1. OTX2 Mutation in a Patient with Anophthalmia, Short Stature, and Partial Growth Hormone Deficiency: Functional Studies Using the IRBP, HESX1, and POU1F1 Promoters
- Author
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Naoko Sato, Tsutomu Ogata, Sumito Dateki, Maki Fukami, K. Muroya, and Masanori Adachi
- Subjects
medicine.medical_specialty ,Pituitary gland ,Endocrinology, Diabetes and Metabolism ,DNA Mutational Analysis ,Clinical Biochemistry ,Mutant ,Context (language use) ,Biochemistry ,Short stature ,Frameshift mutation ,Transactivation ,Endocrinology ,Internal medicine ,medicine ,Humans ,Point Mutation ,Tissue Distribution ,Transgenes ,Child ,Eye Proteins ,Promoter Regions, Genetic ,Growth Disorders ,Homeodomain Proteins ,Otx Transcription Factors ,Anophthalmia ,Human Growth Hormone ,business.industry ,Biochemistry (medical) ,Anophthalmos ,medicine.disease ,Retinol-Binding Proteins ,medicine.anatomical_structure ,Mutation testing ,Female ,medicine.symptom ,Transcription Factor Pit-1 ,business ,Follow-Up Studies - Abstract
OTX2 is a transcription factor gene essential for eye development. Although recent studies suggest the involvement of OTX2 in pituitary function, there is no report demonstrating a positive role of OTX2 in the pituitary function.The objective of the study was to report the results of functional studies indicating the relevance of OTX2 to pituitary function.A Japanese female patient with bilateral anophthalmia was found to have short stature (height, -3.3 sd) and isolated partial GH deficiency (peak serum GH 3.1 and 9.7 mug/liter after insulin and arginine stimulations, respectively; serum IGF-I 37 ng/ml) at 3 yr 9 months of age. Magnetic resonance imaging delineated apparently normal pituitary gland.Mutation analysis showed a de novo heterozygous frameshift mutation (c.402insC) that is predicted to retain the homeodomain but lose the transactivation domain. Functional studies revealed that the wild-type and mutant OTX2 proteins localized to the nucleus and bound to the target sequences within the IRBP (interstitial retinoid-binding protein), HESX1 (HESX homeobox 1), and POU1F1 promoters. Furthermore, the wild-type OTX2 protein markedly transactivated the promoters of IRBP ( approximately 27-fold), HESX1 ( approximately 4.5-fold), and POU1F1 ( approximately 19-fold), whereas the mutant OTX2 protein barely retained the transactivation activities and had no dominant-negative effects.The results provide direct evidence for OTX2 being involved in the pituitary function. It is likely that the heterozygous severe OTX2 loss-of-function mutation caused GH deficiency and short stature, primarily because of decreased transactivation function for HESX1 and POU1F1.
- Published
- 2008