mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide.

Akinobu Matsumoto; Alessandra Pasut; Masaki Matsumoto; Ryu Yamashita; jacqueline Fung; Emanuele  Monteleone; Alan Saghatelian; Keiichi Nakayama; John Clohessy; Pier P. Pandolfi

mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide.

Akinobu Matsumoto, Alessandra Pasut, Masaki Matsumoto, Ryu Yamashita, jacqueline Fung, Emanuele Monteleone, Alan Saghatelian, Keiichi Nakayama, John Clohessy, Pier P. Pandolfi

研究成果: ジャーナルへの寄稿 › 記事

抄録

Although long non-coding RNAs (lncRNAs) are non-protein-coding transcripts by definition, recent studies have shown that a fraction of putative small open reading frames within lncRNAs are translated. However, the biological significance of these hidden polypeptides is still unclear. Here we identify and functionally characterize a novel polypeptide encoded by the lncRNA LINC00961. This polypeptide is conserved between human and mouse, is localized to the late endosome/lysosome and interacts with the lysosomal v-ATPase to negatively regulate mTORC1 activation. This regulation of mTORC1 is specific to activation of mTORC1 by amino acid stimulation, rather than by growth factors. Hence, we termed this polypeptide 'small regulatory polypeptide of amino acid response' (SPAR). We show that the SPAR-encoding lncRNA is highly expressed in a subset of tissues and use CRISPR/Cas9 engineering to develop a SPAR-polypeptide-specific knockout mouse while maintaining expression of the host lncRNA. We find that the SPAR-encoding lncRNA is downregulated in skeletal muscle upon acute injury, and using this in vivo model we establish that SPAR downregulation enables efficient activation of mTORC1 and promotes muscle regeneration. Our data provide a mechanism by which mTORC1 activation may be finely regulated in a tissue-specific manner in response to injury, and a paradigm by which lncRNAs encoding small polypeptides can modulate general biological pathways and processes to facilitate tissue-specific requirements, consistent with their restricted and highly regulated expression profile.

元の言語	英語
記事番号	541
ページ（範囲）	228
ページ数	5
ジャーナル	Nature
巻	541
発行部数	7636
出版物ステータス	出版済み - 2017

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Long Noncoding RNA

Regeneration

Amino Acids

Muscles

Peptides

mechanistic target of rapamycin complex 1

Down-Regulation

Clustered Regularly Interspaced Short Palindromic Repeats

Aminoacylation

Biological Phenomena

Endosomes

Wounds and Injuries

Lysosomes

Knockout Mice

Open Reading Frames

Adenosine Triphosphatases

Intercellular Signaling Peptides and Proteins

Skeletal Muscle

これを引用

Matsumoto, A., Pasut, A., Matsumoto, M., Yamashita, R., Fung, J., Monteleone, E., ... Pandolfi, P. P. (2017). mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide. Nature, 541(7636), 228. [541].

mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide. / Matsumoto, Akinobu; Pasut, Alessandra; Matsumoto, Masaki; Yamashita, Ryu; Fung, jacqueline; Monteleone, Emanuele ; Saghatelian, Alan; Nakayama, Keiichi; Clohessy, John; Pandolfi, Pier P.

：: Nature, 巻 541, 番号 7636, 541, 2017, p. 228.

研究成果: ジャーナルへの寄稿 › 記事

Matsumoto, A, Pasut, A, Matsumoto, M, Yamashita, R, Fung, J, Monteleone, E, Saghatelian, A, Nakayama, K, Clohessy, J & Pandolfi, PP 2017, 'mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide.', Nature, 巻. 541, 番号 7636, 541, pp. 228.

Matsumoto A, Pasut A, Matsumoto M, Yamashita R, Fung J, Monteleone E その他. mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide. Nature. 2017;541(7636):228. 541.

Matsumoto, Akinobu ; Pasut, Alessandra ; Matsumoto, Masaki ; Yamashita, Ryu ; Fung, jacqueline ; Monteleone, Emanuele ; Saghatelian, Alan ; Nakayama, Keiichi ; Clohessy, John ; Pandolfi, Pier P. / mTORC1 and muscle regeneration are regulated by the LINC00961-encoded SPAR polypeptide. ：: Nature. 2017 ; 巻 541, 番号 7636. pp. 228.

