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The prenatal period is a critical window for the development of autism spectrum disorder (ASD). The relationship between prenatal nutrients and gestational gene expression in mothers of children later diagnosed with ASD or non-typical development (Non-TD) is poorly understood. Maternal blood collected prospectively during pregnancy provides insights into the effects of nutrition, particularly one-carbon metabolites, on gene pathways and neurodevelopment. Genome-wide transcriptomes were measured with microarrays in 300 maternal blood samples in Markers of Autism Risk in Babies-Learning Early Signs. Sixteen different one-carbon metabolites, including folic acid, betaine, 5'-methyltretrahydrofolate (5-MeTHF), and dimethylglycine (DMG) were measured. Differential expression analysis and weighted gene correlation network analysis (WGCNA) were used to compare gene expression between children later diagnosed as typical development (TD), Non-TD and ASD, and to one-carbon metabolites. Using differential gene expression analysis, six transcripts (TGR-AS1, SQSTM1, HLA-C, and RFESD) were associated with child outcomes (ASD, Non-TD, and TD) with genome-wide significance. Genes nominally differentially expressed between ASD and TD significantly overlapped with seven high confidence ASD genes. WGCNA identified co-expressed gene modules significantly correlated with 5-MeTHF, folic acid, DMG, and betaine. A module enriched in DNA methylation functions showed a suggestive protective association with folic acid/5-MeTHF concentrations and ASD risk. Maternal plasma betaine and DMG concentrations were associated with a block of co-expressed genes enriched for adaptive immune, histone modification, and RNA processing functions. These results suggest that the prenatal maternal blood transcriptome is a sensitive indicator of gestational one-carbon metabolite status and changes relevant to children's later neurodevelopmental outcomes. LAY SUMMARY: Pregnancy is a time when maternal nutrition could interact with genetic risk for autism spectrum disorder. Blood samples collected during pregnancy from mothers who had a prior child with autism were examined for gene expression and nutrient metabolites, then compared to the diagnosis of the child at age three. Expression differences in gene pathways related to the immune system and gene regulation were observed for pregnancies of children with autism and non-typical neurodevelopment and were associated with maternal nutrients.

产前阶段是自闭症谱系障碍 (ASD) 发育的关键窗口。母亲在怀孕期间的营养状况与胎儿基因表达之间的关系，对于那些后来被诊断为 ASD 或非典型发育 (Non-TD) 的儿童，目前还知之甚少。前瞻性地在怀孕期间采集的母体血液可以深入了解营养，特别是一碳代谢物，对基因途径和神经发育的影响。通过 Markers of Autism Risk in Babies-Learning Early Signs 中的微阵列，对 300 份母血样本进行了全基因组转录组测量。共测量了 16 种不同的一碳代谢物，包括叶酸、甜菜碱、5'-甲基四氢叶酸 (5-MeTHF) 和二甲基甘氨酸 (DMG)。采用差异表达分析和加权基因相关网络分析 (WGCNA) 比较了儿童后来被诊断为典型发育 (TD)、非典型发育 (Non-TD) 和 ASD 以及一碳代谢物之间的基因表达。通过差异基因表达分析，有六个转录物（TGR-AS1、SQSTM1、HLA-C 和 RFESD）与儿童结局（ASD、Non-TD 和 TD）具有全基因组意义的关联。ASD 与 TD 之间差异表达的基因与七个高可信度 ASD 基因显著重叠。WGCNA 鉴定了与 5-MeTHF、叶酸、DMG 和甜菜碱显著相关的共表达基因模块。一个富含 DNA 甲基化功能的模块与叶酸/5-MeTHF 浓度和 ASD 风险呈保护相关性。母体血浆甜菜碱和 DMG 浓度与富含适应性免疫、组蛋白修饰和 RNA 加工功能的共表达基因块相关。这些结果表明，产前母体血液转录组是妊娠期间一碳代谢物状态及其与儿童神经发育结局变化的敏感指标。