Brown Audrey C, Uddin Md Jashim, Munday Rebecca M, Naz Farha, Moreau G Brett, Ramakrishnan Girija, Rich Stephen S, Haque Rashidul, Wojcik Genevieve L, Duggal Priya, Marie Chelsea, Petri William A
Division of Infectious Diseases and International Health, University of Virginia School of Medicine, Charlottesville, Virginia, USA.
Department of Epidemiology, Johns Hopkins Bloomberg School of Public Health, Baltimore, Maryland, USA.
mBio. 2025 Jun 27:e0139025. doi: 10.1128/mbio.01390-25.
We previously identified genetic polymorphisms associated with -positive diarrhea at the locus containing the transcription factor, cAMP responsive element modulator (). Genetic association testing in birth cohorts of Bangladeshi children showed the previously described single nucleotide polymorphisms (SNPs) at the locus associated with positive diarrhea were independently associated with undernutrition at 1 year of age. The reference allele for both tested SNPs was associated with lower weight-for-age z-scores (WAZ) at 1 year of age (rs2148483: 0.161 reduction in WAZ per allele, = 0.007; rs58000832: 0.203 reduction in WAZ, = 0.001). Small intestinal transcriptome data from Bangladeshi and American children revealed differentially expressed genes (DEGs) were enriched for cAMP response element-binding sites. DEGs related to mitochondrial function were upregulated in the small intestine of children with the rs2148483 reference allele, while adaptive immune response processes were enriched among downregulated genes. Upregulation of mitochondrial function was mirrored by plasma metabolomics profiles concordant with a shift toward mitochondrial respiration. In mice, global conditional deletion of resulted in reduced body weight, downregulation of genes related to innate immune function, and upregulation of metabolic gene expression in the intestine. Tissue-specific deletion of in intestinal epithelial cells was sufficient to reduce overall body weight and alter intestinal expression of mitochondrial-related metabolic genes but not immune gene transcription. These data indicate that intestinal epithelial expression of is linked to body weight, plausibly by regulation of mitochondrial gene expression, while expression in other cell types influences the immune response to .IMPORTANCEUndernutrition and diarrheal disease are leading causes of global childhood morbidity and mortality. Undernutrition can present as a cause or consequence of diarrheal diseases, leading us to hypothesize these phenotypes share a common genetic basis. Our identification of cAMP responsive element modulator () as a transcriptional regulator that influences susceptibility to both undernutrition and diarrheal disease in children growing up in an impoverished Bangladeshi community advances our understanding of the interaction of two major causes of childhood illness and offers the potential of therapy targeted to the cAMP-regulated transcription factor, .
我们之前在包含转录因子环磷酸腺苷反应元件调节剂(CREM)的基因座上鉴定出了与阳性腹泻相关的基因多态性。对孟加拉国儿童出生队列进行的基因关联测试表明,之前描述的位于该基因座上与阳性腹泻相关的单核苷酸多态性(SNP)与1岁时的营养不良独立相关。所测试的两个SNP的参考等位基因均与1岁时较低的年龄别体重Z评分(WAZ)相关(rs2148483:每个等位基因WAZ降低0.161,P = 0.007;rs58000832:WAZ降低0.203,P = 0.001)。来自孟加拉国和美国儿童的小肠转录组数据显示,差异表达基因(DEG)富含环磷酸腺苷反应元件结合位点。与线粒体功能相关的DEG在携带rs2148483参考等位基因的儿童小肠中上调,而适应性免疫反应过程在下调基因中富集。线粒体功能的上调反映在血浆代谢组学谱上,与向线粒体呼吸的转变一致。在小鼠中,CREM的全身性条件性缺失导致体重减轻、与先天免疫功能相关基因的下调以及肠道中代谢基因表达的上调。在肠道上皮细胞中特异性缺失CREM足以降低总体体重并改变肠道中线粒体相关代谢基因的表达,但不会影响免疫基因转录。这些数据表明,CREM在肠道上皮中的表达与体重相关,可能是通过调节线粒体基因表达实现的,而CREM在其他细胞类型中的表达会影响对腹泻的免疫反应。
重要性
营养不良和腹泻病是全球儿童发病和死亡的主要原因。营养不良可能是腹泻病的原因或后果,这使我们推测这些表型具有共同的遗传基础。我们鉴定出环磷酸腺苷反应元件调节剂(CREM)作为一种转录调节因子,它影响在贫困的孟加拉国社区成长的儿童对营养不良和腹泻病的易感性,这增进了我们对儿童期两种主要疾病相互作用的理解,并为针对环磷酸腺苷调节的转录因子CREM的治疗提供了潜力。
