Short stature in two siblings heterozygous for a novel bioinactive GH mutant (GH-P59S) suggesting that the mutant also affects secretion of the wild-type GH

Vibor Petkovic; Maria Consolata Miletta; Annemieke M. Boot; Monique Losekoot; Christa E. Flueck; Amit V. Pandey; Andree Eble; Jan Maarten Wit; Primus E. Mullis

doi:10.1530/EJE-12-0847

Short stature in two siblings heterozygous for a novel bioinactive GH mutant (GH-P59S) suggesting that the mutant also affects secretion of the wild-type GH

Vibor Petkovic^*
, Maria Consolata Miletta
, Annemieke M. Boot
, Monique Losekoot
, Christa E. Flueck
, Amit V. Pandey
, Andree Eble
, Jan Maarten Wit
, Primus E. Mullis

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

14 Citations (Scopus)

Abstract

Objective: Short stature caused by biologically inactive GH is clinically characterized by lack of GH action despite normal-high secretion of GH, pathologically low IGF1 concentrations and marked catch-up growth on GH replacement therapy.

Design and methods: Adopted siblings (girl and a boy) of unknown family history were referred for assessment of short stature (-4.5 and -5.6 SDS) at the age of 10 and 8.1 years respectively. They had delayed bone ages (6.8 and 4.5 years), normal GH peaks at stimulation tests, and severely reduced IGF1 concentrations (-3.5 and -4.0 SDS). Genetic analysis of the GH1 gene showed a heterozygous P59S mutation at position involved in binding to GH receptor (GHR).

Results: Isoelectric focusing analysis of secreted GH in patient serum revealed the presence of higher GH-P59S peak compared with that of wt-GH. Furthermore, computational simulation of GH-P59S binding to GHR suggested problems in correct binding of the mutant to the GHR. In vitro GHR binding studies revealed reduced binding affinity of GH-P59S for GHR (IC50, 30 ng/ml) when compared with the wt-GH (IC50, 11.8 ng/ml) while a significantly decreased ability of the mutant to activate the Jak2/Stat5 signaling pathway was observed at physiological concentrations of 25-100 ng/ml.

Conclusions: The clinical and biochemical data of our patients support the diagnosis of partial bioinactive GH syndrome. The higher amount of GH-P59S secreted in their circulation combined with its impact on the wt-GH function on GHR binding and signaling may alter GHR responsiveness to wt-GH and could ultimately explain severe short stature found in our patients. European Journal of Endocrinology 168 K35-K43

Original language	English
Pages (from-to)	K35-K43
Number of pages	9
Journal	European Journal of Endocrinology
Volume	168
Issue number	3
DOIs	https://doi.org/10.1530/EJE-12-0847
Publication status	Published - Mar-2013

Keywords

GROWTH-HORMONE-RECEPTOR
SCANNING MUTAGENESIS
EXTRACELLULAR DOMAIN
PROTEIN STRUCTURES
CRYSTAL-STRUCTURE
MOLECULAR-BASIS
GENE MUTATION
DEFICIENCY
CHILDREN
FAILURE

Access to Document

10.1530/EJE-12-0847

Handle.net

Persistent link

Cite this

Petkovic, V., Miletta, M. C., Boot, A. M., Losekoot, M., Flueck, C. E., Pandey, A. V., Eble, A., Wit, J. M., & Mullis, P. E. (2013). Short stature in two siblings heterozygous for a novel bioinactive GH mutant (GH-P59S) suggesting that the mutant also affects secretion of the wild-type GH. European Journal of Endocrinology, 168(3), K35-K43. https://doi.org/10.1530/EJE-12-0847

@article{93c622685b0346c99d646844f04fe12e,

title = "Short stature in two siblings heterozygous for a novel bioinactive GH mutant (GH-P59S) suggesting that the mutant also affects secretion of the wild-type GH",

abstract = "Objective: Short stature caused by biologically inactive GH is clinically characterized by lack of GH action despite normal-high secretion of GH, pathologically low IGF1 concentrations and marked catch-up growth on GH replacement therapy.Design and methods: Adopted siblings (girl and a boy) of unknown family history were referred for assessment of short stature (-4.5 and -5.6 SDS) at the age of 10 and 8.1 years respectively. They had delayed bone ages (6.8 and 4.5 years), normal GH peaks at stimulation tests, and severely reduced IGF1 concentrations (-3.5 and -4.0 SDS). Genetic analysis of the GH1 gene showed a heterozygous P59S mutation at position involved in binding to GH receptor (GHR).Results: Isoelectric focusing analysis of secreted GH in patient serum revealed the presence of higher GH-P59S peak compared with that of wt-GH. Furthermore, computational simulation of GH-P59S binding to GHR suggested problems in correct binding of the mutant to the GHR. In vitro GHR binding studies revealed reduced binding affinity of GH-P59S for GHR (IC50, 30 ng/ml) when compared with the wt-GH (IC50, 11.8 ng/ml) while a significantly decreased ability of the mutant to activate the Jak2/Stat5 signaling pathway was observed at physiological concentrations of 25-100 ng/ml.Conclusions: The clinical and biochemical data of our patients support the diagnosis of partial bioinactive GH syndrome. The higher amount of GH-P59S secreted in their circulation combined with its impact on the wt-GH function on GHR binding and signaling may alter GHR responsiveness to wt-GH and could ultimately explain severe short stature found in our patients. European Journal of Endocrinology 168 K35-K43",

keywords = "GROWTH-HORMONE-RECEPTOR, SCANNING MUTAGENESIS, EXTRACELLULAR DOMAIN, PROTEIN STRUCTURES, CRYSTAL-STRUCTURE, MOLECULAR-BASIS, GENE MUTATION, DEFICIENCY, CHILDREN, FAILURE",

