Insensibilidad a la GH en pacientes con retraso de crecimiento (Participación del Dr. Juan Jorge Heinrich en la descripción de dos nuevas alteraciones genéticas) / Growth hormone (GH) insensitivity in patients with growth retardation (Dr. Juan Jorge Heinrich contribution to the characterization of two novel gene c altera ons)

Como homenaje a la actuación del Dr. Juan Jorge Heinrich en su carácter de docente, pediatra clínico e investigador, los autores del presente artículo consideran adecuada una revisión de su participación en el descubrimiento de dos nuevas patologías dentro del campo de la resistencia a la acción de la hormona de crecimiento. La primera es causada por una mutación en el gen que codifica para la STAT5b (transductor de señal y activador de transcripción 5b), proteína que participa en la transmisión intracelular de la señal de GH. La segunda es causada por una mutación en el gen que codifica para la subunidad ácido lábil (ALS), una proteína esencial para la formación de complejos ternarios con IGF-I e IGFBP-3, los que incrementan marcadamente la vida media del IGF-I en la circulación

In homage to Dr. Juan Jotge Heinrich actions as teacher, pediatrician, and researcher, we feel pertinent to remark his contributions to the discovery of two new pathologies within the field of resistance to the action of growth hormone. One is due to a mutation in the gene coding for a protein, STAT5b (signal transducer and activator of transcription 5b), involved in the intracellular chain of transmission of the growth hormone signal; the other due to a mutation in the gene coding for ALS (acid labile subunit) a protein essential for the ternary complex formation among IGF-I, IGFBP-3, and ALS, which markedly increases the half life of IGF-I in the circulation

Concentración de insulina e índices de insulinosensibilidad en niños y adolescentes sanos / Insulin level and insulin sensitivity indices among healthy children and adolescents

Introducción. Existe escasa información acerca de los valores de referencia de la insulina y de los índices de insulinosensibilidad en pediatría. Objetivo. Describir la variación de insulina e índices subrogantes de insulinosensibilidad en la etapa pediátrica. Población y métodos. Variación de la concentración de insulina en ayuno y de los índices subrogantes, como el modelo de evaluación homeostática de resistencia a la insulina (homeostasis model assessment of insulin resistance; HOMA-IR, por sus siglas en inglés), en niños sanos con la edad, el índice de masa corporal, estadio puberal (EP), la concentración de IGF-I, colesterol total y triglicéridos. Resultados. Se incluyeron 226 niños sanos (1-18 años). La insulina aumentó con la edad, el índice de masa corporal, el EP, los niveles de IGF-I y triglicéridos (r²= 0,38; p 7,5 años presentaron mayores valores de insulina [mediana (Pc3 y Pc97) pUI/ mL: 5,0 (1,7-9,6)] que los prepuberales < 7,5 años [2,9 pUI/mL (1,3-10,9); p < 0,01]. En la pubertad (del EP II al EP V), la insulina fue mayor en las niñas que en los varones [(7,4 (1,8-16,9) versus 5,8 (1,8-12,9); p 7,5 años: 1,1 (0,3-2,0) versus niños < 7,5 años: 0,6 (0,3-1,4; p < 0,01). Los grupos puberales presentaron niveles más elevados de insulina y de HOMA-IR respecto de los niños prepuberales (p 2,0 y > 2,6 en prepúberes y púberes, respectivamente, podrían alertar a los pediatras sobre un posible estado de insulinorresistencia.

Introduction. Information on insulin reference values and insulin sensitivity indices in the field of pediatrics is scarce. Objective. To describe insulin range and insulin sensitivity surrogate indices during childhood. Population and methods. Fasting insulin level range and surrogate indices, such as the homeostasis model assessment of insulin resistance (HOMA-IR), among healthy children and adolescents by age, body mass index, pubertal stage (PS), insulin-like growth factor-1 (IGF-1), total cholesterol, and triglycerides. Results. Two hundred and twenty-six healthy children and adolescents (1-18 years old) were included. Insulin increased with age, body mass index, pubertal stage, IGF-1 and triglyceride levels (r²= 0.38, p 7.5 years old had higher insulin levels [median (P3 and P97) pIU/mL: 5.0 (1.7-9.6)] than prepubertal children < 7.5 years old [2.9 pIU/ mL (1.3-10.9), p < 0.01]. During puberty (from PS II to PS V), insulin was higher in girls than in boys [7.4 (1.8-16.9) versus 5.8 (1.8-12.9), p 7.5 years old: 1.1 (0.32.0) versus children < 7.5 years old: 0.6 (0.3-1.4, p < 0.01). The insulin level and HOMA-IR results were higher in pubertal children compared to the prepubertal group (p 2.0 and > 2.6 in prepubertal and pubertal children, respectively, may be considered a warning sign for pediatricians to further investigate insulin resistance.

Type IA isolated growth hormone deficiency (IGHD) consistent with compound heterozygous deletions of 6.7 and 7.6 Kb at the GH1 gene locus / Deficiência isolada de hormônio do crescimento tipo IA (DIGH) consistente com deleções heterozigotas compostas de 6,7 e 7,6 Kb no locus gênico GH1

Isolated growth hormone deficiency (IGHD) may result from deletions/mutations in either GH1 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. Arq Bras Endocrinol Metab. 2012;56(8):558-63.

