regarding the association of thyroid cancer and hyperthyroidism, particularly with respect to the type of hyperthyroidism found in some patients, and whether this affects the outcome of the patient. A PubMed search was performed up to August 2011. Articles were identified using combinations of the following keywords/phrases: thyroid cancer, papillary thyroid cancer, follicular thyroid cancer, medullary thyroid cancer, anaplastic thyroid cancer, hyperthyroidism, Graves' disease, auto-nomous adenoma, toxic thyroid nodule, and toxic multinodular goiter. Original research papers, case reports, and review articles were included. We concluded that the incidence, as well as the prognosis of thyroid cancer associated with hyperthyroidism is a matter of debate. It seems that Graves' disease is associated with larger, multifocal, and potentially more aggressive thyroid cancer than single hot nodules or multinodular toxic goiter. Patients with Graves' and thyroid nodules are at higher risk to develop thyroid cancer compared to patients with diffuse goiter. Every suspicious nodule associated with hyperthyroidism should be evaluated carefully.     

RET rearrangements in radiation-induced papillary thyroid carcinomas: high prevalence of topoisomerase I sites at breakpoints and microhomology-mediated end joining in ELE1 and RET chimeric genes

Children exposed to radioactive iodine after the Chernobyl reactor accident frequently developed papillary thyroid carcinomas (PTC). The predominant molecular lesions in these tumors are rearrangements of the RET receptor tyrosine kinase gene. Various types of RET rearrangements have been described. More than 90% of PTC with RET rearrangement exhibit a PTC1 or PTC3 type of rearrangement with an inversion of the H4 or ELE1 gene, respectively, on chromosome 10. To obtain closer insight into the mechanisms underlying PTC3 inversions, we analyzed the genomic breakpoints of 22 reciprocal and 4 nonreciprocal ELE1 and RET rearrangements in 26 post-Chernobyl tumor samples. In contrast to previous assumptions, an accumulation of breakpoints at the two Alu elements in the ELE1 sequence was not observed. Instead, breakpoints are distributed in the affected introns of both genes without significant clustering. When compared to the corresponding wildtype sequences, the majority of breakpoints (92%) do not contain larger deletions or insertions. Most remarkably, at least one topoisomerase I site was found exactly at or in close vicinity to all breakpoints, indicating a potential role for this enzyme in the formation of DNA strand breaks and/or ELE1 and RET inversions. The presence of short regions of sequence homology (microhomologies) and short direct and inverted repeats at the majority of breakpoints furthermore indicates a nonhomologous DNA end-joining mechanism in the formation of chimeric ELE1/Ret and Ret/ELE1 genes.     

不同性质甲状腺结节与微血管密度关系的研究

目的:探讨不同性质甲状腺结节与微血管密度关系,提高认识.方法:分别选取甲状腺乳头状癌、甲状腺腺瘤、结节性甲状腺肿及正常甲状腺组织,病理切片行常规HE染色及免疫组化SP染色.在高倍视野(×400)下选取5个血管着色密集区进行计数并取其平均数,MVD值=(n1 +n2+n3+n4+n5)/5.结果:(1)甲状腺乳头状癌、甲状腺腺瘤、结节性甲状腺肿及正常甲状腺组织平均MVD值分别为(65.54±19.21)个/HP、(54.54±11.76)个/HP、(47.85± 10.92)个/HP、(21.82±7.43)个/HP,甲状腺乳头状癌MVD值显著高于甲状腺腺瘤、结节性甲状腺肿及正常甲状腺组织(P＜0.05).甲状腺腺瘤、结节性甲状腺肿MVD值显著高于正常甲状腺组织(P＜0.05).(2)伴有淋巴结转移的甲状腺乳头状癌患者MVD值显著高于不伴有淋巴结转移者(P＜0.05);男性甲状腺乳头状癌患者MVD值显著高于女性患者(P＜0.05);＞40岁及≤40岁甲状腺乳头状癌患者MVD值间无统计学差异(P＞0.05).结论:甲状腺乳头状癌MVD值显著高于甲状腺腺瘤、结节性甲状腺肿及正常甲状腺组织,且伴有淋巴结转移的甲状腺乳头状癌患者MVD值显著高于不伴有淋巴结转移者.     

