KSHV transactivator-derived small peptide traps coactivators to attenuate MYC and inhibits leukemia and lymphoma cell growth

Michiko Shimoda; Yuanzhi Lyu; Kang Hsin Wang; Ashish Kumar; Hiroki Miura; Joshua F. Meckler; Ryan R. Davis; Chanikarn Chantarasrivong; Chie Izumiya; Clifford G. Tepper; Ken ichi Nakajima; Joseph Tuscano; Gustavo Barisone; Yoshihiro Izumiya

doi:10.1038/s42003-021-02853-0

KSHV transactivator-derived small peptide traps coactivators to attenuate MYC and inhibits leukemia and lymphoma cell growth

Michiko Shimoda, Yuanzhi Lyu, Kang Hsin Wang, Ashish Kumar, Hiroki Miura, Joshua F. Meckler, Ryan R. Davis, Chanikarn Chantarasrivong, Chie Izumiya, Clifford G. Tepper, Ken ichi Nakajima, Joseph Tuscano, Gustavo Barisone, Yoshihiro Izumiya

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

6 Citations (Scopus)

Abstract

In herpesvirus replicating cells, host cell gene transcription is frequently down-regulated because important transcriptional apparatuses are appropriated by viral transcription factors. Here, we show a small peptide derived from the Kaposi’s sarcoma-associated herpesvirus transactivator (K-Rta) sequence, which attenuates cellular MYC expression, reduces cell proliferation, and selectively kills cancer cell lines in both tissue culture and a xenograft tumor mouse model. Mechanistically, the peptide functions as a decoy to block the recruitment of coactivator complexes consisting of Nuclear receptor coactivator 2 (NCOA2), p300, and SWI/SNF proteins to the MYC promoter in primary effusion lymphoma cells. Thiol(SH)-linked alkylation for the metabolic sequencing of RNA (SLAM seq) with target-transcriptional analyses further confirm that the viral peptide directly attenuates MYC and MYC-target gene expression. This study thus provides a unique tool to control MYC activation, which may be used as a therapeutic payload to treat MYC-dependent diseases such as cancers and autoimmune diseases.

Original language	English
Article number	1330
Journal	Communications biology
Volume	4
Issue number	1
DOIs	https://doi.org/10.1038/s42003-021-02853-0
Publication status	Published - 12-2021
Externally published	Yes

All Science Journal Classification (ASJC) codes

Medicine (miscellaneous)
General Biochemistry,Genetics and Molecular Biology
General Agricultural and Biological Sciences

UN SDGs

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

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10.1038/s42003-021-02853-0

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Shimoda, M., Lyu, Y., Wang, K. H., Kumar, A., Miura, H., Meckler, J. F., Davis, R. R., Chantarasrivong, C., Izumiya, C., Tepper, C. G., Nakajima, K. I., Tuscano, J., Barisone, G., & Izumiya, Y. (2021). KSHV transactivator-derived small peptide traps coactivators to attenuate MYC and inhibits leukemia and lymphoma cell growth. Communications biology, 4(1), Article 1330. https://doi.org/10.1038/s42003-021-02853-0

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title = "KSHV transactivator-derived small peptide traps coactivators to attenuate MYC and inhibits leukemia and lymphoma cell growth",

abstract = "In herpesvirus replicating cells, host cell gene transcription is frequently down-regulated because important transcriptional apparatuses are appropriated by viral transcription factors. Here, we show a small peptide derived from the Kaposi{\textquoteright}s sarcoma-associated herpesvirus transactivator (K-Rta) sequence, which attenuates cellular MYC expression, reduces cell proliferation, and selectively kills cancer cell lines in both tissue culture and a xenograft tumor mouse model. Mechanistically, the peptide functions as a decoy to block the recruitment of coactivator complexes consisting of Nuclear receptor coactivator 2 (NCOA2), p300, and SWI/SNF proteins to the MYC promoter in primary effusion lymphoma cells. Thiol(SH)-linked alkylation for the metabolic sequencing of RNA (SLAM seq) with target-transcriptional analyses further confirm that the viral peptide directly attenuates MYC and MYC-target gene expression. This study thus provides a unique tool to control MYC activation, which may be used as a therapeutic payload to treat MYC-dependent diseases such as cancers and autoimmune diseases.",

author = "Michiko Shimoda and Yuanzhi Lyu and Wang, {Kang Hsin} and Ashish Kumar and Hiroki Miura and Meckler, {Joshua F.} and Davis, {Ryan R.} and Chanikarn Chantarasrivong and Chie Izumiya and Tepper, {Clifford G.} and Nakajima, {Ken ichi} and Joseph Tuscano and Gustavo Barisone and Yoshihiro Izumiya",

