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Utilice este identificador para citar o enlazar este documento: https://ria.asturias.es/RIA/handle/123456789/12947


Título: Hipometilación del gen de la PTH por elevado fósforo de la dieta: un posible agravante epigenético de la severidad del hiperparatiroidismo secundario en la enfermedad renal crónica / Hypomethylation of the PTH gene due to high dietary phosphorus: A possible aggravating of severe secondary hyperparathyroidism in chronic renal failure
Autores: Bedia-Díaz, Gonzalo
Carrillo-López, Natalia
Solache-Berrocal, Guillermo
Dusso, Adriana
Rodríguez, Isabel
Naves-Díaz, Manuel
Cannata-Andía, Jorge Benito
Román-García, Pablo
Palabras Claves: DNA methylation
PTH
chronic kidney disease
parathyroid glands
hiperphosphataemia
Fecha Edición: Dic-2017
Editor: Ibáñez y Plaza
Cita Bibliográfica: Rev. Osteoporos. Metab. Miner. 2017; 9(4),114-120
Resumen: Introduction: Hyperphosphataemia aggravates both parathyroid hyperplasia and PTH secretion in patients with chronic kidney disease (CKD). Hyperplasia is associated with decreases in calcium receptor expression (CaSR), vitamin D (VDR) and α-Klotho, inducing resistance of the parathyroid gland to respond both to treatment and to increases in FGF23. This study examined the possible epigenetic contributions of raised phosphorus to aggravate secondary hyperparathyroidism (SHPT) in patients with (CRD). Material and methods: The degree of methylation was compared by pyrosequencing of bisulfite in CpG-rich sequences of the promoters in the CaSR, VDR, PTH and α-Klotho genes in parathyroid gland DNA from uremic rats fed a normal and high phosphorus diet. Results: The diet rich in phosphorus increased PTH expression and caused a marked reduction in the degree of methylation in the promoter of the PTH gene. In contrast, the promoter regions of the CaSR, VDR and α-Klotho genes did not show significant differences in the percentage of methylation between the two groups of rats. Thus, it was not the determining mechanism for the decrease of the expression of these genes observed in the SHPT. Conclusions: The epigenetic alterations induced by the phosphorus rich diet in SHPT, particularly the PTH gene hypomethylation, could contribute to the increases that occur in the synthesis and secretion of this hormone. The identification of the mechanisms involved would allow better treatments for SHPT to be designed in the early stages of CKD.
URI: https://ria.asturias.es/RIA/handle/123456789/12947
ISSN: 2173-2345
Aparece en las Colecciones:Sanidad

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