Identification and Functional Analysis of Novel Human Growth Hormone Secretagogue Receptor (GHSR) Gene Mutations in Japanese Subjects with Short Stature
Context:Short stature (SS) is a multifactorial developmental condition with a significant genetic component. Recent studies have revealed that rare deleterious mutations in the GH-secretagogue receptor type 1A (GHSR1A) gene could be a cause of familial SS or GH deficiency.Objective:The aim of this s...
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| Published in | The journal of clinical endocrinology and metabolism Vol. 96; no. 2; pp. E373 - E378 |
|---|---|
| Main Authors | , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
Oxford University Press
01.02.2011
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| Abstract | Context:Short stature (SS) is a multifactorial developmental condition with a significant genetic component. Recent studies have revealed that rare deleterious mutations in the GH-secretagogue receptor type 1A (GHSR1A) gene could be a cause of familial SS or GH deficiency.Objective:The aim of this study was to evaluate the contribution of GHSR1A mutations to the molecular mechanism underlying SS in Japanese subjects.Methods:We performed mutational screening of the GHSR1A gene in 127 unrelated Japanese SS patients diagnosed with either isolated GH deficiency or idiopathic SS. Identified mutations were analyzed in 188 control subjects, and their functional properties were examined in a heterologous expression system.Results:Four novel heterozygous GHSR1A mutations were identified (ΔQ36, P108L, C173R, and D246A). Expression studies demonstrated that these mutations had varying functional consequences: 1) all mutations showed a loss-of-function effect on the constitutive signaling activity of GHSR1A, but the degree of loss varied widely; 2) C173R caused intracellular retention of the mutated protein, resulting in total loss of receptor function; 3) P108L resulted in a large decrease in binding affinity to ghrelin, without affecting its surface expression; 4) D246A uniquely impaired agonist- and inverse agonist-stimulated receptor signaling; and 5) ΔQ36 showed only a subtle reduction in constitutive activity. The cumulative frequency of these putative functional mutations was significantly higher in the patient group than in controls (4.72 vs. 0.53%; P = 0.019; odds ratio = 9.28; 95% confidence interval, 1.10–78.0).Conclusions:Our results suggest that GHSR1A mutations contribute to the genetic etiology of SS in the Japanese population. |
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| AbstractList | Short stature (SS) is a multifactorial developmental condition with a significant genetic component. Recent studies have revealed that rare deleterious mutations in the GH-secretagogue receptor type 1A (GHSR1A) gene could be a cause of familial SS or GH deficiency.
The aim of this study was to evaluate the contribution of GHSR1A mutations to the molecular mechanism underlying SS in Japanese subjects.
We performed mutational screening of the GHSR1A gene in 127 unrelated Japanese SS patients diagnosed with either isolated GH deficiency or idiopathic SS. Identified mutations were analyzed in 188 control subjects, and their functional properties were examined in a heterologous expression system.
Four novel heterozygous GHSR1A mutations were identified (ΔQ36, P108L, C173R, and D246A). Expression studies demonstrated that these mutations had varying functional consequences: 1) all mutations showed a loss-of-function effect on the constitutive signaling activity of GHSR1A, but the degree of loss varied widely; 2) C173R caused intracellular retention of the mutated protein, resulting in total loss of receptor function; 3) P108L resulted in a large decrease in binding affinity to ghrelin, without affecting its surface expression; 4) D246A uniquely impaired agonist- and inverse agonist-stimulated receptor signaling; and 5) ΔQ36 showed only a subtle reduction in constitutive activity. The cumulative frequency of these putative functional mutations was significantly higher in the patient group than in controls (4.72 vs. 0.53%; P = 0.019; odds ratio = 9.28; 95% confidence interval, 1.10-78.0).