author = "Vibor Petkovic and Miletta, \{Maria Consolata\} and Boot, \{Annemieke M.\} and Monique Losekoot and Flueck, \{Christa E.\} and Pandey, \{Amit V.\} and Andree Eble and Wit, \{Jan Maarten\} and Mullis, \{Primus E.\}",

year = "2013",

month = mar,

doi = "10.1530/EJE-12-0847",

language = "English",

volume = "168",

pages = "K35--K43",

journal = "European Journal of Endocrinology",

issn = "0804-4643",

publisher = "BIOSCIENTIFICA LTD",

number = "3",

}

Short stature in two siblings heterozygous for a novel bioinactive GH mutant (GH-P59S) suggesting that the mutant also affects secretion of the wild-type GH. / Petkovic, Vibor; Miletta, Maria Consolata; Boot, Annemieke M. et al.
In: European Journal of Endocrinology, Vol. 168, No. 3, 03.2013, p. K35-K43.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Short stature in two siblings heterozygous for a novel bioinactive GH mutant (GH-P59S) suggesting that the mutant also affects secretion of the wild-type GH

AU - Petkovic, Vibor

AU - Miletta, Maria Consolata

AU - Boot, Annemieke M.

AU - Losekoot, Monique

AU - Flueck, Christa E.

AU - Pandey, Amit V.

AU - Eble, Andree

AU - Wit, Jan Maarten

AU - Mullis, Primus E.

PY - 2013/3

Y1 - 2013/3

N2 - Objective: Short stature caused by biologically inactive GH is clinically characterized by lack of GH action despite normal-high secretion of GH, pathologically low IGF1 concentrations and marked catch-up growth on GH replacement therapy.Design and methods: Adopted siblings (girl and a boy) of unknown family history were referred for assessment of short stature (-4.5 and -5.6 SDS) at the age of 10 and 8.1 years respectively. They had delayed bone ages (6.8 and 4.5 years), normal GH peaks at stimulation tests, and severely reduced IGF1 concentrations (-3.5 and -4.0 SDS). Genetic analysis of the GH1 gene showed a heterozygous P59S mutation at position involved in binding to GH receptor (GHR).Results: Isoelectric focusing analysis of secreted GH in patient serum revealed the presence of higher GH-P59S peak compared with that of wt-GH. Furthermore, computational simulation of GH-P59S binding to GHR suggested problems in correct binding of the mutant to the GHR. In vitro GHR binding studies revealed reduced binding affinity of GH-P59S for GHR (IC50, 30 ng/ml) when compared with the wt-GH (IC50, 11.8 ng/ml) while a significantly decreased ability of the mutant to activate the Jak2/Stat5 signaling pathway was observed at physiological concentrations of 25-100 ng/ml.Conclusions: The clinical and biochemical data of our patients support the diagnosis of partial bioinactive GH syndrome. The higher amount of GH-P59S secreted in their circulation combined with its impact on the wt-GH function on GHR binding and signaling may alter GHR responsiveness to wt-GH and could ultimately explain severe short stature found in our patients. European Journal of Endocrinology 168 K35-K43

AB - Objective: Short stature caused by biologically inactive GH is clinically characterized by lack of GH action despite normal-high secretion of GH, pathologically low IGF1 concentrations and marked catch-up growth on GH replacement therapy.Design and methods: Adopted siblings (girl and a boy) of unknown family history were referred for assessment of short stature (-4.5 and -5.6 SDS) at the age of 10 and 8.1 years respectively. They had delayed bone ages (6.8 and 4.5 years), normal GH peaks at stimulation tests, and severely reduced IGF1 concentrations (-3.5 and -4.0 SDS). Genetic analysis of the GH1 gene showed a heterozygous P59S mutation at position involved in binding to GH receptor (GHR).Results: Isoelectric focusing analysis of secreted GH in patient serum revealed the presence of higher GH-P59S peak compared with that of wt-GH. Furthermore, computational simulation of GH-P59S binding to GHR suggested problems in correct binding of the mutant to the GHR. In vitro GHR binding studies revealed reduced binding affinity of GH-P59S for GHR (IC50, 30 ng/ml) when compared with the wt-GH (IC50, 11.8 ng/ml) while a significantly decreased ability of the mutant to activate the Jak2/Stat5 signaling pathway was observed at physiological concentrations of 25-100 ng/ml.Conclusions: The clinical and biochemical data of our patients support the diagnosis of partial bioinactive GH syndrome. The higher amount of GH-P59S secreted in their circulation combined with its impact on the wt-GH function on GHR binding and signaling may alter GHR responsiveness to wt-GH and could ultimately explain severe short stature found in our patients. European Journal of Endocrinology 168 K35-K43

KW - GROWTH-HORMONE-RECEPTOR

KW - SCANNING MUTAGENESIS

KW - EXTRACELLULAR DOMAIN

KW - PROTEIN STRUCTURES

KW - CRYSTAL-STRUCTURE

KW - MOLECULAR-BASIS

KW - GENE MUTATION

KW - DEFICIENCY

KW - CHILDREN

KW - FAILURE

U2 - 10.1530/EJE-12-0847

DO - 10.1530/EJE-12-0847

M3 - Article

SN - 0804-4643

VL - 168

SP - K35-K43

JO - European Journal of Endocrinology

JF - European Journal of Endocrinology

IS - 3

ER -

Short stature in two siblings heterozygous for a novel bioinactive GH mutant (GH-P59S) suggesting that the mutant also affects secretion of the wild-type GH

Abstract

Keywords

Access to Document

Handle.net

Fingerprint

Cite this