PDL1 Regulation by p53 via miR-34

Maria Angelica Cortez; Cristina Ivan; David Valdecanas; Xiaohong Wang; Heidi J. Peltier; Yuping Ye; Luiz Araujo; David P. Carbone; Konstantin Shilo; Dipak K. Giri; Kevin Kelnar; Desiree Martin; Ritsuko Komaki; Daniel R. Gomez; Sunil Krishnan; George A. Calin; Andreas G. Bader; James W. Welsh

doi:10.1093/jnci/djv303

PDL1 Regulation by p53 via miR-34

Maria Angelica Cortez, Cristina Ivan, David Valdecanas, Xiaohong Wang, Heidi J. Peltier, Yuping Ye, Luiz Araujo, David P. Carbone, Konstantin Shilo, Dipak K. Giri, Kevin Kelnar, Desiree Martin, Ritsuko Komaki, Daniel R. Gomez, Sunil Krishnan, George A. Calin, Andreas G. Bader, James W. Welsh

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

496 Scopus citations

Abstract

Background: Although clinical studies have shown promise for targeting PD1/PDL1 signaling in non-small cell lung cancer (NSCLC), the regulation of PDL1 expression is poorly understood. Here, we show that PDL1 is regulated by p53 via miR-34. Methods: p53 wild-type and p53-deficient cell lines (p53^-/- and p53^+/+ HCT116, p53-inducible H1299, and p53-knockdown H460) were used to determine if p53 regulates PDL1 via miR-34. PDL1 and miR-34a expression were analyzed in samples from patients with NSCLC and mutated p53 vs wild-type p53 tumors from The Cancer Genome Atlas for Lung Adenocarcinoma (TCGA LUAD). We confirmed that PDL1 is a direct target of miR-34 with western blotting and luciferase assays and used a p53^R172HΔg/+K-ras^LA1/+ syngeneic mouse model (n = 12) to deliver miR-34a-loaded liposomes (MRX34) plus radiotherapy (XRT) and assessed PDL1 expression and tumor-infiltrating lymphocytes (TILs). A two-sided t test was applied to compare the mean between different treatments. Results: We found that p53 regulates PDL1 via miR-34, which directly binds to the PDL1 3' untranslated region in models of NSCLC (fold-change luciferase activity to control group, mean for miR-34a = 0.50, SD = 0.2, P <. 001; mean for miR-34b = 0.52, SD = 0.2, P =. 006; and mean for miR-34c = 0.59, SD = 0.14, and P =. 006). Therapeutic delivery of MRX34, currently the subject of a phase I clinical trial, promoted TILs (mean of CD8 expression percentage of control group = 22.5%, SD = 1.9%; mean of CD8 expression percentage of MRX34 = 30.1%, SD = 3.7%, P =. 016, n = 4) and reduced CD8⁺PD1⁺ cells in vivo (mean of CD8/PD1 expression percentage of control group = 40.2%, SD = 6.2%; mean of CD8/PD1 expression percentage of MRX34 = 20.3%, SD = 5.1%, P =. 001, n = 4). Further, MRX34 plus XRT increased CD8⁺ cell numbers more than either therapy alone (mean of CD8 expression percentage of MRX34 plus XRT to control group = 44.2%, SD = 8.7%, P =. 004, n = 4). Finally, miR-34a delivery reduced the numbers of radiation-induced macrophages (mean of F4-80 expression percentage of control group = 52.4%, SD = 1.7%; mean of F4-80 expression percentage of MRX34 = 40.1%, SD = 3.5%, P =. 008, n = 4) and T-regulatory cells. Conclusions: We identified a novel mechanism by which tumor immune evasion is regulated by p53/miR-34/PDL1 axis. Our results suggest that delivery of miRNAs with standard therapies, such as XRT, may represent a novel therapeutic approach for lung cancer.

Original language	English (US)
Article number	djv303
Journal	Journal of the National Cancer Institute
Volume	108
Issue number	1
DOIs	https://doi.org/10.1093/jnci/djv303
State	Published - Jan 1 2016

ASJC Scopus subject areas

Oncology
Cancer Research

MD Anderson CCSG core facilities

Advanced Technology Genomics Core
Research Animal Support Facility
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10.1093/jnci/djv303

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Cortez, M. A., Ivan, C., Valdecanas, D., Wang, X., Peltier, H. J., Ye, Y., Araujo, L., Carbone, D. P., Shilo, K., Giri, D. K., Kelnar, K., Martin, D., Komaki, R., Gomez, D. R., Krishnan, S., Calin, G. A., Bader, A. G., & Welsh, J. W. (2016). PDL1 Regulation by p53 via miR-34. Journal of the National Cancer Institute, 108(1), Article djv303. https://doi.org/10.1093/jnci/djv303

