CEDIE   05498
CENTRO DE INVESTIGACIONES ENDOCRINOLOGICAS "DR. CESAR BERGADA"
Unidad Ejecutora - UE
artículos
Título:
Type IA Isolated Growth Hormone Deficiency (IGHD) resulting from compound heterozygous deletions of 6.7 and 7.6 Kb at the GH1 gene locus 2
Autor/es:
KESELMAN A; SCAGLIA P; RODRIGUEZ PRIETO MS; BALLERINI MG; RODRIGUEZ ME; ROPELATO MG; BERGADÀ I; JASPER H; DOMENÉ H
Revista:
ARQUIVOS BRASILEIROS DE ENDOCRINOLOGIA E METABOLOGIA
Editorial:
SBEM-SOC BRASIL ENDOCRINOLOGIA & METABOLOGIA
Referencias:
Año: 2012 vol. 56 p. 558 - 563
ISSN:
0004-2730
Resumen:
Isolated growth hormone deficiency (IGHD) may result from deletions/mutations in either GH1GH1
or GHRHR genes. The objective of this study was to characterize the molecular defect in a girl
presenting IGHD. The patient was born at 41 weeks of gestation from non-consanguineous parents.
Clinical and biochemical evaluation included anthropometric measurements, evaluation
of pituitary function, IGF-I and IGFBP-3 levels. Molecular characterization was performed by
PCR amplification of GH1 gene and SmaI digestion of two homologous fragments flanking the
gene, using genomic DNA from the patient and her parents as templates. At 1.8 years of age the
patient presented severe growth retardation (height 61.2 cm, -7.4 SDS), truncal obesity, frontal
bossing, doll face, and acromicria. MRI showed pituitary hypoplasia. Laboratory findings confirmed
IGHD. GH1 gene could not be amplified in samples from the patient while her parents
yielded one fragment of the expected size. SmaI digestion was consistent with the patient being
compound heterozygous for 6.7 and 7.6 Kb deletions, while her parents appear to be heterozygous
carriers for either the 6.7 or the 7.6 Kb deletions. We have characterized type IA IGHD
caused by two different GH1 gene deletions, suggesting that this condition should be considered
in severe IGHD, even in non-consanguineous families.
GHRHR genes. The objective of this study was to characterize the molecular defect in a girl
presenting IGHD. The patient was born at 41 weeks of gestation from non-consanguineous parents.
Clinical and biochemical evaluation included anthropometric measurements, evaluation
of pituitary function, IGF-I and IGFBP-3 levels. Molecular characterization was performed by
PCR amplification of GH1 gene and SmaI digestion of two homologous fragments flanking the
gene, using genomic DNA from the patient and her parents as templates. At 1.8 years of age the
patient presented severe growth retardation (height 61.2 cm, -7.4 SDS), truncal obesity, frontal
bossing, doll face, and acromicria. MRI showed pituitary hypoplasia. Laboratory findings confirmed
IGHD. GH1 gene could not be amplified in samples from the patient while her parents
yielded one fragment of the expected size. SmaI digestion was consistent with the patient being
compound heterozygous for 6.7 and 7.6 Kb deletions, while her parents appear to be heterozygous
carriers for either the 6.7 or the 7.6 Kb deletions. We have characterized type IA IGHD
caused by two different GH1 gene deletions, suggesting that this condition should be considered
in severe IGHD, even in non-consanguineous families.
GH1 gene and SmaI digestion of two homologous fragments flanking the
gene, using genomic DNA from the patient and her parents as templates. At 1.8 years of age the
patient presented severe growth retardation (height 61.2 cm, -7.4 SDS), truncal obesity, frontal
bossing, doll face, and acromicria. MRI showed pituitary hypoplasia. Laboratory findings confirmed
IGHD. GH1 gene could not be amplified in samples from the patient while her parents
yielded one fragment of the expected size. SmaI digestion was consistent with the patient being
compound heterozygous for 6.7 and 7.6 Kb deletions, while her parents appear to be heterozygous
carriers for either the 6.7 or the 7.6 Kb deletions. We have characterized type IA IGHD
caused by two different GH1 gene deletions, suggesting that this condition should be considered
in severe IGHD, even in non-consanguineous families.
GH1 gene could not be amplified in samples from the patient while her parents
yielded one fragment of the expected size. SmaI digestion was consistent with the patient being
compound heterozygous for 6.7 and 7.6 Kb deletions, while her parents appear to be heterozygous
carriers for either the 6.7 or the 7.6 Kb deletions. We have characterized type IA IGHD
caused by two different GH1 gene deletions, suggesting that this condition should be considered
in severe IGHD, even in non-consanguineous families.
SmaI digestion was consistent with the patient being
compound heterozygous for 6.7 and 7.6 Kb deletions, while her parents appear to be heterozygous
carriers for either the 6.7 or the 7.6 Kb deletions. We have characterized type IA IGHD
caused by two different GH1 gene deletions, suggesting that this condition should be considered
in severe IGHD, even in non-consanguineous families.
GH1 gene deletions, suggesting that this condition should be considered
in severe IGHD, even in non-consanguineous families.