Identification of chimeric RNAs in human infant brains and their implications in neural differentiation

Yue Tang; Shanshan Ma; Xinxin Wang; Qu Xing; Tuanjie Huang; Hongtao Liu; Qinghua Li; Yanting Zhang; Kun Zhang; Minghao Yao; Greta Luyuan Yang; Hui Li; Xingxing Zang; Bo Yang; Fangxia Guan

doi:10.1016/j.biocel.2019.03.012

Identification of chimeric RNAs in human infant brains and their implications in neural differentiation

Yue Tang, Shanshan Ma, Xinxin Wang, Qu Xing, Tuanjie Huang, Hongtao Liu, Qinghua Li, Yanting Zhang, Kun Zhang, Minghao Yao, Greta Luyuan Yang, Hui Li, Xingxing Zang, Bo Yang, Fangxia Guan

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

Chimeric RNAs are transcripts composed of RNA fragments from different genes and are traditionally well-known cancer-causing genetic events. Recent studies show chimeric RNAs being present in multiple non-neoplastic tissues and cells, suggesting that at least some may have roles in normal physiology. However, chimeric RNAs and their implications in brain development and neural differentiation have not been formally studied. Here, we firstly characterized the landscape of chimeric RNAs in human infant brain tissues and identified 599 chimeric RNAs. Through a series of filtering, 22 were selected and tested in a neural differentiation process starting from stem cells. Ten were validated experimentally. One of these ten chimeric RNAs, DUS4L-BCAP29, dramatically increased when human umbilical mesenchymal stem cells were induced for neural differentiation. Consistently, we found that overexpressed DUS4L-BCAP29 effectively promoted neural differentiation. Our results support the important role(s) chimeric RNAs play in neural differentiation, and are consistent with the new notion that chimeric RNAs also exist in normal physiology, and likely serve biological purposes.

Original language	English (US)
Pages (from-to)	19-26
Number of pages	8
Journal	International Journal of Biochemistry and Cell Biology
Volume	111
DOIs	https://doi.org/10.1016/j.biocel.2019.03.012
State	Published - Jun 2019

Keywords

Brain
Chimeric RNAs
DUS4L-BCAP29
Mesenchymal stem cells
Neural differentiation

ASJC Scopus subject areas

Biochemistry
Cell Biology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.biocel.2019.03.012

Cite this

Tang, Y., Ma, S., Wang, X., Xing, Q., Huang, T., Liu, H., Li, Q., Zhang, Y., Zhang, K., Yao, M., Yang, G. L., Li, H., Zang, X., Yang, B., & Guan, F. (2019). Identification of chimeric RNAs in human infant brains and their implications in neural differentiation. International Journal of Biochemistry and Cell Biology, 111, 19-26. https://doi.org/10.1016/j.biocel.2019.03.012

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title = "Identification of chimeric RNAs in human infant brains and their implications in neural differentiation",

abstract = "Chimeric RNAs are transcripts composed of RNA fragments from different genes and are traditionally well-known cancer-causing genetic events. Recent studies show chimeric RNAs being present in multiple non-neoplastic tissues and cells, suggesting that at least some may have roles in normal physiology. However, chimeric RNAs and their implications in brain development and neural differentiation have not been formally studied. Here, we firstly characterized the landscape of chimeric RNAs in human infant brain tissues and identified 599 chimeric RNAs. Through a series of filtering, 22 were selected and tested in a neural differentiation process starting from stem cells. Ten were validated experimentally. One of these ten chimeric RNAs, DUS4L-BCAP29, dramatically increased when human umbilical mesenchymal stem cells were induced for neural differentiation. Consistently, we found that overexpressed DUS4L-BCAP29 effectively promoted neural differentiation. Our results support the important role(s) chimeric RNAs play in neural differentiation, and are consistent with the new notion that chimeric RNAs also exist in normal physiology, and likely serve biological purposes.",

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author = "Yue Tang and Shanshan Ma and Xinxin Wang and Qu Xing and Tuanjie Huang and Hongtao Liu and Qinghua Li and Yanting Zhang and Kun Zhang and Minghao Yao and Yang, {Greta Luyuan} and Hui Li and Xingxing Zang and Bo Yang and Fangxia Guan",

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doi = "10.1016/j.biocel.2019.03.012",

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AU - Tang, Yue

AU - Ma, Shanshan

AU - Wang, Xinxin

AU - Xing, Qu

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AU - Liu, Hongtao

AU - Li, Qinghua

AU - Zhang, Yanting

AU - Zhang, Kun

AU - Yao, Minghao

AU - Yang, Greta Luyuan

AU - Li, Hui

AU - Zang, Xingxing

AU - Yang, Bo

AU - Guan, Fangxia

PY - 2019/6

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N2 - Chimeric RNAs are transcripts composed of RNA fragments from different genes and are traditionally well-known cancer-causing genetic events. Recent studies show chimeric RNAs being present in multiple non-neoplastic tissues and cells, suggesting that at least some may have roles in normal physiology. However, chimeric RNAs and their implications in brain development and neural differentiation have not been formally studied. Here, we firstly characterized the landscape of chimeric RNAs in human infant brain tissues and identified 599 chimeric RNAs. Through a series of filtering, 22 were selected and tested in a neural differentiation process starting from stem cells. Ten were validated experimentally. One of these ten chimeric RNAs, DUS4L-BCAP29, dramatically increased when human umbilical mesenchymal stem cells were induced for neural differentiation. Consistently, we found that overexpressed DUS4L-BCAP29 effectively promoted neural differentiation. Our results support the important role(s) chimeric RNAs play in neural differentiation, and are consistent with the new notion that chimeric RNAs also exist in normal physiology, and likely serve biological purposes.

AB - Chimeric RNAs are transcripts composed of RNA fragments from different genes and are traditionally well-known cancer-causing genetic events. Recent studies show chimeric RNAs being present in multiple non-neoplastic tissues and cells, suggesting that at least some may have roles in normal physiology. However, chimeric RNAs and their implications in brain development and neural differentiation have not been formally studied. Here, we firstly characterized the landscape of chimeric RNAs in human infant brain tissues and identified 599 chimeric RNAs. Through a series of filtering, 22 were selected and tested in a neural differentiation process starting from stem cells. Ten were validated experimentally. One of these ten chimeric RNAs, DUS4L-BCAP29, dramatically increased when human umbilical mesenchymal stem cells were induced for neural differentiation. Consistently, we found that overexpressed DUS4L-BCAP29 effectively promoted neural differentiation. Our results support the important role(s) chimeric RNAs play in neural differentiation, and are consistent with the new notion that chimeric RNAs also exist in normal physiology, and likely serve biological purposes.

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KW - Chimeric RNAs

KW - DUS4L-BCAP29

KW - Mesenchymal stem cells

KW - Neural differentiation

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Identification of chimeric RNAs in human infant brains and their implications in neural differentiation

Abstract

Keywords

ASJC Scopus subject areas

UN SDGs

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