@article{14a70913642b48c1893bcb0a076b313c,

title = "PDL1 Regulation by p53 via miR-34",

abstract = "Background: Although clinical studies have shown promise for targeting PD1/PDL1 signaling in non-small cell lung cancer (NSCLC), the regulation of PDL1 expression is poorly understood. Here, we show that PDL1 is regulated by p53 via miR-34. Methods: p53 wild-type and p53-deficient cell lines (p53-/- and p53+/+ HCT116, p53-inducible H1299, and p53-knockdown H460) were used to determine if p53 regulates PDL1 via miR-34. PDL1 and miR-34a expression were analyzed in samples from patients with NSCLC and mutated p53 vs wild-type p53 tumors from The Cancer Genome Atlas for Lung Adenocarcinoma (TCGA LUAD). We confirmed that PDL1 is a direct target of miR-34 with western blotting and luciferase assays and used a p53R172HΔg/+K-rasLA1/+ syngeneic mouse model (n = 12) to deliver miR-34a-loaded liposomes (MRX34) plus radiotherapy (XRT) and assessed PDL1 expression and tumor-infiltrating lymphocytes (TILs). A two-sided t test was applied to compare the mean between different treatments. Results: We found that p53 regulates PDL1 via miR-34, which directly binds to the PDL1 3' untranslated region in models of NSCLC (fold-change luciferase activity to control group, mean for miR-34a = 0.50, SD = 0.2, P <. 001; mean for miR-34b = 0.52, SD = 0.2, P =. 006; and mean for miR-34c = 0.59, SD = 0.14, and P =. 006). Therapeutic delivery of MRX34, currently the subject of a phase I clinical trial, promoted TILs (mean of CD8 expression percentage of control group = 22.5%, SD = 1.9%; mean of CD8 expression percentage of MRX34 = 30.1%, SD = 3.7%, P =. 016, n = 4) and reduced CD8+PD1+ cells in vivo (mean of CD8/PD1 expression percentage of control group = 40.2%, SD = 6.2%; mean of CD8/PD1 expression percentage of MRX34 = 20.3%, SD = 5.1%, P =. 001, n = 4). Further, MRX34 plus XRT increased CD8+ cell numbers more than either therapy alone (mean of CD8 expression percentage of MRX34 plus XRT to control group = 44.2%, SD = 8.7%, P =. 004, n = 4). Finally, miR-34a delivery reduced the numbers of radiation-induced macrophages (mean of F4-80 expression percentage of control group = 52.4%, SD = 1.7%; mean of F4-80 expression percentage of MRX34 = 40.1%, SD = 3.5%, P =. 008, n = 4) and T-regulatory cells. Conclusions: We identified a novel mechanism by which tumor immune evasion is regulated by p53/miR-34/PDL1 axis. Our results suggest that delivery of miRNAs with standard therapies, such as XRT, may represent a novel therapeutic approach for lung cancer.",

author = "Cortez, {Maria Angelica} and Cristina Ivan and David Valdecanas and Xiaohong Wang and Peltier, {Heidi J.} and Yuping Ye and Luiz Araujo and Carbone, {David P.} and Konstantin Shilo and Giri, {Dipak K.} and Kevin Kelnar and Desiree Martin and Ritsuko Komaki and Gomez, {Daniel R.} and Sunil Krishnan and Calin, {George A.} and Bader, {Andreas G.} and Welsh, {James W.}",

note = "Publisher Copyright: {\textcopyright} 2015 The Author.",

year = "2016",

month = jan,

day = "1",

doi = "10.1093/jnci/djv303",

language = "English (US)",

volume = "108",

journal = "Journal of the National Cancer Institute",

issn = "0027-8874",

publisher = "Oxford University Press",

number = "1",

}

TY - JOUR

T1 - PDL1 Regulation by p53 via miR-34

AU - Cortez, Maria Angelica

AU - Ivan, Cristina

AU - Valdecanas, David

AU - Wang, Xiaohong

AU - Peltier, Heidi J.

AU - Ye, Yuping

AU - Araujo, Luiz

AU - Carbone, David P.

AU - Shilo, Konstantin

AU - Giri, Dipak K.

AU - Kelnar, Kevin

AU - Martin, Desiree

AU - Komaki, Ritsuko

AU - Gomez, Daniel R.

AU - Krishnan, Sunil

AU - Calin, George A.

AU - Bader, Andreas G.