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year = "2021",

month = dec,

doi = "10.1038/s42003-021-02853-0",

language = "English",

volume = "4",

journal = "Communications biology",

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Shimoda, M, Lyu, Y, Wang, KH, Kumar, A, Miura, H, Meckler, JF, Davis, RR, Chantarasrivong, C, Izumiya, C, Tepper, CG, Nakajima, KI, Tuscano, J, Barisone, G & Izumiya, Y 2021, 'KSHV transactivator-derived small peptide traps coactivators to attenuate MYC and inhibits leukemia and lymphoma cell growth', Communications biology, vol. 4, no. 1, 1330. https://doi.org/10.1038/s42003-021-02853-0

TY - JOUR

T1 - KSHV transactivator-derived small peptide traps coactivators to attenuate MYC and inhibits leukemia and lymphoma cell growth

AU - Shimoda, Michiko

AU - Lyu, Yuanzhi

AU - Wang, Kang Hsin

AU - Kumar, Ashish

AU - Miura, Hiroki

AU - Meckler, Joshua F.

AU - Davis, Ryan R.

AU - Chantarasrivong, Chanikarn

AU - Izumiya, Chie

AU - Tepper, Clifford G.

AU - Nakajima, Ken ichi

AU - Tuscano, Joseph

AU - Barisone, Gustavo

AU - Izumiya, Yoshihiro

PY - 2021/12

Y1 - 2021/12

N2 - In herpesvirus replicating cells, host cell gene transcription is frequently down-regulated because important transcriptional apparatuses are appropriated by viral transcription factors. Here, we show a small peptide derived from the Kaposi’s sarcoma-associated herpesvirus transactivator (K-Rta) sequence, which attenuates cellular MYC expression, reduces cell proliferation, and selectively kills cancer cell lines in both tissue culture and a xenograft tumor mouse model. Mechanistically, the peptide functions as a decoy to block the recruitment of coactivator complexes consisting of Nuclear receptor coactivator 2 (NCOA2), p300, and SWI/SNF proteins to the MYC promoter in primary effusion lymphoma cells. Thiol(SH)-linked alkylation for the metabolic sequencing of RNA (SLAM seq) with target-transcriptional analyses further confirm that the viral peptide directly attenuates MYC and MYC-target gene expression. This study thus provides a unique tool to control MYC activation, which may be used as a therapeutic payload to treat MYC-dependent diseases such as cancers and autoimmune diseases.

AB - In herpesvirus replicating cells, host cell gene transcription is frequently down-regulated because important transcriptional apparatuses are appropriated by viral transcription factors. Here, we show a small peptide derived from the Kaposi’s sarcoma-associated herpesvirus transactivator (K-Rta) sequence, which attenuates cellular MYC expression, reduces cell proliferation, and selectively kills cancer cell lines in both tissue culture and a xenograft tumor mouse model. Mechanistically, the peptide functions as a decoy to block the recruitment of coactivator complexes consisting of Nuclear receptor coactivator 2 (NCOA2), p300, and SWI/SNF proteins to the MYC promoter in primary effusion lymphoma cells. Thiol(SH)-linked alkylation for the metabolic sequencing of RNA (SLAM seq) with target-transcriptional analyses further confirm that the viral peptide directly attenuates MYC and MYC-target gene expression. This study thus provides a unique tool to control MYC activation, which may be used as a therapeutic payload to treat MYC-dependent diseases such as cancers and autoimmune diseases.

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DO - 10.1038/s42003-021-02853-0

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AN - SCOPUS:85120738019

SN - 2399-3642

VL - 4

JO - Communications biology

JF - Communications biology

IS - 1

M1 - 1330

ER -

KSHV transactivator-derived small peptide traps coactivators to attenuate MYC and inhibits leukemia and lymphoma cell growth

Abstract

All Science Journal Classification (ASJC) codes

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