Subscribe to RSS
DOI: 10.1055/s-0031-1280829
High Prevalence of TSHR/Gsα Mutation-negative Clonal Hot Thyroid Nodules (HNs) in a Turkish Cohort
Publication History
received 22 February 2011
accepted 08 June 2011
Publication Date:
19 July 2011 (online)
Abstract
Whereas the majority of hot thyroid nodules are caused by somatic TSH-receptor mutations, the percentage of TSH-receptor mutation negative clonal hot nodules (HN) and thus the percentage of hot nodules likely caused by other somatic mutations are still debated. This is especially the case for toxic multinodular goiter (TMNG). 35 HNs [12 solitary hot nodules (SHN), 23 TMNG] were screened for somatic TSHR mutations in the exons 9 and 10 and for Gsα mutations in the exons 7 and 8 using DGGE. Determination of X-chromosome inactivation was used for clonality analysis. Overall TSHR mutations were detected in 14 out of 35 (40%) HNs. A nonrandom X-chromosome inactivation pattern was detected in 18 out of 25 (72%) HNs suggesting a clonal origin. Of 15 TSHR or Gsα mutation negative cases 13 (86.6%) showed nonrandom X-chromosome inactivation, indicating clonal origin. The frequency of activating TSHR and/or Gsα mutations was higher in SHNs (9 of 12) than in TMNGs (6 of 23). There was no significant difference for the incidence of clonality for HNs between TMNGs or SHNs (p: 0.6396). Activating TSHR and/or Gsα mutations were more frequent in SHNs than in TMNG. However, the frequency of clonality is similar for SHN and TMNG and there is no significant difference for the presence or absence of TSHR and/or Gsα mutations of clonal or polyclonal HNs. The high percentage of clonal mutation-negative HNs in SHN and TMNG suggests alternative molecular aberrations leading to the development of TSHR mutation negative nodules.
-
References
- 1 Bishop JM. The molecular genetics of cancer. Science 1987; 235 (4786) 305-311
- 2 Wainscoat JS, Fey MF. Assessment of clonality in human tumors: a review. Cancer Res 1990; 50: 1355-1360
- 3 Knudson Jr AG. Mutation and cancer: a personal odyssey. Adv Cancer Res 1995; 67: 1-23
- 4 Dumont JE, Lamy F, Roger P, Maenhaut C. Physiological and pathological regulation of thyroid cell proliferation and differentiation by thyrotropin and other factors. Physiol Rev 1992; 72: 667-697
- 5 Bodenner DL, Lash RW. Thyroid disease mediated by molecular defects in cell surface and nuclear receptors. Am J Med 1998; 105: 524-538
- 6 Lyons J, Landis CA, Harsh G, Vallar L, Grünewald K, Feichtinger H, Duh QY, Clark OH, Kawasaki E, Bourne HR. Two G protein oncogenes in human endocrine tumors. Science 1990; 10 249 (4969) 655-659
- 7 Parma J, Duprez L, Van Sande J, Cochaux P, Gervy C, Mockel J, Dumont J, Vassart G. Somatic mutations in the thyrotropin receptor gene cause hyperfunctioning thyroid adenomas. Nature 1993; 365 (6447) 649-651
- 8 Lyon MF. X-chromosome inactivation and developmental patterns in mammals. Biol Rev Camb Philos Soc 1972; 47: 1-35
- 9 Fey MF, Peter HJ, Hinds HL, Zimmermann A, Liechti-Gallati S, Gerber H, Studer H, Tobler A. Clonal analysis of human tumors with M27 beta, a highly informative polymorphic X chromosomal probe. J Clin Invest 1992; 89: 1438-1444
- 10 Trülzsch B, Krohn K, Wonerow P, Chey S, Holzapfel HP, Ackermann F, Führer D, Paschke R. Detection of thyroid-stimulating hormone receptor and Gsalpha mutations: in 75 toxic thyroid nodules by denaturing gradient gel electrophoresis. J Mol Med 2001; 78: 684-691
- 11 Krohn K, Führer D, Holzapfel HP, Paschke R. Clonal origin of toxic thyroid nodules with constitutively activating thyrotropin receptor mutations. J Clin Endocrinol Metab 1998; 83: 130-134
