Inhibition of the DNA damage response phosphatase PPM1D reprograms neutrophils to enhance anti-tumor immune responses

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作者
Burhan Uyanik
Anastasia R. Goloudina
Aamir Akbarali
Bogdan B. Grigorash
Alexey V. Petukhov
Sunil Singhal
Evgeniy Eruslanov
Jeanne Chaloyard
Lisa Lagorgette
Tarik Hadi
Ekaterina V. Baidyuk
Hiroyasu Sakai
Lino Tessarollo
Bernhard Ryffel
Sharlyn J. Mazur
Frederic Lirussi
Carmen Garrido
Ettore Appella
Oleg N. Demidov
机构
[1] University of Burgundy Franche-Comté,INSERM UMR1231, LipSTIC
[2] Institute of Cytology,Laboratory of Cell Biology
[3] RAS,Department of Surgery, Perelman School of Medicine
[4] Center for Center Research,Mouse Cancer Genetics Program
[5] National Cancer Institute,INEM, Experimental and Molecular Immunology and Neurogenetics
[6] NTU Sirius,PACE, Plateau d’Analyses Chromatographiques et Elémentaires, Department of Pharmacology
[7] Almazov National Medical Research Centre,Toxicology & Metabolomics
[8] University of Pennsylvania,undefined
[9] Center for Cancer Research,undefined
[10] National Cancer Institute,undefined
[11] University of Orléans,undefined
[12] CNRS,undefined
[13] UMRP735,undefined
[14] University hospital of Besançon (CHU),undefined
[15] 2 Boulevard Fleming,undefined
[16] Georges François Leclerc Center,undefined
来源
Nature Communications | / 12卷
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摘要
PPM1D/Wip1 is a negative regulator of the tumor suppressor p53 and is overexpressed in several human solid tumors. Recent reports associate gain-of-function mutations of PPM1D in immune cells with worse outcomes for several human cancers. Here we show that mice with genetic knockout of Ppm1d or with conditional knockout of Ppm1d in the hematopoietic system, in myeloid cells, or in neutrophils all display significantly reduced growth of syngeneic melanoma or lung carcinoma tumors. Ppm1d knockout neutrophils infiltrate tumors extensively. Chemical inhibition of Wip1 in human or mouse neutrophils increases anti-tumor phenotypes, p53-dependent expression of co-stimulatory ligands, and proliferation of co-cultured cytotoxic T cells. These results suggest that inhibition of Wip1 in neutrophils enhances immune anti-tumor responses.
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