MicroRNAs from edible plants reach the human gastrointestinal tract and may act as potential regulators of gene expression

小RNA 生物 基因 基因表达 胃肠道 计算生物学 细胞生物学 遗传学 生物化学
作者
Ester Díez-Sainz,Fermı́n I. Milagro,Fermı́n I. Milagro,Fermı́n I. Milagro,Fermı́n I. Milagro,Fermı́n I. Milagro,José Ignacio Riezu‐Boj,José Ignacio Riezu‐Boj,Silvia Lorente‐Cebrián,Silvia Lorente‐Cebrián,Silvia Lorente‐Cebrián
出处
期刊:Journal of Physiology and Biochemistry [Springer Science+Business Media]
标识
DOI:10.1007/s13105-024-01023-0
摘要

Abstract MicroRNAs (miRNAs) are small single-stranded non-coding RNA molecules that regulate gene expression at the post-transcriptional level. A cross-kingdom regulatory function has been unveiled for plant miRNAs (xenomiRs), which could shape inter-species interactions of plants with other organisms (bacteria and humans) and thus, be key functional molecules of plant-based food in mammals. However, discrepancies regarding the stability and bioavailability of dietary plant miRNAs on the host cast in doubt whether these molecules could have a significant impact on human physiology. The aim of the present study was to identify miRNAs in edible plants and determine their bioavailability on humans after an acute intake of plant-based products. It was found that plant food, including fruits, vegetables and greens, nuts, legumes, and cereals, contains a wide range of miRNAs. XenomiRs miR156e, miR159 and miR162 were detected in great abundance in edible plants and were present among many plant foods, and thus, they were selected as candidates to analyse their bioavailability in humans. These plant miRNAs resisted cooking processes (heat-treatments) and their relative presence increased in faeces after and acute intake of plant-based foods, although they were not detected in serum. Bioinformatic analysis revealed that these miRNAs could potentially target human and bacterial genes involved in processes such as cell signalling and metabolism. In conclusion, edible plants contain miRNAs, such as miR156e, miR159 and miR162, that could resist degradation during cooking and digestion and reach the distal segments of the gastrointestinal tract. Nevertheless, strategies should be developed to improve their absorption to potentially reach host tissues and organs and modulate human physiology.

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