Jun Yao scite author profile

Exosomes are 40–100 nm nano-sized vesicles that are released from many cell types into the extracellular space. Such vesicles are widely distributed in various body fluids. Recently, mRNAs and microRNAs (miRNAs) have been identified in exosomes, which can be taken up by neighboring or distant cells and subsequently modulate recipient cells. This suggests an active sorting mechanism of exosomal miRNAs, since the miRNA profiles of exosomes may differ from those of the parent cells. Exosomal miRNAs play an important role in disease progression, and can stimulate angiogenesis and facilitate metastasis in cancers. In this review, we will introduce the origin and the trafficking of exosomes between cells, display current research on the sorting mechanism of exosomal miRNAs, and briefly describe how exosomes and their miRNAs function in recipient cells. Finally, we will discuss the potential applications of these miRNA-containing vesicles in clinical settings.

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Codon identity regulates mRNA stability and translation efficiency during the maternal‐to‐zygotic transition

Bazzini

et al. 2016

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Cellular transitions require dramatic changes in gene expression that are supported by regulated mRNA decay and new transcription. The maternal-to-zygotic transition is a conserved developmental progression during which thousands of maternal mRNAs are cleared by post-transcriptional mechanisms. Although some maternal mRNAs are targeted for degradation by microRNAs, this pathway does not fully explain mRNA clearance. We investigated how codon identity and translation affect mRNA stability during development and homeostasis. We show that the codon triplet contains translation-dependent regulatory information that influences transcript decay. Codon composition shapes maternal mRNA clearance during the maternal-to-zygotic transition in zebrafish, Xenopus, mouse, and Drosophila, and gene expression during homeostasis across human tissues. Some synonymous codons show consistent stabilizing or destabilizing effects, suggesting that amino acid composition influences mRNA stability. Codon composition affects both polyadenylation status and translation efficiency. Thus, the ribosome interprets two codes within the mRNA: the genetic code which specifies the amino acid sequence and a conserved "codon optimality code" that shapes mRNA stability and translation efficiency across vertebrates.

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Broad role for YBX1 in defining the small noncoding RNA composition of exosomes

Shurtleff

Yao

Qin

et al. 2017

Proc. Natl. Acad. Sci. U.S.A.

282

294

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SignificanceCells release vesicles containing selectively packaged cargo, including RNA, into the extracellular environment. Prior studies have identified RNA inside extracellular vesicles (EVs), but due to limitations of conventional sequencing methods, highly structured and posttranscriptionally modified RNA species were not effectively captured. Using an alternative sequencing approach (thermostable group II intron reverse transcriptase sequencing, TGIRT-seq), we found that EVs contain abundant small noncoding RNA species, including full-length transfer RNAs and Y RNAs. Using a knockout cell line, we obtained evidence that the RNA-binding protein YBX1 plays a role in sorting small noncoding RNAs into a subpopulation of EVs termed exosomes. These experiments expand our understanding of EV–RNA composition and provide insights into how RNA is sorted into EVs for cellular export.

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A cartilage ECM-derived 3-D porous acellular matrix scaffold for in vivo cartilage tissue engineering with PKH26-labeled chondrogenic bone marrow-derived mesenchymal stem cells

et al. 2008

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Jun Yao

Exosome and Exosomal MicroRNA: Trafficking, Sorting, and Function

Codon identity regulates mRNA stability and translation efficiency during the maternal‐to‐zygotic transition

Broad role for YBX1 in defining the small noncoding RNA composition of exosomes

A cartilage ECM-derived 3-D porous acellular matrix scaffold for in vivo cartilage tissue engineering with PKH26-labeled chondrogenic bone marrow-derived mesenchymal stem cells

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