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abstract = "Although long non-coding RNAs (lncRNAs) are non-protein-coding transcripts by definition, recent studies have shown that a fraction of putative small open reading frames within lncRNAs are translated. However, the biological significance of these hidden polypeptides is still unclear. Here we identify and functionally characterize a novel polypeptide encoded by the lncRNA LINC00961. This polypeptide is conserved between human and mouse, is localized to the late endosome/lysosome and interacts with the lysosomal v-ATPase to negatively regulate mTORC1 activation. This regulation of mTORC1 is specific to activation of mTORC1 by amino acid stimulation, rather than by growth factors. Hence, we termed this polypeptide 'small regulatory polypeptide of amino acid response' (SPAR). We show that the SPAR-encoding lncRNA is highly expressed in a subset of tissues and use CRISPR/Cas9 engineering to develop a SPAR-polypeptide-specific knockout mouse while maintaining expression of the host lncRNA. We find that the SPAR-encoding lncRNA is downregulated in skeletal muscle upon acute injury, and using this in vivo model we establish that SPAR downregulation enables efficient activation of mTORC1 and promotes muscle regeneration. Our data provide a mechanism by which mTORC1 activation may be finely regulated in a tissue-specific manner in response to injury, and a paradigm by which lncRNAs encoding small polypeptides can modulate general biological pathways and processes to facilitate tissue-specific requirements, consistent with their restricted and highly regulated expression profile.",

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AU - Fung, jacqueline

AU - Monteleone, Emanuele

AU - Saghatelian, Alan

AU - Nakayama, Keiichi

AU - Clohessy, John

AU - Pandolfi, Pier P.

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N2 - Although long non-coding RNAs (lncRNAs) are non-protein-coding transcripts by definition, recent studies have shown that a fraction of putative small open reading frames within lncRNAs are translated. However, the biological significance of these hidden polypeptides is still unclear. Here we identify and functionally characterize a novel polypeptide encoded by the lncRNA LINC00961. This polypeptide is conserved between human and mouse, is localized to the late endosome/lysosome and interacts with the lysosomal v-ATPase to negatively regulate mTORC1 activation. This regulation of mTORC1 is specific to activation of mTORC1 by amino acid stimulation, rather than by growth factors. Hence, we termed this polypeptide 'small regulatory polypeptide of amino acid response' (SPAR). We show that the SPAR-encoding lncRNA is highly expressed in a subset of tissues and use CRISPR/Cas9 engineering to develop a SPAR-polypeptide-specific knockout mouse while maintaining expression of the host lncRNA. We find that the SPAR-encoding lncRNA is downregulated in skeletal muscle upon acute injury, and using this in vivo model we establish that SPAR downregulation enables efficient activation of mTORC1 and promotes muscle regeneration. Our data provide a mechanism by which mTORC1 activation may be finely regulated in a tissue-specific manner in response to injury, and a paradigm by which lncRNAs encoding small polypeptides can modulate general biological pathways and processes to facilitate tissue-specific requirements, consistent with their restricted and highly regulated expression profile.

AB - Although long non-coding RNAs (lncRNAs) are non-protein-coding transcripts by definition, recent studies have shown that a fraction of putative small open reading frames within lncRNAs are translated. However, the biological significance of these hidden polypeptides is still unclear. Here we identify and functionally characterize a novel polypeptide encoded by the lncRNA LINC00961. This polypeptide is conserved between human and mouse, is localized to the late endosome/lysosome and interacts with the lysosomal v-ATPase to negatively regulate mTORC1 activation. This regulation of mTORC1 is specific to activation of mTORC1 by amino acid stimulation, rather than by growth factors. Hence, we termed this polypeptide 'small regulatory polypeptide of amino acid response' (SPAR). We show that the SPAR-encoding lncRNA is highly expressed in a subset of tissues and use CRISPR/Cas9 engineering to develop a SPAR-polypeptide-specific knockout mouse while maintaining expression of the host lncRNA. We find that the SPAR-encoding lncRNA is downregulated in skeletal muscle upon acute injury, and using this in vivo model we establish that SPAR downregulation enables efficient activation of mTORC1 and promotes muscle regeneration. Our data provide a mechanism by which mTORC1 activation may be finely regulated in a tissue-specific manner in response to injury, and a paradigm by which lncRNAs encoding small polypeptides can modulate general biological pathways and processes to facilitate tissue-specific requirements, consistent with their restricted and highly regulated expression profile.

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