Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring

Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring

We previously reported that maternal protein restriction (LP) during pregnancy increases salt sensitivity in offspring using the Stroke-Prone Spontaneously Hypertensive Rat (SHRSP). In the present study, we focus on DNA methylation profiles of prostaglandin E receptor 1 gene (ptger1), which is known...

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Main Authors: Moe Miyoshi, Masayuki Sato, Kenji Saito, Lila Otani, Katsuhiko Shirahige, Fumihito Miura, Takashi Ito, Huijuan Jia, Hisanori Kato
Format: Article
Language:English
Published: MDPI AG 2018-10-01
Series:Nutrients
Subjects:
maternal protein restriction
salt sensitivity
DNA methylation
Online Access:http://www.mdpi.com/2072-6643/10/10/1436
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spelling doaj-af2d841ddc034875ac856407235169972020-11-24T23:04:25ZengMDPI AGNutrients2072-66432018-10-011010143610.3390/nu10101436nu10101436Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP OffspringMoe Miyoshi0Masayuki Sato1Kenji Saito2Lila Otani3Katsuhiko Shirahige4Fumihito Miura5Takashi Ito6Huijuan Jia7Hisanori Kato8Health Nutrition, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo 1138657, JapanHealth Nutrition, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo 1138657, JapanHealth Nutrition, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo 1138657, JapanHealth Nutrition, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo 1138657, JapanResearch Center for Epigenetic Disease, Institute of Molecular and Cellular Biosciences, The University of Tokyo, Tokyo 1130032, JapanDepartment of Biochemistry, Kyushu University Graduate School of Medical Sciences, Kyushu University, Fukuoka 8128582, JapanDepartment of Biochemistry, Kyushu University Graduate School of Medical Sciences, Kyushu University, Fukuoka 8128582, JapanHealth Nutrition, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo 1138657, JapanHealth Nutrition, Graduate School of Agricultural and Life Sciences, The University of Tokyo, Tokyo 1138657, JapanWe previously reported that maternal protein restriction (LP) during pregnancy increases salt sensitivity in offspring using the Stroke-Prone Spontaneously Hypertensive Rat (SHRSP). In the present study, we focus on DNA methylation profiles of prostaglandin E receptor 1 gene (ptger1), which is known to be associated with hypertension. We evaluated the ptger1 DNA methylation status via bisulfite sequencing, and analyzed the expression of ptger1-related genes. The results of these analyses showed that, compared to controls, the LP-S offspring exhibited both marked ptger1 hypermethylation, and significantly increased ptger1 expression. Moreover, they also exhibited significantly decreased expression of the downstream gene epithelial Na+ channel alpha (enacα). Interestingly, LP offspring that were provided with a standard water drinking supply (W) also exhibited increased ptger1 methylation and expression. Together, these results suggest that maternal protein restriction during pregnancy modulates the renal ptger1 DNA methylation state in SHRSP offspring, and thereby likely mediates ptger1 and enacα gene expression to induce salt sensitivity.http://www.mdpi.com/2072-6643/10/10/1436maternal protein restrictionsalt sensitivityDNA methylation
collection DOAJ
language English
format Article
sources DOAJ
author Moe Miyoshi
Masayuki Sato
Kenji Saito
Lila Otani
Katsuhiko Shirahige
Fumihito Miura
Takashi Ito
Huijuan Jia
Hisanori Kato
spellingShingle Moe Miyoshi
Masayuki Sato
Kenji Saito
Lila Otani
Katsuhiko Shirahige
Fumihito Miura
Takashi Ito
Huijuan Jia
Hisanori Kato
Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring
Nutrients
maternal protein restriction
salt sensitivity
DNA methylation
author_facet Moe Miyoshi
Masayuki Sato
Kenji Saito
Lila Otani
Katsuhiko Shirahige
Fumihito Miura
Takashi Ito
Huijuan Jia
Hisanori Kato
author_sort Moe Miyoshi
title Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring
title_short Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring
title_full Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring
title_fullStr Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring
title_full_unstemmed Maternal Protein Restriction Alters the Renal Ptger1 DNA Methylation State in SHRSP Offspring
title_sort maternal protein restriction alters the renal ptger1 dna methylation state in shrsp offspring
publisher MDPI AG
series Nutrients
issn 2072-6643
publishDate 2018-10-01
description We previously reported that maternal protein restriction (LP) during pregnancy increases salt sensitivity in offspring using the Stroke-Prone Spontaneously Hypertensive Rat (SHRSP). In the present study, we focus on DNA methylation profiles of prostaglandin E receptor 1 gene (ptger1), which is known to be associated with hypertension. We evaluated the ptger1 DNA methylation status via bisulfite sequencing, and analyzed the expression of ptger1-related genes. The results of these analyses showed that, compared to controls, the LP-S offspring exhibited both marked ptger1 hypermethylation, and significantly increased ptger1 expression. Moreover, they also exhibited significantly decreased expression of the downstream gene epithelial Na+ channel alpha (enacα). Interestingly, LP offspring that were provided with a standard water drinking supply (W) also exhibited increased ptger1 methylation and expression. Together, these results suggest that maternal protein restriction during pregnancy modulates the renal ptger1 DNA methylation state in SHRSP offspring, and thereby likely mediates ptger1 and enacα gene expression to induce salt sensitivity.
topic maternal protein restriction
salt sensitivity
DNA methylation
url http://www.mdpi.com/2072-6643/10/10/1436
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