A deficiência isolada do hormônio do crescimento (DIGH) pode ser resultado de deleções/mutações no gene GH1 ou no gene GHRHR. O objetivo deste estudo foi caracterizar o defeito molecular em uma menina que apresenta DIGH. A paciente nasceu às 41 semanas de gestação de pais não consanguíneos. As avaliações clínica e bioquímica incluíram medidas antropométricas, avaliação da função pituitária e concentrações de IGF-I e IGFBP-3. A caracterização molecular foi feita por meio de amplificação do GH1 por PCR e digestão com SmaI de dois fragmentos homólogos flanqueando o gene, usando-se DNA genômico da paciente e de seus pais como padrões. Com 1,8 ano de idade, a paciente apresentou atraso grave no crescimento (altura 61,2 cm, -7.4 DP), obesidade central, protuberância frontal, face de boneca e acromicria. A RM mostrou hipoplasia pituitária. Os achados laboratoriais confirmaram a DIGH. O gene GH1 não pôde ser amplificado nas amostras da paciente, enquanto as amostras de seus pais produziram um fragmento do tamanho esperado. A digestão com SmaI foi consistente com a paciente ser heterozigota composta para deleções para 6,7 e 7,6 Kb, enquanto seus pais parecem ser carreadores heterozigotos para deleções de 6,7 ou 7,6 Kb. Caracterizamos a DIGH tipo IA causada por duas deleções diferentes no gene GH1, sugerindo que essa condição pode ser considerada na DIGH grave, mesmo em famílias não consanguíneas. Arq Bras Endocrinol Metab. 2012;56(8):558-63.

Evaluación de los niveles séricos de la proteína de unión de alta afinidad de la hormona de crecimiento humana (GHBP) y del polimorfismo del exón 3 del gen del receptor de GH en niños con talla baja idiopática / Evaluation of serum levels of the high affinity binding protein of human growth hormone (GHBP) and exon 3 polymorphism of the GH receptor gene in children with idiopathic short stature

La talla baja idiopática (TBI) incluye a un grupo heterogéneo de pacientes con fallas en su crecimiento. Una causa probable de TBI puede ser la insensibilidad a la GH (IGH). La proteína de unión de GH de alta afinidad (GHBP) se genera por el clivaje proteolítico de la porción extracelular del receptor de GH (GHR) y su determinación se propone como un marcador periférico del nivel de GHR en los tejidos. El objetivo de este trabajo fue evaluar los niveles de GHBP circulantes y su asociación con factores de crecimiento y el polimorfismo del exón 3 del gen GHR en niños con TBI. Los niños con TBI presentaron talla, IMC, IGF-I, IGFBP-3, ALS y niveles de GHBP significativamente más bajos que un grupo de niños de edad comparable (p<0.001). El genotipo del exón 3 del GHR no fue un factor determinante de las diferencias observadas. La máxima respuesta de GH de los tests de estímulo de secreción correlacionó negativa y significativamente con los niveles de GHBP (r= -0.28, p= 0.012). Los perfiles de distribución de la concentración de GHBP, IGF-I, ALS y BP3 expresadas en score de desvío estándar (SDE) en la TBI, mostraron un sesgo hacia niveles bajos. En conclusión, los marcadores de acción de GH y los niveles de GHBP fueron bajos en la TBI, independientemente del genotipo del exón 3 del gen GHR. En un subgrupo de niños con TBI, niveles disminuidos de GHBP y de componentes del sistema de los IGFs, colaborarían en la evaluación de la IGH sugiriendo la búsqueda de defectos en el GHR.

Idiopathic Short Stature (ISS) includes a heterogeneous group of children with growth failure. One possible explanation for the growth failure is a reduced responsiveness to growth hormone (GH). Human circulating GH is partially bound to a highaffinity binding protein (GHBP) which is derived from proteolytical cleavage of the extracellular domain of the GH receptor. Many reports have demonstrated a close relationship between GHBP and liver GH receptor status in physiological conditions and diseases. Moreover, serum GHBP measurement has been proposed as an useful peripheral index of GH receptor abundance. Our objective was the evaluation of serum GHBP levels and its probable association with serum growth factors (IGF-I, IGFBP-3 and ALS) and the exon 3 polymorphism of the extracellular domain of the GHR gene in ISS children. Children with ISS presented significantly lower height SDS, BMI SDS, serum components of the IGFs system and GHBP concentration as compared to an age-matched control group of normal children (p<0.001). Interestingly, exon 3 genotype did not influence the differences observed in these parameters. The maximal GH response obtained after two GH provocative tests inversely and significantly correlated to GHBP serum levels (r= -0.28, p= 0.012). A frequency study showed a deviation to low SDS values of serum GHBP, IGF-I, IGFBP-3 and ALS. Conclusion: 1- in children with ISS the exon 3 genotype of the GHR gene is not a factor that could explain the lower levels observed in circulating GHBP concentration and components of the IGFs system; 2- low serum GHBP together with low IGF-I, IGFBP-3 or ALS levels would help pointing to GH insensitivity due to GH receptor gene abnormalities in ISS.