ABSTRACT
Aproximadamente 10 por cento das crianças nascidas pequenas para a idade gestacional (PIGs) não apresentam recuperação espontânea do crescimento. As causas desse déficit de crescimento pré-natal e sua manutenção após o nascimento ainda não são completamente conhecidas na maioria dos casos. Nos últimos oito anos, diversas mutações inativadoras e deleções do gene IGF1R em heterozigose foram relatadas, indicando o papel de defeitos no eixo IGFs/IGF1R como causa do déficit de crescimento. Postula-se que pelo menos 2,5 por cento das crianças nascidas PIGs possam apresentar defeitos no gene IGF1R. O quadro clínico desses pacientes apresenta grande variabilidade quanto à gravidade do retardo de crescimento e aos parâmetros hormonais. Nos casos mais evidentes, os pacientes apresentam microcefalia, déficit cognitivo leve e valores elevados de IGF-1, associados à baixa estatura de início pré-natal. Esta revisão abordará os aspectos clínicos, moleculares e do tratamento da baixa estatura com hrGH de crianças com mutações no IGF1R.
Approximately 10 percent of children born small-for-gestational age (SGA) do not show spontaneous growth catch-up. The causes of this deficit in prenatal growth and its maintenance after birth are not completely known, in most cases. Over the past eight years, several heterozygous inactivating mutations and deletions in IGF1R gene have been reported, indicating the role of defects in the IGFs/IGF1R axis as a cause of growth deficit. It has been hypothesized that at least 2.5 percent of children born SGA may have IGF1R gene defects. The clinical presentation of these patients is highly variable in the severity of growth retardation and hormonal parameters. In the most evident cases, patients have microcephaly, mild cognitive impairment and high levels of IGF-1, associated with short stature of prenatal onset. This review will describe the clinical, molecular and treatment of short stature with hrGH of children with mutations in the IGF1R gene.
Subject(s)
Humans , Infant, Newborn , Fetal Growth Retardation/genetics , Mutation/genetics , Receptor, IGF Type 1/genetics , Fetal Growth Retardation/drug therapy , Infant, Small for Gestational Age/growth & developmentABSTRACT
Crianças nascidas pequenas para a idade gestacional (PIG) apresentam maior risco de permanecerem com baixa estatura na vida adulta. Os fatores de crescimento insulina-símile 1 e 2 (IGF-1 e IGF-2) são os principais fatores endócrinos determinantes do crescimento fetal. Na vida pós-natal o GH, principal hormônio promotor de crescimento, exerce a maior parte de seus efeitos por meio do IGF-1. A grande maioria das ações conhecidas do IGF-1 e IGF-2 são mediadas via receptor tirosina quinase conhecido como receptor tipo 1 de IGFs (IGF-1R). Os objetivos deste trabalho foram estudar os genes IGF1 e IGF1R em crianças nascidas pequenas para a idade gestacional que não recuperaram o crescimento na vida pós-natal. Foram selecionados 145 pacientes nascidos PIG, 72 sem catch up e 73 com catch up. Em 54 PIG sem catch up foi estudado toda a seqüência codificadora do gene IGF1 por meio de PCR e seqüenciamento direto, nos demais PIG sem catch up e nos 73 PIG com catch up foi estudado apenas o exon 6 do IGF-1 por PCR e seqüenciamento direto para avaliação de um polimorfismo encontrado nesta região. Nos pacientes que apresentavam concentração sérica de IGF-1 e IGFBP-3 acima da média para idade e sexo e seqüência do IGF1 normal (n=23) foi realizada coleta de sangue periférico com posterior separação de leucócitos mononucleares pelo gradiente de ficoll seguido por extração de RNA pelo método de Trizol® Posteriormente, a partir do RNA, sintetizamos o cDNA (DNA complementar) utilizando primers randômicos. Foi realizado PCR e seqüenciamento direto do cDNA, além de análise da expressão do IGF1R por PCR em tempo real. Nenhuma mutação foi encontrada no gene IGF1. Entretanto um locus altamente polimórfico foi encontrada na região 3' não traduzida do exon 6 deste gene, região esta envolvida no processo de poliadenilação. A freqüência das variantes alélicas foi semelhante em PIG com e sem catch-up e em controles nascidos AIG. Analisando o fenótipo de pacientes PIG...
