Growth hormone pharmacogenetics in children with growth hormone deficiency

Recombinant human growth hormone (rhGH) is the standard treatment for children with growth hormone deficiency (GHD). Although growth outcomes are usually satisfactory, there is a wide range of individual variability, so that some children do not achieve normal adult height or fail to reach final heights near their genetic potential, even when diagnosed and treated according to the same recommendation. Part of this variability has been attributed to the lack of treatment individualization, since therapy is based on fixed rhGH doses adjusted only by body weight. Clinical variables which predict growth responses to rhGH so far explain only 50% of the variability observed, suggesting that other influential factors may be missing from current prediction models. Despite the striking progress of molecular studies, genetic variables which are involved in modulation of rhGH responsiveness remain largely unknown. Thus, the aim of the present study was to evaluate the influence of common genetic variants present in genes involved in GH actions on the rhGH responsiveness of children with GHD. We assessed the influence of four functional polymorphisms in three genes involved in GH actions on treatment outcomes after rhGH treatment in 84 prepubertal children with GHD. Genotypes were correlated to first year growth velocity (n = 84) and final height after treatment (n = 37). Statistical analyses were adjusted for other clinical influential factors. Our results demonstrated that three of these polymorphisms the presence (GHRd3) or absence (GHRfl) of GH receptor (GHR) gene exon 3; the (CA)n repeats, in the insulin-like growth factor-1 (IGF1) promoter region; and the -202 A/C polymorphism, in the promoter region of insulin-like growth factor binding protein -3 (IGFBP3) gene can independently and interactively influence the rhGH responsiveness of children with GHD. On the other hand, the p.Leu544Ile variant of the GHR did not show any detectable influence. Individuals with at least one GHRd3 alelle had higher final height after rhGH treatment than individuals homozygous for the GHRfl allele. Homozygous for the IGF1 19 CA repeats allele presented lower first year growth velocity and lower final heights than those with at least one alternative IGF1 allele. Moreover, patients homozygous for the IGFBP3 -202 A allele presented higher IGFBP-3 serum levels and higher first year growth velocity than patients with at least one IGFBP3 C allele. Despite further validation studies are required, we believe that the results of this and other studies - directed to a better understanding of genetic basis of rhGH responsiveness - can be used, in the future, as important tools for rhGH treatment individualization (AU)