Our results suggest that GHSR1A mutations contribute to the genetic etiology of SS in the Japanese population. CONTEXT: Short stature (SS) is a multifactorial developmental condition with a significant genetic component. Recent studies have revealed that rare deleterious mutations in the GH-secretagogue receptor type 1A (GHSR1A) gene could be a cause of familial SS or GH deficiency. OBJECTIVE: The aim of this study was to evaluate the contribution of GHSR1A mutations to the molecular mechanism underlying SS in Japanese subjects. METHODS: We performed mutational screening of the GHSR1A gene in 127 unrelated Japanese SS patients diagnosed with either isolated GH deficiency or idiopathic SS. Identified mutations were analyzed in 188 control subjects, and their functional properties were examined in a heterologous expression system. RESULTS: Four novel heterozygous GHSR1A mutations were identified ( Delta Q36, P108L, C173R, and D246A). Expression studies demonstrated that these mutations had varying functional consequences: 1) all mutations showed a loss-of-function effect on the constitutive signaling activity of GHSR1A, but the degree of loss varied widely; 2) C173R caused intracellular retention of the mutated protein, resulting in total loss of receptor function; 3) P108L resulted in a large decrease in binding affinity to ghrelin, without affecting its surface expression; 4) D246A uniquely impaired agonist- and inverse agonist-stimulated receptor signaling; and 5) Delta Q36 showed only a subtle reduction in constitutive activity. The cumulative frequency of these putative functional mutations was significantly higher in the patient group than in controls (4.72 vs. 0.53%; P = 0.019; odds ratio = 9.28; 95% confidence interval, 1.10-78.0). CONCLUSIONS: Our results suggest that GHSR1A mutations contribute to the genetic etiology of SS in the Japanese population. Context:Short stature (SS) is a multifactorial developmental condition with a significant genetic component. Recent studies have revealed that rare deleterious mutations in the GH-secretagogue receptor type 1A (GHSR1A) gene could be a cause of familial SS or GH deficiency.Objective:The aim of this study was to evaluate the contribution of GHSR1A mutations to the molecular mechanism underlying SS in Japanese subjects.Methods:We performed mutational screening of the GHSR1A gene in 127 unrelated Japanese SS patients diagnosed with either isolated GH deficiency or idiopathic SS. Identified mutations were analyzed in 188 control subjects, and their functional properties were examined in a heterologous expression system.Results:Four novel heterozygous GHSR1A mutations were identified (ΔQ36, P108L, C173R, and D246A). Expression studies demonstrated that these mutations had varying functional consequences: 1) all mutations showed a loss-of-function effect on the constitutive signaling activity of GHSR1A, but the degree of loss varied widely; 2) C173R caused intracellular retention of the mutated protein, resulting in total loss of receptor function; 3) P108L resulted in a large decrease in binding affinity to ghrelin, without affecting its surface expression; 4) D246A uniquely impaired agonist- and inverse agonist-stimulated receptor signaling; and 5) ΔQ36 showed only a subtle reduction in constitutive activity. The cumulative frequency of these putative functional mutations was significantly higher in the patient group than in controls (4.72 vs. 0.53%; P = 0.019; odds ratio = 9.28; 95% confidence interval, 1.10–78.0).Conclusions:Our results suggest that GHSR1A mutations contribute to the genetic etiology of SS in the Japanese population. Short stature (SS) is a multifactorial developmental condition with a significant genetic component. Recent studies have revealed that rare deleterious mutations in the GH-secretagogue receptor type 1A (GHSR1A) gene could be a cause of familial SS or GH deficiency.CONTEXTShort stature (SS) is a multifactorial developmental condition with a significant genetic component. Recent studies have revealed that rare deleterious mutations in the GH-secretagogue receptor type 1A (GHSR1A) gene could be a cause of familial SS or GH deficiency.The aim of this study was to evaluate the contribution of GHSR1A mutations to the molecular mechanism underlying SS in Japanese subjects.OBJECTIVEThe aim of this study was to evaluate the contribution of GHSR1A mutations to the molecular mechanism underlying SS in Japanese subjects.We performed mutational screening of the GHSR1A gene in 127 unrelated Japanese SS patients diagnosed with either isolated GH deficiency or idiopathic SS. Identified mutations were analyzed in 188 control subjects, and their functional properties were examined in a heterologous expression system.METHODSWe performed mutational screening of the GHSR1A gene in 127 unrelated Japanese SS patients diagnosed with either isolated GH deficiency or idiopathic SS. Identified mutations were analyzed in 188 control subjects, and their functional properties were examined in a heterologous expression system.Four novel heterozygous GHSR1A mutations were identified (ΔQ36, P108L, C173R, and D246A). Expression studies demonstrated that these mutations had varying functional consequences: 1) all mutations showed a loss-of-function effect on the constitutive signaling activity of GHSR1A, but the degree of loss