Cargando…

THU157 Epigenetic Regulation Of Genes Involved In The Signaling Cascade Of The GH Axis - IGF1 And Insulin. Implication In Children Postnatal Growth

Disclosure: L. Zoff: None. F. Garcia: None. G. Aschettino: None. G. Veneruzzo: None. M.C. Mattone: None. N. Perez Garrido: None. M. Juanes: None. N.I. Saraco: None. C. Alonso: None. G. Guercio: None. A. Belgorosky: None. M.S. Baquedano: None. Growth is influenced by genetic, nutritional, environment...

Descripción completa

Detalles Bibliográficos
Autores principales: Zoff, Luciana, Garcia, Francisco, Aschettino, Giovanna, Veneruzzo, Gabriel, Mattone, María Celeste, Garrido, Natalia Perez, Juanes, Matías, Saraco, Nora Isabel, Alonso, Cristina, Guercio, Gabriela, Belgorosky, Alicia, Baquedano, Maria Sonia
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Oxford University Press 2023
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10554869/
http://dx.doi.org/10.1210/jendso/bvad114.1409
Descripción
Sumario:Disclosure: L. Zoff: None. F. Garcia: None. G. Aschettino: None. G. Veneruzzo: None. M.C. Mattone: None. N. Perez Garrido: None. M. Juanes: None. N.I. Saraco: None. C. Alonso: None. G. Guercio: None. A. Belgorosky: None. M.S. Baquedano: None. Growth is influenced by genetic, nutritional, environmental, and hormonal factors, but it proceeds in a predictable pattern characterized by a constant growth deceleration between childhood and adolescence. This growth deceleration is coordinated in tissues and organs in order to maintain body proportions. Growth hormone (GH)/ insulin-like growth factor type 1 (IGF1) axis and insulin are crucial stimulators of growth, cell proliferation and metabolism. However, their levels do not change with age in a pattern that would explain the prepubertal decline in growth rate. DNA methylation represents a fundamental epigenetic mark that is associated with transcriptional repression during development. We hypothesize that the postnatal growth pattern could be orchestrated by epigenetic mechanisms. In order to analyze age related physiological changes, we evaluated promoter methylation in the GHR, IGF1R and INSR genes in peripheral blood from 40 healthy children of both sexes (females (F) n=21 and males (M) n=19), between 3 and 15 years old by using targeted deep-amplicon bisulfite sequencing on a MiSeq system. Sequencing libraries of 4 promoter CpG rich regions for GHR, 3 for IGF1R and 5 for INSR (104, 103 and 141 CpG sites, respectively) were analyzed for mean methylation values of all CpG sites using amplikyzer2 software. The results would suggest a sexual dimorphism in the epigenetic regulation of GH, IGF1 and insulin receptors gene expression. A significant negative correlation between GHR methylation and age was observed in both sexes (Multiple Spearman correlation, p<0.05), but in different GHR promoter regions. Specifically, a decrease in themethylation levels with age were detected in CpG-8, CpG+183 and CpG+243 in F; and in CpG+343, CpG+346, CpG+385, CpG+391, CpG+407 and CpG+487 in M. In contrast, in the IGF1R promoter region, a positive correlation was observed exclusively in F, between mean methylation levels and age in CpG-51, CpG-43, CpG-41, CpG-23, CpG-17, CpG-15, CpG-13, CpG-11, and CpG-9, p<0.05. Male-specific positive correlation between INSR promotermethylation values and age were found in CpG-768, CpG+10, CpG+31, CpG+87, CpG+95, CpG+163, CpG+199, CpG+206, CpG+238, CpG+700, CpG+815 and CpG+900, p<0.05.Taking together, our findings are in agreement with the hypothesis that age-associated DNA promoter methylation changes could be involved in the physiological growth pattern. Finally, the observed sexual dimorphism suggests age- and sex-dependent regulatory mechanisms for normal growth. Presentation: Thursday, June 15, 2023