- 12 Holzapfel HP, Führer D, Wonerow P, Weinland G, Scherbaum WA, Paschke R. Identification of constitutively activating somatic thyrotropin receptor mutations in a subset of toxic multinodular goiters. J Clin Endocrinol Metab 1997; 82: 4229-4233
- 13 Tumours of the Thyroid and Parathyroid: Follicular adenoma. In: DeLellis RA, Lloyd RV, Heitz PU, Eng C. eds WHO Classification of Tumours: Pathology & Genetics of Tumours of Endocrine Organs. Lyon: IARC Press; 2004: 98-103
- 14 Krohn K, Wohlgemuth S, Gerber H, Paschke R. Hot microscopic areas of iodine-deficient euthyroid goitres contain constitutively activating TSH receptor mutations. J Pathol 2000; 192: 37-42
- 15 Kozasa T, Itoh H, Tsukamoto T, Kaziro Y. Isolation and characterization of the human Gs alpha gene. Proc Natl Acad Sci USA 1988; 85: 2081-2085
- 16 Jäschke H, Neumann S, Moore S, Thomas CJ, Colson AO, Costanzi S, Kleinau G, Jiang JK, Paschke R, Raaka BM, Krause G, Gershengorn MC. A low molecular weight agonist signals by binding to the transmembrane domain of thyroid-stimulating hormone receptor (TSHR) and luteinizing hormone/chorionic gonadotropin receptor (LHCGR). Biol Chem 2006; 14 281: 9841-9844
- 17 Mueller S, Gozu HI, Bircan R, Jaeschke H, Eszlinger M, Lueblinghoff J, Krohn K, Paschke R. Background: Cases of Borderline In Vitro Constitutive Thyrotropin Receptor Activity: How to Decide Whether a Thyrotropin Receptor Mutation Is Constitutively Active or Not?. Thyroid 2009; 19: 765-773
- 18 Ballesteros JA, Jensen AD, Liapakis G, Søren, Rasmussen GF, Shi L, Gether U, Javitch JA. Activation of the b2-Adrenergic Receptor Involves Disruption of an Ionic Lock between the Cytoplasmic Ends of Transmembrane Segments 3 and 6. J Biol Chem 2001; 276: 29171-29177
- 19 Gozu HI, Bircan R, Krohn K, Muller S, Vural S, Gezen C, Sargin H, Yavuzer D, Sargin M, Cirakoglu B, Paschke R. Similar prevalence of somatic TSH receptor and Gsalpha mutations in toxic thyroid nodules in geographical regions with different iodine supply in Turkey. Eur J Endocrinol 2006; 155: 535-545
- 20 Russo D, Arturi F, Wicker R, Chazenbalk GD, Schlumberger M, DuVillard JA, Caillou B, Monier R, Rapoport B, Filetti S. Genetic alterations in thyroid hyperfunctioning adenomas. J Clin Endocrinol Metab 1995; 80: 1347-1351
- 21 Nogueira CR, Kopp P, Arseven OK, Santos CL, Jameson JL, Medeiros-Neto G. Thyrotropin receptor mutations in hyperfunctioning thyroid adenomas from Brazil. Thyroid 1999; 9: 1063-1068
- 22 Tonacchera M, Agretti P, Chiovato L, Rosellini V, Ceccarini G, Perri A, Viacava P, Naccarato AG, Miccoli P, Pinchera A, Vitti P. Activating thyrotropin receptor mutations are present in nonadenomatous hyperfunctioning nodules of toxic or autonomous multinodular goiter. J Clin Endocrinol Metab 2000; 85: 2270-2274
- 23 Vanvooren V, Uchino S, Duprez L, Costa MJ, Vandekerckhove J, Parma J, Vassart G, Dumont JE, Van Sande J, Noguchi S. Oncogenic mutations in the thyrotropin receptor of autonomously functioning thyroid nodules in the Japanese population. Eur J Endocrinol 2002; 147: 287-291
- 24 Georgopoulos NA, Sykiotis GP, Sgourou A, Papachatzopoulou A, Markou KB, Kyriazopoulou V, Papavassiliou AG, Vagenakis AG. Autonomously functioning thyroid nodules in a former iodine-deficient area commonly harbor gain-of-function mutations in the thyrotropin signaling pathway. Eur J Endocrinol 2003; 149: 287-292
- 25 Tassi V, Di Cerbo A, Porcellini A, Papini E, Cisternino C, Crescenzi A, Scillitani A, Pizzuti A, Ratti A, Trischitta V, Avvedimento VE, Fenzi G, De Filippis V. Screening of thyrotropin receptor mutations by fine-needle aspiration biopsy in autonomous functioning thyroid nodules in multinodular goiters. Thyroid 1999; 9: 353-357
