ABSTRACT
ABSTRACT Short stature is a common feature, and frequently remains without a specific diagnosis after conventional clinical and laboratorial evaluation. Longitudinal growth is mainly determined by genetic factors, and hundreds of common variants have been associated to height variability among healthy individuals. Although isolated short stature may be caused by the combination of variants, with a deleterious impact on the growth of individuals with polygenic inheritance, recent studies have pointed out some monogenic defects as the cause of the growth disorder observed in nonsyndromic children. The majority of these defects are in genes related to the growth plate cartilage and in the growth hormone (GH) - insulin-like growth factor 1 (IGF-1) axis. Affected patients usually present the mildest spectrum of some forms of skeletal dysplasia, or subtle abnormalities of laboratory tests, suggesting hormonal resistance or insensibility. The lack of specific characteristics, however, does not allow formulation of a definitive diagnosis without the use of broad genetic studies. Thus, molecular genetic studies including panels of genes or exome analysis will become essential in investigating and identifying the causes of isolated short stature in children, with a crucial impact on treatment and follow-up.
Subject(s)
Humans , Genetic Variation/genetics , Body Height/genetics , Insulin-Like Growth Factor I/genetics , Human Growth Hormone/genetics , Growth Disorders/geneticsABSTRACT
Foram estudados os efeitos do excesso da tiroxina materna associado ao hipertireoidismo pós-natal sobre o crescimento ósseo e o perfil proliferativo e angiogênico das cartilagens. Dezesseis ratas Wistar adultas foram distribuídas nos grupos tratados com L-tiroxina e controle. A prole do grupo tratado recebeu L-tiroxina do desmame até 40 dias de idade. Ao desmame, foi realizada dosagem plasmática de T4 livre nas mães. Na prole, foram realizados: dosagem plasmática de T3 total e T4 livre, morfometria das tireoides, mensuração do comprimento e largura do fêmur. Nas cartilagens, foi avaliada a expressão imuno-histoquímica e gênica de CDC-47, VEGF, Flk-1, Ang1, Ang2 e Tie2. As médias entre grupos foram comparadas pelo teste T de Student. As concentrações de T4 livre das mães tratadas e de T3 total e T4 livre da prole foram significativamente mais elevadas. A largura do fêmur foi menor nos animais tratados. Houve também redução da imunoexpressão de CDC-47 e de VEGF e dos transcritos gênicos para VEGF e Ang1 nas cartilagens. Conclui-se que o excesso de tiroxina materna associado ao hipertireoidismo pós-natal reduz a largura da diáfise femoral, a proliferação celular e a expressão de VEGF e de Ang1 nas cartilagens de crescimento de ratos.(AU)
The effects of excess of maternal thyroxine associated with postnatal hyperthyroidism at bone growth and proliferative and angiogenic profile of cartilage were studied. Sixteen adult Wistar rats were divided into treated and control groups. The offspring of the treated group received L-thyroxine from weaning to 40 days-old. At weaning, plasma assay of free T4 was measurement on female rats. In the offspring, the following assessments were performed: measurement of total T3 and free T4, histomorphometry analysis of the thyroid, measurement of body weight and length and width of the femur. In femoral growth cartilage, immunostaining of CDC-47, gene or protein expression of VEGF, Flk-1, Ang1, Ang2 and Tie2 were evaluated. Data were analyzed using Student's t-test. Free T4 was significantly higher in treated rats and total T3 and free T4 were significantly higher in offspring. The width of the femur was significantly lower in treated animals. There was lower immunoreactivity of CDC-47, VEGF and lower expression of gene transcripts for VEGF and Ang1. We concluded that the excess maternal thyroxine associated with postnatal hyperthyroidism reduces the width of the femoral shaft, the cell proliferation and gene and protein expression of VEGF and gene expression of Ang1 on the growth cartilage in rats.(AU)