Details Of Published TSH Receptor Mutation
Asp 633 Glu
c1899C>AConstitutively Activating TSH Receptor Mutation
Type
gain
Manifestation
somatic
Exon
10
Molecular Characteristics:
default
Clinical Features:
based on 14 hot nodules investigated by
Porcellini et al. 1994, Parma et al. 1997, Tonacchera et al. 1998 and 2000, Fuhrer et al. 1997, Georgopoulos et al. 2003, Trulzsch et al. 2001, Sancak et al. 2011, Palos-Paz et al. 2008 and Nishihara et al. 2009
Porcellini et al. 1994, Parma et al. 1997, Tonacchera et al. 1998 and 2000, Fuhrer et al. 1997, Georgopoulos et al. 2003, Trulzsch et al. 2001, Sancak et al. 2011, Palos-Paz et al. 2008 and Nishihara et al. 2009
Treatment:
default
Functional Characteristics:
cAMP
(basal)
(basal)
cAMP
(TSH)
(TSH)
IP
(basal)
(basal)
IP
(TSH)
(TSH)
TSH-Binding
Cell Surface Expression
Prevalence
LRA
Ref
3.3-3.9
1.0
0.9-1.3
0.6
-
0.7
14
5,7
Legend:
cAMP (basal): basal in vitro cAMP production of mutant over wild-type TSHR
cAMP (TSH): maximal in vitro cAMP production of mutant over wild-type TSHR
IP (basal): basal in vitro IP production of mutant over wild-type TSHR
IP (TSH): maximal in vitro IP production of mutant over wild-type TSHR
TSH-binding: maximal TSH-binding compared to the wild-type TSHR
Cell surface expression: cell surface expression of mutant compared to WT-TSHR
LRA: linear regression analysis (LRA) of constitutive activity as a function of TSHR expression determined by 125I-bTSH binding or FACS analysis compared to the wild-type TSHR
Prevalence: Prevalence of (somatic and germline) activating mutations*
Ref: Reference for functional characterization
Child: Found in children.
Reference 1:
Parma et al.
J. Clin. Endocrinol. Metab. 82: 2695-2701
Diversity and prevalence of somatic mutations in the thyrotropin receptor and Gs alpha genes as a cause of toxic thyroid adenomas
1997
Reference 2:
Porcellini et al.
J. Clin. Endocrinol. Metab. 79: 657-661
Novel mutations of thyrotropin receptor gene in thyroid hyperfunctioning adenomas. Rapid identification by fine needle aspiration biopsy
1994
Reference 3:
Fuhrer et al.
J. Clin. Endocrinol. Metab. 82: 3885-3891
Somatic mutations in the thyrotropin receptor gene and not in the Gs alpha protein gene in 31 toxic thyroid nodules
1997
Reference 4:
Tonacchera et al.
J. Clin. Endocrinol. Metab. 83: 492-498
Hyperfunctioning thyroid nodules in toxic multinodular goiter share activating thyrotropin receptor mutations with solitary toxic adenoma
1998
Reference 5:
Kosugi et al.
Eur. J. Endocrinol. 143: 471-477
A novel activating mutation in the thyrotropin receptor gene in an autonomously functioning thyroid nodule developed by a Japanese patient
2000
Reference 6:
TrĆ¼lzsch et al.
J. Mol. Med. 78: 684-691
Detection of thyroid-stimulating hormone receptor and Gsalpha mutations: in 75 toxic thyroid nodules by denaturing gradient gel electrophoresis.
2001
Reference 7:
Kosugi et al.
FEBS Lett 356: 291-294
Constitutive activation of cyclic AMP but not phosphatidylinositol signaling caused by four mutations in the 6th transmembrane helix of the human thyrotropin receptor.
1994
Reference 8:
Tonacchera et al.
J Clin Endocrinol Metab. 85: 2270-4
Activating thyrotropin receptor mutations are present in nonadenomatous hyperfunctioning nodules of toxic or autonomous multinodular goiter.
2000
Reference 9:
Palos-Paz et al.
Eur J Endocrinol. 159: 623-31
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.
2008
Reference 10:
Georgopoulos et al.
Eur J Endocrinol. 149: 287-92
Autonomously functioning thyroid nodules in a former iodine-deficient area commonly harbor gain-of-function mutations in the thyrotropin signaling pathway.
2003
Reference 11:
Sancak et al.
Horm Metab Res. 43:562-8
High Prevalence of TSHR/Gsalpha Mutation-negative Clonal Hot Thyroid Nodules (HNs) in a Turkish Cohort
2011
Reference 12:
Nishihara et al.
Endocr J. 56:791-8
Prevalence of TSH receptor and Gsalpha mutations in 45 autonomously functioning thyroid nodules in Japan.
2009