Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention
Differentiated cells acquire unique structural and functional traits through coordinated expression of lineage-specific genes. An extensive battery of genes encoding components of the synaptic transmission machinery and specialized cytoskeletal proteins is activated during neurogenesis, but the unde...
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sg-ntu-dr.10356-1003682023-02-28T17:04:59Z Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention Yap, Karen. Lim, Zhao Qin. Khandelia, Piyush. Friedman, Brad. Makeyev, Eugene V. School of Biological Sciences DRNTU::Science::Biological sciences Differentiated cells acquire unique structural and functional traits through coordinated expression of lineage-specific genes. An extensive battery of genes encoding components of the synaptic transmission machinery and specialized cytoskeletal proteins is activated during neurogenesis, but the underlying regulation is not well understood. Here we show that genes encoding critical presynaptic proteins are transcribed at a detectable level in both neurons and nonneuronal cells. However, in nonneuronal cells, the splicing of 3′-terminal introns within these genes is repressed by the polypyrimidine tract-binding protein (Ptbp1). This inhibits the export of incompletely spliced mRNAs to the cytoplasm and triggers their nuclear degradation. Clearance of these intron-containing transcripts occurs independently of the nonsense-mediated decay (NMD) pathway but requires components of the nuclear RNA surveillance machinery, including the nuclear pore-associated protein Tpr and the exosome complex. When Ptbp1 expression decreases during neuronal differentiation, the regulated introns are spliced out, thus allowing the accumulation of translation-competent mRNAs in the cytoplasm. We propose that this mechanism counters ectopic and precocious expression of functionally linked neuron-specific genes and ensures their coherent activation in the appropriate developmental context. Published version 2013-10-04T07:08:06Z 2019-12-06T20:21:16Z 2013-10-04T07:08:06Z 2019-12-06T20:21:16Z 2012 2012 Journal Article Yap, K., Lim, Z. Q., Khandelia, P., Friedman, B., & Makeyev, E. V. (2012). Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention. Genes & Development, 26, 1209-1223. https://hdl.handle.net/10356/100368 http://hdl.handle.net/10220/16280 10.1101/gad.188037.112 22661231 en Genes & development © 2012 Cold Spring Harbor Laboratory Press. This paper was published in Genes & Development and is made available as an electronic reprint (preprint) with permission of Cold Spring Harbor Laboratory Press. The paper can be found at the following official DOI: [http://dx.doi.org/10.1101/gad.188037.112]. One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. application/pdf |
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DRNTU::Science::Biological sciences Yap, Karen. Lim, Zhao Qin. Khandelia, Piyush. Friedman, Brad. Makeyev, Eugene V. Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention |
| description |
Differentiated cells acquire unique structural and functional traits through coordinated expression of lineage-specific genes. An extensive battery of genes encoding components of the synaptic transmission machinery and specialized cytoskeletal proteins is activated during neurogenesis, but the underlying regulation is not well understood. Here we show that genes encoding critical presynaptic proteins are transcribed at a detectable level in both neurons and nonneuronal cells. However, in nonneuronal cells, the splicing of 3′-terminal introns within these genes is repressed by the polypyrimidine tract-binding protein (Ptbp1). This inhibits the export of incompletely spliced mRNAs to the cytoplasm and triggers their nuclear degradation. Clearance of these intron-containing transcripts occurs independently of the nonsense-mediated decay (NMD) pathway but requires components of the nuclear RNA surveillance machinery, including the nuclear pore-associated protein Tpr and the exosome complex. When Ptbp1 expression decreases during neuronal differentiation, the regulated introns are spliced out, thus allowing the accumulation of translation-competent mRNAs in the cytoplasm. We propose that this mechanism counters ectopic and precocious expression of functionally linked neuron-specific genes and ensures their coherent activation in the appropriate developmental context. |
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School of Biological Sciences |
| author_facet |
School of Biological Sciences Yap, Karen. Lim, Zhao Qin. Khandelia, Piyush. Friedman, Brad. Makeyev, Eugene V. |
| format |
Article |
| author |
Yap, Karen. Lim, Zhao Qin. Khandelia, Piyush. Friedman, Brad. Makeyev, Eugene V. |
| author_sort |
Yap, Karen. |
| title |
Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention |
| title_short |
Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention |
| title_full |
Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention |
| title_fullStr |
Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention |
| title_full_unstemmed |
Coordinated regulation of neuronal mRNA steady-state levels through developmentally controlled intron retention |
| title_sort |
coordinated regulation of neuronal mrna steady-state levels through developmentally controlled intron retention |
| publishDate |
2013 |
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https://hdl.handle.net/10356/100368 http://hdl.handle.net/10220/16280 |
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1759854307442688000 |