Incidental Thyroid Cancer in Toxic and Nontoxic Goiter: is TSH Associated with Malignany Rate? Results of A Meta-Analysis

ObjectiveIn the last 6 years, several studies reported a positive association between thyrotropin (TSH) and papillary cancer risk. The rationale is based on stimulatory action exerted by TSH on thyroid cell proliferation and/ or progression of a pre-existing papillary carcinoma. To validate this hypothesis, we performed a meta-analysis comparing the incidence of thyroid cancer in 2 groups of patients who underwent surgery for toxic or nontoxic nodular goiter.MethodsUsing data from 2,150 patients with toxic multinodular goiter (TMNG) and 873 patients with toxic adenoma (TA), the overall incidence of thyroid cancer (and 95% confidence interval [CIs]) was estimated to be 5.9% (3.9 to 8.3) for patients with TMNG and 4.8% (2.5 to 7.9) for patients with TA. Four studies were included in the meta-analysis with a total of 1,964 subjects undergoing thyroidectomy for allegedly benign thyroid disease (520 patients with TMNG or TA and 1,444 for multinodular goiter [MNG] or uninodular goiter [UNG]).ResultsWe did not find any significant differences in the risk of incidental thyroid cancer (ITC) in patients with TMNG versus MNG (odds ratio [OR]: 0.91, 95% CI: 0.47 to 1.77, I⁴: 62.6%), TA versus uninodular goiter (UNG) (OR: 0.46, 95% CI: 0.12 to 1.79, I⁵: 12%), and TMNG or TA versus MNG or UNG (pooled analysis) (OR: 0.86, 95% CI: 0.46 to 1.60, I⁶: 51.5%).ConclusionsThe results of this meta-analysis did not confirm an association between low TSH values and lower thyroid cancer rate, at least in patients with nodular disease. (Endocr Pract. 2013;19:212-218)     

Preoperative and Postoperative Evaluation of Thyroid Disease in Patients Undergoing Surgical Treatment of Primary Hyperparathyroidism

ObjectiveTo evaluate the occurrence of thyroid disease in patients undergoing parathyroidectomy for primary hyperparathyroidism.MethodsIn this case series, records of all patients with a diagnosis of primary hyperparathyroidism who underwent parathyroidectomy between January 2005 and December 2008 in our clinic were analyzed retrospectively. Preoperatively, all patients were evaluated with ultrasonography and parathyroid scintigraphy; when needed, thyroid scintigraphy and ultrasound-guided fine-needle aspiration biopsy (FNAB) were used. All patients underwent standard neck exploration. Postoperative histopathologic findings of thyroid tissue were classified as nodular/ multinodular hyperplasia, Hashimoto thyroiditis, papillary thyroid carcinoma, or normal.ResultsFifty-one women and 9 men were included. In the 60 patients, preoperative ultrasonography revealed thyroiditis (without nodules) in 13 (22%), a solitary nodule in 9 (15%) (coexistent with thyroiditis in 7 patients), multinodular goiter in 24 (40%) (coexistent with thyroiditis in 5 patients), and normal findings in 14 (23%). Rates of thyroiditis and nodular goiter were 42% and 55%, respectively. Collectively, prevalence of thyroid disease was 77%. Total thyroidectomy was performed in 27 patients, and hemithyroidectomy was performed in 15 patients. Indications for total thyroidectomy were nondiagnostic or suspicious FNAB results in 5 patients, hyperthyroidism in 4 patients, ultrasonography findings in 11 patients, and intraoperatively recognized suspicious nodularity in 7 patients. Postoperatively, thyroid carcinoma was diagnosed in 9 patients (15%).ConclusionsThyroid disease, particularly thyroid carcinoma, is common in patients with primary hyperparathyroidism. This association should be considered when selecting the surgical procedure. Intraoperative evaluation of the thyroid is as important as preoperative evaluation with ultrasonography and FNAB in patients with thyroid disease and primary hyperparathyroidism. (Endocr Pract. 2010;16:7-13)