varied widely; 2) C173R caused intracellular retention of the mutated protein, resulting in total loss of receptor function; 3) P108L resulted in a large decrease in binding affinity to ghrelin, without affecting its surface expression; 4) D246A uniquely impaired agonist- and inverse agonist-stimulated receptor signaling; and 5) ΔQ36 showed only a subtle reduction in constitutive activity. The cumulative frequency of these putative functional mutations was significantly higher in the patient group than in controls (4.72 vs. 0.53%; P = 0.019; odds ratio = 9.28; 95% confidence interval, 1.10-78.0).RESULTSFour novel heterozygous GHSR1A mutations were identified (ΔQ36, P108L, C173R, and D246A). Expression studies demonstrated that these mutations had varying functional consequences: 1) all mutations showed a loss-of-function effect on the constitutive signaling activity of GHSR1A, but the degree of loss varied widely; 2) C173R caused intracellular retention of the mutated protein, resulting in total loss of receptor function; 3) P108L resulted in a large decrease in binding affinity to ghrelin, without affecting its surface expression; 4) D246A uniquely impaired agonist- and inverse agonist-stimulated receptor signaling; and 5) ΔQ36 showed only a subtle reduction in constitutive activity. The cumulative frequency of these putative functional mutations was significantly higher in the patient group than in controls (4.72 vs. 0.53%; P = 0.019; odds ratio = 9.28; 95% confidence interval, 1.10-78.0).Our results suggest that GHSR1A mutations contribute to the genetic etiology of SS in the Japanese population.CONCLUSIONSOur results suggest that GHSR1A mutations contribute to the genetic etiology of SS in the Japanese population. |
| Author | Shigematsu, Yosuke Kimura, Chizuko Kinouchi, Atsuko Itakura, Mitsuo Sakamoto, Yukiko Inoue, Hiroshi Horikawa, Reiko Ogata, Tsutomu Kangawa, Natsumi Fujieda, Kenji |
| Author_xml | – sequence: 1 givenname: Hiroshi surname: Inoue fullname: Inoue, Hiroshi email: hinoue@genome.tokushima-u.ac.jp organization: 1Diabetes Therapeutics and Research Center (H.I.), The University of Tokushima, Tokushima 770-8503, Japan – sequence: 2 givenname: Natsumi surname: Kangawa fullname: Kangawa, Natsumi organization: 2Division of Genetic Information (H.I., N.K., A.K., Y.S., C.K., M.I.), Institute for Genome Research, The University of Tokushima, Tokushima 770-8503, Japan – sequence: 3 givenname: Atsuko surname: Kinouchi fullname: Kinouchi, Atsuko organization: 2Division of Genetic Information (H.I., N.K., A.K., Y.S., C.K., M.I.), Institute for Genome Research, The University of Tokushima, Tokushima 770-8503, Japan – sequence: 4 givenname: Yukiko surname: Sakamoto fullname: Sakamoto, Yukiko organization: 2Division of Genetic Information (H.I., N.K., A.K., Y.S., C.K., M.I.), Institute for Genome Research, The University of Tokushima, Tokushima 770-8503, Japan – sequence: 5 givenname: Chizuko surname: Kimura fullname: Kimura, Chizuko organization: 2Division of Genetic Information (H.I., N.K., A.K., Y.S., C.K., M.I.), Institute for Genome Research, The University of Tokushima, Tokushima 770-8503, Japan – sequence: 6 givenname: Reiko surname: Horikawa fullname: Horikawa, Reiko organization: 3Division of Endocrinology (R.H.), National Medical Center for Children and Mothers, Tokyo 157-8535, Japan – sequence: 7 givenname: Yosuke surname: Shigematsu fullname: Shigematsu, Yosuke organization: 4Fukui University Hospital (Y.S.), Fukui 910-8507, Japan – sequence: 8 givenname: Mitsuo surname: Itakura fullname: Itakura, Mitsuo organization: 2Division of Genetic Information (H.I., N.K., A.K., Y.S., C.K., M.I.), Institute for Genome Research, The University of Tokushima, Tokushima 770-8503, Japan – sequence: 9 givenname: Tsutomu surname: Ogata fullname: Ogata, Tsutomu organization: 5Department of Endocrinology and Metabolism (T.O.), National Research Institute for Child Health and Development, Tokyo 157-8535, Japan – sequence: 10 givenname: Kenji surname: Fujieda fullname: Fujieda, Kenji organization: 6Department of Pediatrics (K.F.), Asahikawa Medical Collage, Asahikawa 078-8510, Japan |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/21084395$$D View this record in MEDLINE/PubMed |
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| Copyright | Copyright © 2011 by The Endocrine Society 2011 Copyright © 2011 by The Endocrine Society |
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| SubjectTerms | Blotting, Western Body height Body Height - genetics Body Height - physiology Cohort Studies DNA Mutational Analysis DNA, Complementary - biosynthesis DNA, Complementary - genetics Dwarfism - genetics Enzyme-Linked Immunosorbent Assay Etiology Ghrelin Ghrelin - metabolism Growth Disorders - genetics Growth hormone Growth hormones Humans Intracellular signalling Inverse agonists Japan Molecular modelling Mutation Mutation - genetics Mutation - physiology Point mutation Population genetics Receptor mechanisms Receptors, Ghrelin - genetics Reverse Transcriptase Polymerase Chain Reaction Signal Transduction - genetics Subcellular Fractions - metabolism Transfection |
| Title | Identification and Functional Analysis of Novel Human Growth Hormone Secretagogue Receptor (GHSR) Gene Mutations in Japanese Subjects with Short Stature |
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