A small molecule screen to identify regulators of let-7 targets

J. Cinkornpumin; M. Roos; L. Nguyen; Xiaoguang Liu; X. Gaeta; S. Lin; D. N. Chan; A. Liu; R. I. Gregory; M. Jung; J. Chute; H. Zhu; W. E. Lowry

doi:10.1038/s41598-017-16258-9

A small molecule screen to identify regulators of let-7 targets

J. Cinkornpumin, M. Roos, L. Nguyen, Xiaoguang Liu, X. Gaeta, S. Lin, D. N. Chan, A. Liu, R. I. Gregory, M. Jung, J. Chute, H. Zhu, W. E. Lowry

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Abstract

The let-7 family of miRNAs has been shown to be crucial in many aspects of biology, from the regulation of developmental timing to cancer. The available methods to regulate this family of miRNAs have so far been mostly genetic and therefore not easily performed experimentally. Here, we describe a small molecule screen designed to identify regulators of let-7 targets in human cells. In particular, we focused our efforts on the identification of small molecules that could suppress let-7 targets, as these could serve to potentially intercede in tumors driven by loss of let-7 activity. After screening through roughly 36,000 compounds, we identified a class of phosphodiesterase inhibitors that suppress let-7 targets. These compounds stimulate cAMP levels and raise mature let-7 levels to suppress let-7 target genes in multiple cancer cell lines such as HMGA2 and MYC. As a result, these compounds also show growth inhibitory activity on cancer cells.

Original language	English (US)
Article number	15973
Journal	Scientific reports
Volume	7
Issue number	1
DOIs	https://doi.org/10.1038/s41598-017-16258-9
State	Published - Dec 1 2017

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10.1038/s41598-017-16258-9

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title = "A small molecule screen to identify regulators of let-7 targets",

abstract = "The let-7 family of miRNAs has been shown to be crucial in many aspects of biology, from the regulation of developmental timing to cancer. The available methods to regulate this family of miRNAs have so far been mostly genetic and therefore not easily performed experimentally. Here, we describe a small molecule screen designed to identify regulators of let-7 targets in human cells. In particular, we focused our efforts on the identification of small molecules that could suppress let-7 targets, as these could serve to potentially intercede in tumors driven by loss of let-7 activity. After screening through roughly 36,000 compounds, we identified a class of phosphodiesterase inhibitors that suppress let-7 targets. These compounds stimulate cAMP levels and raise mature let-7 levels to suppress let-7 target genes in multiple cancer cell lines such as HMGA2 and MYC. As a result, these compounds also show growth inhibitory activity on cancer cells.",

author = "J. Cinkornpumin and M. Roos and L. Nguyen and Xiaoguang Liu and X. Gaeta and S. Lin and Chan, {D. N.} and A. Liu and Gregory, {R. I.} and M. Jung and J. Chute and H. Zhu and Lowry, {W. E.}",

note = "Funding Information: We would like to acknowledge the technical effort of Sarah Gomez, and the support of the MSSR Screening Center at UCLA, particularly Ken Bradley and Robert Damoiseaux, to get the small molecule screen established. JC was a Bridges Trainee (CIRM). SL is a Damon Runyon-Sohn Pediatric Fellow supported by the Damon Runyon Cancer Research Foundation (DRSG-[7–13]). MR is supported by an innovative pilot stem cell research grant from The Eli and Edythe Broad Foundation. JC was supported by a CIRM Leadership award (LA1-08014). RG is supported by the National Cancer Institute (NCI) (R01CA163467). LN was supported by the HHMI International Student Fellowship. HZ was supported by the Pollack Foundation, a NIH/NCI R01 grant (1R01CA190525), a Burroughs Welcome Career Medical Award, and a CPRIT New Investigator Grant (R1209). WL held the Maria Rowena Ross Term Chair in Cell Biology during this period, and this work was supported by the NIH (NIGMS P01GM99134). Publisher Copyright: {\textcopyright} 2017 The Author(s).",

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doi = "10.1038/s41598-017-16258-9",

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AU - Cinkornpumin, J.

AU - Roos, M.

AU - Nguyen, L.

AU - Liu, Xiaoguang

AU - Gaeta, X.

AU - Lin, S.

AU - Chan, D. N.

AU - Liu, A.

AU - Gregory, R. I.

AU - Jung, M.

AU - Chute, J.

AU - Zhu, H.

AU - Lowry, W. E.

N1 - Funding Information: We would like to acknowledge the technical effort of Sarah Gomez, and the support of the MSSR Screening Center at UCLA, particularly Ken Bradley and Robert Damoiseaux, to get the small molecule screen established. JC was a Bridges Trainee (CIRM). SL is a Damon Runyon-Sohn Pediatric Fellow supported by the Damon Runyon Cancer Research Foundation (DRSG-[7–13]). MR is supported by an innovative pilot stem cell research grant from The Eli and Edythe Broad Foundation. JC was supported by a CIRM Leadership award (LA1-08014). RG is supported by the National Cancer Institute (NCI) (R01CA163467). LN was supported by the HHMI International Student Fellowship. HZ was supported by the Pollack Foundation, a NIH/NCI R01 grant (1R01CA190525), a Burroughs Welcome Career Medical Award, and a CPRIT New Investigator Grant (R1209). WL held the Maria Rowena Ross Term Chair in Cell Biology during this period, and this work was supported by the NIH (NIGMS P01GM99134). Publisher Copyright: © 2017 The Author(s).

PY - 2017/12/1

Y1 - 2017/12/1

N2 - The let-7 family of miRNAs has been shown to be crucial in many aspects of biology, from the regulation of developmental timing to cancer. The available methods to regulate this family of miRNAs have so far been mostly genetic and therefore not easily performed experimentally. Here, we describe a small molecule screen designed to identify regulators of let-7 targets in human cells. In particular, we focused our efforts on the identification of small molecules that could suppress let-7 targets, as these could serve to potentially intercede in tumors driven by loss of let-7 activity. After screening through roughly 36,000 compounds, we identified a class of phosphodiesterase inhibitors that suppress let-7 targets. These compounds stimulate cAMP levels and raise mature let-7 levels to suppress let-7 target genes in multiple cancer cell lines such as HMGA2 and MYC. As a result, these compounds also show growth inhibitory activity on cancer cells.

AB - The let-7 family of miRNAs has been shown to be crucial in many aspects of biology, from the regulation of developmental timing to cancer. The available methods to regulate this family of miRNAs have so far been mostly genetic and therefore not easily performed experimentally. Here, we describe a small molecule screen designed to identify regulators of let-7 targets in human cells. In particular, we focused our efforts on the identification of small molecules that could suppress let-7 targets, as these could serve to potentially intercede in tumors driven by loss of let-7 activity. After screening through roughly 36,000 compounds, we identified a class of phosphodiesterase inhibitors that suppress let-7 targets. These compounds stimulate cAMP levels and raise mature let-7 levels to suppress let-7 target genes in multiple cancer cell lines such as HMGA2 and MYC. As a result, these compounds also show growth inhibitory activity on cancer cells.

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A small molecule screen to identify regulators of let-7 targets

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