Children born small for gestational age (SGA) have a higher risk of remaining short in adulthood. The insulin-like growth factors 1 and 2 (IGF-1 and IGF-2) are the main factors determining endocrine fetal growth. GH is the main promoter of linear growth in the postnatal life, exerting its effects mostly through the IGF-1. The vast majority of known actions of IGF-1 and IGF-2 are mediated by the insulin-like growth factor type 1 receptor (IGF-1R), a member of the tyrosine kinase receptors family. The aim of this study was to investigate IGF1 and IGF1R genes mutations in children born small for gestational age without catch up growth in postnatal life. We selected 145 patients born SGA, 72 without catch-up and 73 with catch up. The whole coding region of the IGF1 gene was sequenced in 54 patients without catchup. In the other SGA children without catch-up and in 73 SGA with catch-up, only the exon 6 of IGF1 was sequenced to assess the influence of allelic variants present in this region. In patients with normal IGF1 sequence and IGF-1 and IGFBP-3 serum levels above the mean for age and sex (n = 23) total RNA was extracted from peripheral blood lymphocytes followed by cDNA synthesis with random primers. The IGF1R cDNA was amplified using specific primers followed by direct sequencing. IGF1R expression was analyzed by real-time PCR. No mutations were found in the IGF1 gene. However a highly polymorphic sequence was identified in the upstream core polyadenylation signal (UCPAS) located in IGF1 3' UTR at exon 6. The frequency of the identified allelic variants was similar in SGA children with and without catch-up and in controls. Furthermore, children homozygous for the wild-type allele and those carrying the allelic variants in homozygous or heterozygous state presented similar weight and length at birth, as well as serum IGF-1 levels and postnatal growth features. Two novel nonconservative allelic variants were identified in IGF1R in 23 SGA children...
Subject(s)
Humans , Male , Female , Child, Preschool , Child , Insulin-Like Growth Factor I/genetics , Failure to Thrive/genetics , Mutation/genetics , Polymorphism, Genetic/genetics , Receptor, IGF Type 1/genetics , Fetal Growth Retardation/genetics , Growth Disorders/etiology , Growth Disorders/geneticsABSTRACT
A 15q25-qter partial trisomy characterized by pre or postnatal overgrowth, tall stature, macrocephaly and craniosynostosis has rarely been reported. The cause of overgrowth has been thought to be the triplication of the insulin-like growth factor 1 receptor (IGF1R) gene located on the 15q26.3. We report a patient with partial trisomy 15q25.3-qter showing mental retardation, developmental delay, macrocephaly, long narrow face, ptosis, high palate arch, scoliosis, clinodactyly and overgrowth. Additional material located on terminal 2q was found in karyotyping analysis. In bacterial artificial chromosome (BAC) clone-based-array comparative genomic hybridization (aCGH) analysis, a gain of 31 clones on 15q25.3-qter and a loss of 2 clones on 2q37.3 were observed. An extra copy of IGF1R gene was observed on derivative chromosome 2 in FISH analysis. In conclusion, the patient was diagnosed to have de novo 46,XX,der(2)t(2;15)(q37.3;q25.3) chromosome complement. Adequate genetic counseling and regular follow-ups would be needed for the patient.
Subject(s)
Child, Preschool , Female , Humans , Abnormalities, Multiple/genetics , Chromosomes, Human, Pair 15 , Comparative Genomic Hybridization , In Situ Hybridization, Fluorescence , Karyotyping , Receptor, IGF Type 1/genetics , Translocation, Genetic , TrisomyABSTRACT
PTEN/MMAC1 is a tumor suppressor gene that is mutated in a variety of advanced and metastatic cancers. Its major function is likely to be the phosphatase activity that regulates the phosphotidylinositol (PI)3-kinase/ Akt pathway. On the other hand, IGF system plays an important role in cell proliferation and cell survival via PI3-kinase/Akt and mitogen-activated protein kinase pathways in many cancer cells. To evaluate effect of PTEN on cell growth and IGF system in gastric cancer, human gastric adenocarcinoma cells (SNU-5 & -216) were transfected with human PTEN cDNA. Those PTEN- transfected gastric cancer cells had a lower proliferation rate than the pcDNA3-transfected cells. PTEN overexpression induced a profound decrease in the IGF-II and IGF-IR expression levels, and downregulation of IGF-II expression by PTEN was mediated through the regulation of the IGF-II promoter. In addition, a PI3-kinase inhibitor, LY294002, induced the downregulation of IGF-II expression. The PTEN-overexpressing SUN-5 and -216 cells were more sensitive to death induced by etoposide and adriamycin that induce DNA damage than the pcDNA3-transfected cells. These findings suggest that PTEN suppresses the cell growth through modulation of IGF system and sensitizing cancer cells to cell death by anticancer drugs.