Children's Nutrition Research Centre, School of Medicine, The University of Queensland, Herston, QLD 4029, Australia.
Eur J Clin Invest. 2012 Jul;42(7):768-76. doi: 10.1111/j.1365-2362.2011.02644.x. Epub 2012 Feb 2.
Methylation cycle and folate-mediated one-carbon metabolism maintenance is important for many physiological processes including neurotransmitter regulation, nerve myelination and DNA synthesis. These processes play an indispensible role in growth and development, as well as in cognitive function and neuromuscular stability, which are key issues in children with severe cerebral palsy (CP).
Blood samples were collected from children with severe CP (n = 24) and age-matched typically developing healthy controls (n = 24), as an exploratory study. The CP group was divided into orally (O) or enterally fed via percutaneous endoscopic gastrostomy (E). Concentrations of red cell folate (RCF), methylmalonic acid (MMA), mean cell volume (MCV), homocysteine (Hcy), cystathionine, choline, betaine and urate were assayed.
Homocysteine was increased in both O mean (±SD) = 6·28 (±1·81 μM) and E = 6·03 (±1·28), vs. controls = 5·07 (±0·98) P = 0·02. Higher MMA was found in controls = 157 (±54) and O = 141 (±101), vs. E = 88(±21) P = 0·05. RCF was higher in E = 1422 (±70 nM) vs. O = 843 (±80) and controls = 820 (±43) P < 0·001. MCV z-scores were elevated in E = 3·1 (±1·8) and O = 1·1 (±1·1) compared with controls = -0·2 (±1·1) P < 0·001. Urate was significantly reduced in O = -0·64 (±1·38) and E = -0·87 (±0·71), vs. controls = 0·18 (±0·62) P = 0·006.
Raised MCV in the presence of elevated red cell folate, adequate B12 status and low plasma urate suggest potential methyltetrahydrofolate trapping and impaired purine synthesis. Well-documented malnutrition issues in O may explain differences between CP groups. These data support the hypothesis of possible dysregulation in methylation capacity and/or folate one-carbon metabolism, although more research is needed to elucidate a precise mechanism.
甲基化循环和叶酸介导的一碳代谢维持对许多生理过程很重要,包括神经递质调节、神经髓鞘形成和 DNA 合成。这些过程在儿童重度脑瘫(CP)的生长发育、认知功能和神经肌肉稳定性中起着不可或缺的作用。
采集了 24 名重度 CP 儿童(病例组)和 24 名年龄匹配的典型健康对照儿童(对照组)的血样进行探索性研究。CP 组分为经口(O)或经皮内镜下胃造口术(E)喂养。测定红细胞叶酸(RCF)、甲基丙二酸(MMA)、平均红细胞体积(MCV)、同型半胱氨酸(Hcy)、胱硫醚、胆碱、甜菜碱和尿酸的浓度。
病例组 O 均值(±SD)=6.28(±1.81 μM)和 E 均值=6.03(±1.28),与对照组 5.07(±0.98)相比,均升高,P=0.02。对照组 157(±54)和 O 组 141(±101)的 MMA 均高于 E 组 88(±21),P=0.05。E 组 RCF 高于 O 组=1422(±70 nM)和对照组 820(±43),P<0.001。E 组 MCV z 评分=3.1(±1.8)和 O 组=1.1(±1.1)均高于对照组-0.2(±1.1),P<0.001。O 组=-0.64(±1.38)和 E 组=-0.87(±0.71)的尿酸明显低于对照组=0.18(±0.62),P=0.006。
在红细胞叶酸升高、B12 状态充足和血浆尿酸降低的情况下,MCV 升高提示潜在的亚甲基四氢叶酸捕获和嘌呤合成受损。经口喂养的 CP 患儿存在营养不良问题,这可能解释了 CP 组之间的差异。这些数据支持了甲基化能力和/或叶酸一碳代谢可能失调的假说,尽管需要更多的研究来阐明确切的机制。
