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Hyun Ha Chang  (Chang HH) 2 Articles
A Study of Point Mutations of Human Insulin-like Growth Factor - 1 (IGF - 1) Promoter Gene in Familial Short Stature (FSS) Patients.
In Myung Yang, Jeong Taek Woo, Sung Woon Kim, Jin Woo Kim, Young Seol Kim, Young Kil Choi, Hyun Ha Chang, In Kyung Jung, Tae Kwan Park
J Korean Endocr Soc. 1996;11(4):500-509.   Published online November 7, 2019
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Background
FSS is a normal variants in Korea, but some of them had defect of noctumal GH pulse i.e. neurosecretory dysfunction. Although Korean children had strikingly got higher final height in the last decade. We are interested in what kinds of differences were existed in FSS group. Previous study showed theres no difference of GH related biochemical markers between normal and FSS group, like IGF-I, IGFBP-3 etc. We analyzed molecular difference in FSS group. Methods: We screened 23 FSS patients and 16 normal controls to IGF-I gene prornoter region with PCR-SSCP (single strand conformation polymorphisrn) method and sequenced 1 FSS patients who had abnormal SSCP band. Results: We found 1 out of 23 patients with abnormal SSCP band (none for 16 controls). Their IGF-I promoter gene were sequenced with modified Maxam-Gilbert method. One subject had 2 point mutations(+8 and +74). Conclusion: We found point mutations of IGF-I promoter in FSS group, This position was regarded as HNF(hepatic nuclear factor)-3 binding sites. We needed more study for the detection of its biological function according io linear growth with in vivo and in vitro study.
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Expression of Exon 1 and 6 of Indulin-like Growth Factor - 1 (IGF - 1) Gene in Thyroid Tissues.
Sung Woon Kim, Hyun Ha Chang, In Kyung Jung, Jeong Taek Woo, In Myung Yang, Jin Woo Kim, Soung Seol Kim, Young Kil Choi
J Korean Endocr Soc. 1996;11(4):409-417.   Published online November 7, 2019
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  • 20 Download
AbstractAbstract PDF
Background
Goiter has been a common problem in the thyroid disease. The exact mechanism of goiter had not been clarified yet, but some goiters were increased with TSH(thyrotropin releasing hormone) dependent manner. TSH might be a major influencing factor for increasing size of goiter(goitrogen) and theres many cofactors those influenced to goiter size. One of the rnost prominent growth factor as a goitrogen is a IGF-I(insulin-like growth factor-I). IGF-I play a great role as a cofactor of goitrogen with TSH. This study, therefore, is aimed to investigate intracellular activation of IGF-I gene promoter in the surgical specimens of thyroid tumor. Methods: We used surgical specimen of various thyroid tissues from normal to malignant along its cell nature. Actually we used normal liver tissue as a IGF-I control tissue, normal thyroid, benign adenoma, and papillary thyroid cancer tissue with its malignat nature. We checked Mrna expression of whole IGF-I and IGF-I exon 6 by Northern blot method, and IGF-I, promoter 1 expression by RT-PCR-transcription method. Autoradiographied signals were analysed with densitometer. Results: We found whole IGF-I mRNAs were expressed with alternate splicing in exon 1, 2 and exon 4, 5 respectively. Striking events of IGF-I transcription were multiple tranascription initiatian in Pl and P2, and 3 sites for polyadenylation in exon 6. Four or more Mrna bands in Northern blot analysis of IGF-I(0.8, 1.4, 4.2, and 7.8kb) were noted. In low molecular weight IGF-I Mrna did not change their signal intensity with tissues, but exan 6(7.8kb) signals were significantly increased to its hepatic expression levels in malignant tissue. IGF-I, exon 1 expression by RT-PCR-T7 transcription was strikingly increased in thyroid cancer tissue, but exon 6 expression was not a great expession. Conclusion: One possible guess for this expression discrepancy of each exon may be originated from different Mrna degradation of each IGF-I signals. We need more preeise experiment for Mrna degradation speed of IGF-I.
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