AU - Welsh, James W.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Background: Although clinical studies have shown promise for targeting PD1/PDL1 signaling in non-small cell lung cancer (NSCLC), the regulation of PDL1 expression is poorly understood. Here, we show that PDL1 is regulated by p53 via miR-34. Methods: p53 wild-type and p53-deficient cell lines (p53-/- and p53+/+ HCT116, p53-inducible H1299, and p53-knockdown H460) were used to determine if p53 regulates PDL1 via miR-34. PDL1 and miR-34a expression were analyzed in samples from patients with NSCLC and mutated p53 vs wild-type p53 tumors from The Cancer Genome Atlas for Lung Adenocarcinoma (TCGA LUAD). We confirmed that PDL1 is a direct target of miR-34 with western blotting and luciferase assays and used a p53R172HΔg/+K-rasLA1/+ syngeneic mouse model (n = 12) to deliver miR-34a-loaded liposomes (MRX34) plus radiotherapy (XRT) and assessed PDL1 expression and tumor-infiltrating lymphocytes (TILs). A two-sided t test was applied to compare the mean between different treatments. Results: We found that p53 regulates PDL1 via miR-34, which directly binds to the PDL1 3' untranslated region in models of NSCLC (fold-change luciferase activity to control group, mean for miR-34a = 0.50, SD = 0.2, P <. 001; mean for miR-34b = 0.52, SD = 0.2, P =. 006; and mean for miR-34c = 0.59, SD = 0.14, and P =. 006). Therapeutic delivery of MRX34, currently the subject of a phase I clinical trial, promoted TILs (mean of CD8 expression percentage of control group = 22.5%, SD = 1.9%; mean of CD8 expression percentage of MRX34 = 30.1%, SD = 3.7%, P =. 016, n = 4) and reduced CD8+PD1+ cells in vivo (mean of CD8/PD1 expression percentage of control group = 40.2%, SD = 6.2%; mean of CD8/PD1 expression percentage of MRX34 = 20.3%, SD = 5.1%, P =. 001, n = 4). Further, MRX34 plus XRT increased CD8+ cell numbers more than either therapy alone (mean of CD8 expression percentage of MRX34 plus XRT to control group = 44.2%, SD = 8.7%, P =. 004, n = 4). Finally, miR-34a delivery reduced the numbers of radiation-induced macrophages (mean of F4-80 expression percentage of control group = 52.4%, SD = 1.7%; mean of F4-80 expression percentage of MRX34 = 40.1%, SD = 3.5%, P =. 008, n = 4) and T-regulatory cells. Conclusions: We identified a novel mechanism by which tumor immune evasion is regulated by p53/miR-34/PDL1 axis. Our results suggest that delivery of miRNAs with standard therapies, such as XRT, may represent a novel therapeutic approach for lung cancer.

AB - Background: Although clinical studies have shown promise for targeting PD1/PDL1 signaling in non-small cell lung cancer (NSCLC), the regulation of PDL1 expression is poorly understood. Here, we show that PDL1 is regulated by p53 via miR-34. Methods: p53 wild-type and p53-deficient cell lines (p53-/- and p53+/+ HCT116, p53-inducible H1299, and p53-knockdown H460) were used to determine if p53 regulates PDL1 via miR-34. PDL1 and miR-34a expression were analyzed in samples from patients with NSCLC and mutated p53 vs wild-type p53 tumors from The Cancer Genome Atlas for Lung Adenocarcinoma (TCGA LUAD). We confirmed that PDL1 is a direct target of miR-34 with western blotting and luciferase assays and used a p53R172HΔg/+K-rasLA1/+ syngeneic mouse model (n = 12) to deliver miR-34a-loaded liposomes (MRX34) plus radiotherapy (XRT) and assessed PDL1 expression and tumor-infiltrating lymphocytes (TILs). A two-sided t test was applied to compare the mean between different treatments. Results: We found that p53 regulates PDL1 via miR-34, which directly binds to the PDL1 3' untranslated region in models of NSCLC (fold-change luciferase activity to control group, mean for miR-34a = 0.50, SD = 0.2, P <. 001; mean for miR-34b = 0.52, SD = 0.2, P =. 006; and mean for miR-34c = 0.59, SD = 0.14, and P =. 006). Therapeutic delivery of MRX34, currently the subject of a phase I clinical trial, promoted TILs (mean of CD8 expression percentage of control group = 22.5%, SD = 1.9%; mean of CD8 expression percentage of MRX34 = 30.1%, SD = 3.7%, P =. 016, n = 4) and reduced CD8+PD1+ cells in vivo (mean of CD8/PD1 expression percentage of control group = 40.2%, SD = 6.2%; mean of CD8/PD1 expression percentage of MRX34 = 20.3%, SD = 5.1%, P =. 001, n = 4). Further, MRX34 plus XRT increased CD8+ cell numbers more than either therapy alone (mean of CD8 expression percentage of MRX34 plus XRT to control group = 44.2%, SD = 8.7%, P =. 004, n = 4). Finally, miR-34a delivery reduced the numbers of radiation-induced macrophages (mean of F4-80 expression percentage of control group = 52.4%, SD = 1.7%; mean of F4-80 expression percentage of MRX34 = 40.1%, SD = 3.5%, P =. 008, n = 4) and T-regulatory cells. Conclusions: We identified a novel mechanism by which tumor immune evasion is regulated by p53/miR-34/PDL1 axis. Our results suggest that delivery of miRNAs with standard therapies, such as XRT, may represent a novel therapeutic approach for lung cancer.

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PDL1 Regulation by p53 via miR-34

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