Author
Listed:
- Luigi Racioppi
(Division of Hematological Malignancies and Cellular Therapy, Duke University School of Medicine
University of Naples Federico II)
- Erik R. Nelson
(Molecular and Integrative Physiology, University of Illinois at Urbana-Champaign
University of Illinois Cancer Center
University of Illinois at Urbana-Champaign)
- Wei Huang
(Division of Hematological Malignancies and Cellular Therapy, Duke University School of Medicine)
- Debarati Mukherjee
(Duke University School of Medicine)
- Scott A. Lawrence
(Duke University School of Medicine
Eli Lilly and Company)
- William Lento
(Division of Hematological Malignancies and Cellular Therapy, Duke University School of Medicine)
- Anna Maria Masci
(Duke University)
- Yiquin Jiao
(Division of Hematological Malignancies and Cellular Therapy, Duke University School of Medicine)
- Sunghee Park
(Duke University School of Medicine)
- Brian York
(Baylor College of Medicine
Baylor College of Medicine)
- Yaping Liu
(Division of Hematological Malignancies and Cellular Therapy, Duke University School of Medicine)
- Amy E. Baek
(Molecular and Integrative Physiology, University of Illinois at Urbana-Champaign)
- David H. Drewry
(GlaxoSmithKline, Research Triangle Park
UNC Eshelman School of Pharmacy)
- William J. Zuercher
(GlaxoSmithKline, Research Triangle Park
UNC Eshelman School of Pharmacy)
- Francesca R. Bertani
(CNR IFN Institute for Photonics and Nanotechnologies)
- Luca Businaro
(CNR IFN Institute for Photonics and Nanotechnologies)
- Joseph Geradts
(City of Hope National Medical Center
Duke University School of Medicine)
- Allison Hall
(Duke University School of Medicine)
- Anthony R. Means
(Baylor College of Medicine
Baylor College of Medicine)
- Nelson Chao
(Division of Hematological Malignancies and Cellular Therapy, Duke University School of Medicine)
- Ching-yi Chang
(Duke University School of Medicine)
- Donald P. McDonnell
(Duke University School of Medicine)
Abstract
Tumor-associated myeloid cells regulate tumor growth and metastasis, and their accumulation is a negative prognostic factor for breast cancer. Here we find calcium/calmodulin-dependent kinase kinase (CaMKK2) to be highly expressed within intratumoral myeloid cells in mouse models of breast cancer, and demonstrate that its inhibition within myeloid cells suppresses tumor growth by increasing intratumoral accumulation of effector CD8+ T cells and immune-stimulatory myeloid subsets. Tumor-associated macrophages (TAMs) isolated from Camkk2−/− mice expressed higher levels of chemokines involved in the recruitment of effector T cells compared to WT. Similarly, in vitro generated Camkk2−/− macrophages recruit more T cells, and have a reduced capability to suppress T cell proliferation, compared to WT. Treatment with CaMKK2 inhibitors blocks tumor growth in a CD8+ T cell-dependent manner, and facilitates a favorable reprogramming of the immune cell microenvironment. These data, credential CaMKK2 as a myeloid-selective checkpoint, the inhibition of which may have utility in the immunotherapy of breast cancer.
Suggested Citation
Luigi Racioppi & Erik R. Nelson & Wei Huang & Debarati Mukherjee & Scott A. Lawrence & William Lento & Anna Maria Masci & Yiquin Jiao & Sunghee Park & Brian York & Yaping Liu & Amy E. Baek & David H. , 2019.
"CaMKK2 in myeloid cells is a key regulator of the immune-suppressive microenvironment in breast cancer,"
Nature Communications, Nature, vol. 10(1), pages 1-16, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-10424-5
DOI: 10.1038/s41467-019-10424-5
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