Nutrients, Vol. 18, Pages 612: Biotin Deficiency Alters the Expression Profile of Colonic microRNAs: Possible Contribution to the Alterations in Expression of Proteins Involved in the Maintenance of Colonic Physiology and Inflammation

Nutrients, Vol. 18, Pages 612: Biotin Deficiency Alters the Expression Profile of Colonic microRNAs: Possible Contribution to the Alterations in Expression of Proteins Involved in the Maintenance of Colonic Physiology and Inflammation

Nutrients doi: 10.3390/nu18040612

Authors:
Subrata Sabui
Kalidas Ramamoorthy
Selvaraj Anthonymuthu
Hamid M. Said

Background/Objectives: Biotin plays important roles in critical metabolic reactions and also contributes to the regulation of gene expression. While its role in regulating gene expression via transcriptional/epigenetic mechanisms is well established, little is known about its ability to regulate expression at the post-transcriptional level. Methods: To address this, we examined how biotin deficiency affects microRNAs (miRNAs) expression in the colon, a tissue that is impacted by deficiency of this micronutrient. Results: We identified (by miRNA sequencing) 26 miRNAs whose expression was significantly altered in the colon of biotin-deficient mice compared with pair-fed controls. Among these, ten miRNAs with known roles in mucosal physiology and inflammation were selected for direct validation, and their altered expression patterns were confirmed by RT-qPCR. In silico analyses further revealed that important proteins involved in maintaining normal colonic function (the tight junction protein ZO1 and the stem cell marker LGR5) and in mediating inflammation (NLRP3 and calprotectin), all of which are dysregulated in biotin deficiency, possess putative binding sites on 3′-UTR for several of the altered miRNAs. Moreover, transient transfection of miR-190a-5p and miR-199a-5p, whose expression was upregulated during biotin deficiency and predicted to target ZO1 and LGR5, respectively, in human colonic NCM460 cells, led to a significant reduction in the level of the corresponding mRNAs, confirming functional regulation of these targets. IPA further showed that the differentially expressed miRNAs are associated with gastrointestinal and inflammatory disease pathways. Conclusions: Findings of this investigation show that biotin deficiency disrupts colonic miRNA expression, potentially contributing to downstream alterations in important physiological and inflammatory protein expression.

​Background/Objectives: Biotin plays important roles in critical metabolic reactions and also contributes to the regulation of gene expression. While its role in regulating gene expression via transcriptional/epigenetic mechanisms is well established, little is known about its ability to regulate expression at the post-transcriptional level. Methods: To address this, we examined how biotin deficiency affects microRNAs (miRNAs) expression in the colon, a tissue that is impacted by deficiency of this micronutrient. Results: We identified (by miRNA sequencing) 26 miRNAs whose expression was significantly altered in the colon of biotin-deficient mice compared with pair-fed controls. Among these, ten miRNAs with known roles in mucosal physiology and inflammation were selected for direct validation, and their altered expression patterns were confirmed by RT-qPCR. In silico analyses further revealed that important proteins involved in maintaining normal colonic function (the tight junction protein ZO1 and the stem cell marker LGR5) and in mediating inflammation (NLRP3 and calprotectin), all of which are dysregulated in biotin deficiency, possess putative binding sites on 3′-UTR for several of the altered miRNAs. Moreover, transient transfection of miR-190a-5p and miR-199a-5p, whose expression was upregulated during biotin deficiency and predicted to target ZO1 and LGR5, respectively, in human colonic NCM460 cells, led to a significant reduction in the level of the corresponding mRNAs, confirming functional regulation of these targets. IPA further showed that the differentially expressed miRNAs are associated with gastrointestinal and inflammatory disease pathways. Conclusions: Findings of this investigation show that biotin deficiency disrupts colonic miRNA expression, potentially contributing to downstream alterations in important physiological and inflammatory protein expression. Read More