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Evidence of transfer of miRNAs from the diet to the blood still inconclusive

MicroRNAs (miRNAs) are short, non-coding, single-strand RNA molecules that act as regulators of gene expression in plants and animals. In 2012, the first evidence was found that plant miRNAs could enter the bloodstream through the digestive tract. Since then, there has been an ongoing discussion abo...

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Autores principales: Mar-Aguilar, Fermín, Arreola-Triana, Alejandra, Mata-Cardona, Daniela, Gonzalez-Villasana, Vianey, Rodríguez-Padilla, Cristina, Reséndez-Pérez, Diana
Formato: Online Artículo Texto
Lenguaje:English
Publicado: PeerJ Inc. 2020
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7502231/
https://www.ncbi.nlm.nih.gov/pubmed/32995073
http://dx.doi.org/10.7717/peerj.9567
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author Mar-Aguilar, Fermín
Arreola-Triana, Alejandra
Mata-Cardona, Daniela
Gonzalez-Villasana, Vianey
Rodríguez-Padilla, Cristina
Reséndez-Pérez, Diana
author_facet Mar-Aguilar, Fermín
Arreola-Triana, Alejandra
Mata-Cardona, Daniela
Gonzalez-Villasana, Vianey
Rodríguez-Padilla, Cristina
Reséndez-Pérez, Diana
author_sort Mar-Aguilar, Fermín
collection PubMed
description MicroRNAs (miRNAs) are short, non-coding, single-strand RNA molecules that act as regulators of gene expression in plants and animals. In 2012, the first evidence was found that plant miRNAs could enter the bloodstream through the digestive tract. Since then, there has been an ongoing discussion about whether miRNAs from the diet are transferred to blood, accumulate in tissues, and regulate gene expression. Different research groups have tried to replicate these findings, using both plant and animal sources. Here, we review the evidence for and against the transfer of diet-derived miRNAs from plants, meat, milk and exosome and their assimilation and putative molecular regulation role in the consuming organism. Some groups using both miRNAs from plant and animal sources have claimed success, whereas others have not shown transfer. In spite of the biological barriers that may limit miRNA transference, several diet-derived miRNAs can transfer into the circulating system and targets genes for transcription regulation, which adds arguments that miRNAs can be absorbed from the diet and target specific genes by regulating their expression. However, many other studies show that cross-kingdom transfer of exogenous miRNAs appears to be insignificant and not biologically relevant. The main source of controversy in plant studies is the lack of reproducibility of the findings. For meat-derived miRNAs, studies concluded that the miRNAs can survive the cooking process; nevertheless, our evidence shows that the bovine miRNAs are not transferred to human bloodstream. The most important contributions and promising evidence in this controversial field is the transference of milk miRNAs in exosomes and the finding that plant miRNAs in beebread regulate honeybee caste development, and cause similar changes when fed to Drosophila. MiRNAs encapsulated in exosomes ensure their stability and resistance in the harsh conditions presented in milk, bloodstream, and gastrointestinaltract to reinforce the idea of transference. Regardless of the model organism, the idea of source of miRNAs, or the approach—bioinformatics or in vivo—the issue of transfer of miRNAs from the diet remains in doubt. Our understanding of the cross-kingdom talk of miRNAs needs more research to study the transfer of “xenomiRs” from different food sources to complement and expand what we know so far regarding the interspecies transfer of miRNAs.
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spelling pubmed-75022312020-09-28 Evidence of transfer of miRNAs from the diet to the blood still inconclusive Mar-Aguilar, Fermín Arreola-Triana, Alejandra Mata-Cardona, Daniela Gonzalez-Villasana, Vianey Rodríguez-Padilla, Cristina Reséndez-Pérez, Diana PeerJ Molecular Biology MicroRNAs (miRNAs) are short, non-coding, single-strand RNA molecules that act as regulators of gene expression in plants and animals. In 2012, the first evidence was found that plant miRNAs could enter the bloodstream through the digestive tract. Since then, there has been an ongoing discussion about whether miRNAs from the diet are transferred to blood, accumulate in tissues, and regulate gene expression. Different research groups have tried to replicate these findings, using both plant and animal sources. Here, we review the evidence for and against the transfer of diet-derived miRNAs from plants, meat, milk and exosome and their assimilation and putative molecular regulation role in the consuming organism. Some groups using both miRNAs from plant and animal sources have claimed success, whereas others have not shown transfer. In spite of the biological barriers that may limit miRNA transference, several diet-derived miRNAs can transfer into the circulating system and targets genes for transcription regulation, which adds arguments that miRNAs can be absorbed from the diet and target specific genes by regulating their expression. However, many other studies show that cross-kingdom transfer of exogenous miRNAs appears to be insignificant and not biologically relevant. The main source of controversy in plant studies is the lack of reproducibility of the findings. For meat-derived miRNAs, studies concluded that the miRNAs can survive the cooking process; nevertheless, our evidence shows that the bovine miRNAs are not transferred to human bloodstream. The most important contributions and promising evidence in this controversial field is the transference of milk miRNAs in exosomes and the finding that plant miRNAs in beebread regulate honeybee caste development, and cause similar changes when fed to Drosophila. MiRNAs encapsulated in exosomes ensure their stability and resistance in the harsh conditions presented in milk, bloodstream, and gastrointestinaltract to reinforce the idea of transference. Regardless of the model organism, the idea of source of miRNAs, or the approach—bioinformatics or in vivo—the issue of transfer of miRNAs from the diet remains in doubt. Our understanding of the cross-kingdom talk of miRNAs needs more research to study the transfer of “xenomiRs” from different food sources to complement and expand what we know so far regarding the interspecies transfer of miRNAs. PeerJ Inc. 2020-09-17 /pmc/articles/PMC7502231/ /pubmed/32995073 http://dx.doi.org/10.7717/peerj.9567 Text en ©2020 Mar-Aguilar et al. https://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, reproduction and adaptation in any medium and for any purpose provided that it is properly attributed. For attribution, the original author(s), title, publication source (PeerJ) and either DOI or URL of the article must be cited.
spellingShingle Molecular Biology
Mar-Aguilar, Fermín
Arreola-Triana, Alejandra
Mata-Cardona, Daniela
Gonzalez-Villasana, Vianey
Rodríguez-Padilla, Cristina
Reséndez-Pérez, Diana
Evidence of transfer of miRNAs from the diet to the blood still inconclusive
title Evidence of transfer of miRNAs from the diet to the blood still inconclusive
title_full Evidence of transfer of miRNAs from the diet to the blood still inconclusive
title_fullStr Evidence of transfer of miRNAs from the diet to the blood still inconclusive
title_full_unstemmed Evidence of transfer of miRNAs from the diet to the blood still inconclusive
title_short Evidence of transfer of miRNAs from the diet to the blood still inconclusive
title_sort evidence of transfer of mirnas from the diet to the blood still inconclusive
topic Molecular Biology
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7502231/
https://www.ncbi.nlm.nih.gov/pubmed/32995073
http://dx.doi.org/10.7717/peerj.9567
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