- 26 Tonacchera M, Chiovato L, Pinchera A, Agretti P, Fiore E, Cetani F, Rocchi R, Viacava P, Miccoli P, Vitti P. Hyperfunctioning thyroid nodules in toxic multinodular goiter share activating thyrotropin receptor mutations with solitary toxic adenoma. J Clin Endocrinol Metab 1998; 83: 492-498
- 27 Führer D, Holzapfel HP, Wonerow P, Scherbaum WA, Paschke R. Somatic mutations in the thyrotropin receptor gene and not in the Gs alpha protein gene in 31 toxic thyroid nodules. J Clin Endocrinol Metab 1997; 82: 3885-3891
- 28 O’Sullivan C, Barton CM, Staddon SL, Brown CL, Lemoine NR. Activating point mutations of the gsp oncogene in human thyroid adenomas. Mol Carcinog 1991; 4: 345-349
- 29 Parma J, Duprez L, Van Sande J, Hermans J, Rocmans P, Van Vliet G, Costagliola S, Rodien P, Dumont JE, Vassart G. Diversity and prevalence of somatic mutations in the thyrotropin receptor and Gs alpha genes as a cause of toxic thyroid adenomas. J Clin Endocrinol Metab 1997; 82: 2695-2701
- 30 Paschke R, Tonacchera M, Van Sande J, Parma J, Vassart G. Identification and functional characterization of two new somatic mutations causing constitutive activation of the thyrotropin receptor in hyperfunctioning autonomous adenomas of the thyroid. J Clin Endocrinol Metab 1994; 79: 1785-1789
- 31 Russo D, Arturi F, Suarez HG, Schlumberger M, Du Villard JA, Crocetti U, Filetti S. Thyrotropin receptor gene alterations in thyroid hyperfunctioning. J Clin Endocrinol Metab 1996; 81: 1548-1551
- 32 Palos-Paz F, Perez-Guerra O, Cameselle-Teijeiro J, Rueda-Chimeno C, Barreiro-Morandeira F, Lado-Abeal J, Galician Group for the Study of Toxic Multinodular Goitre. Araujo Vilar D, Argueso R, Barca O, Botana M, Cabezas-Agrícola JM, Catalina P, Dominguez Gerpe L, Fernandez T, Mato A, Nuño A, Penin M, Victoria B. Prevalence of mutations in TSHR, GNAS, PRKAR1A and RAS genes in a large series of toxic thyroid adenomas from Galicia, an iodine-deficient area in NW Spain. Eur J Endocrinol 2008; 159: 623-631
- 33 Porcellini A, Ciullo I, Laviola L, Amabile G, Fenzi G, Avvedimento VE. Novel mutations of thyrotropin receptor gene in thyroid hyperfunctioning adenomas. Rapid identification by fine needle aspiration biopsy. J Clin Endocrinol Metab 1994; 79: 657-661
- 34 Takeshita A, Nagayama Y, Yokoyama N, Ishikawa N, Ito K, Yamashita T, Obara T, Murakami Y, Kuma K, Takamatsu J. Rarity of oncogenic mutations in the thyrotropin receptor of autonomously functioning thyroid nodules in Japan. J Clin Endocrinol Metab 1995; 80: 2607-2611
- 35 Führer D, Kubisch C, Scheibler U, Lamesch P, Krohn K, Paschke R. The extracellular thyrotropin receptor domain is not a major candidate for mutations in toxic thyroid nodules. Thyroid 1998; 8: 997-1001
- 36 Salmon I, Kiss R, Franc B, Gasperin P, Heimann R, Pasteels JL, Verhest A. Comparison of morphonuclear features in normal, benign and neoplastic thyroid tissue by digital cell image analysis. Anal Quant Cytol Histol 1992; 14: 47-54
- 37 Salmon I, Gasperin P, Pasteels JL, Heimann R, Kiss R. Relationship between histopathologic typing and morphonuclear assessments of 238 thyroid lesions. Digital cell image analysis performed on Feulgen-stained nuclei from formalin-fixed, paraffin-embedded materials. Am J Clin Pathol 1992; 97: 776-786
- 38 Hegedüs L, Paschke R, Krohn K, Bonnema SJ. In: Endocrinology. 6th edition James JL, DeGroot eds Philadelphia: Saunders Elsevier; 2010: 1636-1649
- 39 Cetani F, Tonacchera M, Vassart G. Differential effects of NaCl concentration on the constitutive activity of the thyrotropin and the luteinizing hormone/chorionic gonadotropin receptors. FEBS Lett 1996; 378: 27-31