维生素 D、叶酸和潜在的重要成年表型的早期生命周期环境起源。

Vitamin D, folate, and potential early lifecycle environmental origin of significant adult phenotypes.

机构信息

School of Environmental and Life Sciences, Biomedical Sciences and Pharmacy, Maths and Physical Sciences, University of Newcastle, PO Box 127, Brush Road, Ourimbah, NSW 2258, Australia, The Pennsylvania State University, Anthropology Department, 409 Carpenter Building, University Park, PA 16802, USA, and Teaching and Research Unit, Central Coast Local Health District, PO Box 361, Gosford, NSW 2250, Australia.

出版信息

Evol Med Public Health. 2014 Jan;2014(1):69-91. doi: 10.1093/emph/eou013. Epub 2014 Apr 2.

DOI:10.1093/emph/eou013

PMID:24699387

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4001294/

Abstract

BACKGROUND AND OBJECTIVES

Vitamin D and folate are highly UV sensitive, and critical for maintaining health throughout the lifecycle. This study examines whether solar irradiance during the first trimester of pregnancy influences vitamin D receptor (VDR) and nuclear folate gene variant occurrence, and whether affected genes influence late-life biochemical/clinical phenotypes.

METHODOLOGY

228 subjects were examined for periconceptional exposure to solar irradiance, variation in vitamin D/folate genes (polymerase chain reaction (PCR)), dietary intake (food frequency questionnaire (FFQ)) and important adult biochemical/clinical phenotypes.

RESULTS

Periconceptional solar irradiance was associated with VDR-BsmI (P = 0.0008(wk7)), TaqI (P = 0.0014(wk7)) and EcoRV (P = 0.0030(wk6)) variant occurrence between post-conceptional weeks 6-8, a period when ossification begins. Similar effects were detected for other VDR gene polymorphisms. Periconceptional solar irradiance was also associated with 19 bp del-DHFR (P = 0.0025(wk6)), and to a lesser extent C1420T-SHMT (P = 0.0249(wk6)), a folate-critical time during embryogenesis. These same genes were associated with several late-life phenotypes: VDR-BsmI, TaqI and ApaI determined the relationship between dietary vitamin D and both insulin (P < 0.0001/BB, 0.0007/tt and 0.0173/AA, respectively) and systolic blood pressure (P = 0.0290/Bb, 0.0299/Tt and 0.0412/AA, respectively), making them important early and late in the lifecycle. While these and other phenotype associations were found for the VDR variants, folate polymorphism associations in later-life were limited to C1420T-SHMT (P = 0.0037 and 0.0297 for fasting blood glucose and HbA1c levels, respectively). We additionally report nutrient-gene relationships with body mass index, thiol/folate metabolome, cognition, depression and hypertension. Furthermore, photoperiod at conception influenced occurrence of VDR-Tru9I and 2R3R-TS genotypes (P = 0.0120 and 0.0360, respectively).

CONCLUSIONS AND IMPLICATIONS

Findings identify environmental and nutritional agents that may interact to modify gene-phenotype relationships across the lifecycle, offering new insight into human ecology. This includes factors related to both disease aetiology and the evolution of skin pigmentation.

摘要

背景和目的

维生素 D 和叶酸对人体有重要作用，对维持生命周期健康至关重要。本研究旨在探讨妊娠早期的太阳辐射是否会影响维生素 D 受体（VDR）和核叶酸基因变异的发生，以及受影响的基因是否会影响晚年的生化/临床表型。

方法

对 228 名受试者进行围孕期太阳辐射暴露、维生素 D/叶酸基因（聚合酶链反应（PCR））、膳食摄入（食物频率问卷（FFQ））和重要的成人生化/临床表型的检测。

结果

妊娠 6-8 周时，太阳辐射与 VDR-BsmI（P = 0.0008（wk7））、TaqI（P = 0.0014（wk7））和 EcoRV（P = 0.0030（wk6））变异的发生有关，这一时期正是骨化开始的时期。其他 VDR 基因多态性也出现了类似的影响。妊娠早期的太阳辐射还与 19bpdel-DHFR（P = 0.0025（wk6））有关，与胚胎发生期叶酸关键时间点的 C1420T-SHMT（P = 0.0249（wk6））有关。这些相同的基因与几种晚年表型有关：VDR-BsmI、TaqI 和 ApaI 决定了膳食维生素 D 与胰岛素（P < 0.0001/BB、0.0007/tt 和 0.0173/AA，分别）和收缩压（P = 0.0290/Bb、0.0299/Tt 和 0.0412/AA，分别）之间的关系，使它们在生命周期的早期和晚期都变得非常重要。虽然这些和其他表型关联在 VDR 变异中得到了证实，但叶酸多态性在晚年的关联仅限于 C1420T-SHMT（空腹血糖和 HbA1c 水平分别为 P = 0.0037 和 0.0297）。我们还报告了与体重指数、硫醇/叶酸代谢组、认知、抑郁和高血压有关的营养素-基因关系。此外，受孕时的光周期影响了 VDR-Tru9I 和 2R3R-TS 基因型的发生（P = 0.0120 和 0.0360）。

结论和意义

研究结果确定了环境和营养因素，这些因素可能相互作用，改变整个生命周期的基因-表型关系，为人类生态学提供了新的见解。这包括与疾病病因和皮肤色素沉着进化有关的因素。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3633/4001294/179fa2983e99/eou013f1p.jpg

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维生素 D、叶酸和潜在的重要成年表型的早期生命周期环境起源。

Vitamin D, folate, and potential early lifecycle environmental origin of significant adult phenotypes.

机构信息

出版信息

BACKGROUND AND OBJECTIVES

METHODOLOGY

RESULTS

CONCLUSIONS AND IMPLICATIONS

背景和目的

方法

结果

结论和意义

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