Circulating hematopoietic stem and progenitor cells are myeloid-biased in cancer patients

Wu, Wen-Chao; Sun, Hong-Wei; Chen, Haitian; Liang, Jing; Yu, Xing-Juan; Wu, Chong; Wang, Zilian; Zheng, Limin

doi:10.1073/pnas.1320753111

Cited by 172 publications

(211 citation statements)

References 34 publications

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“…However, the detailed mechanisms of this effect in humans remain elusive. In a recent study, Wu and colleagues confirmed the role of GM-CSF and IL6 during the expansion of MDSCs from human CD34 þ hematopoietic progenitor cells (46). Utilizing murine bone marrow cells, human CD34 þ hematopoietic progenitor cells and a human monocyte-neuroblastoma coculture model, we provided insightful results emphasizing the key contribution of the M-CSF/CSF-1R pathway during the induction of MDSCs and TAMs.…”

Section: Discussionsupporting

confidence: 52%

Targeting Suppressive Myeloid Cells Potentiates Checkpoint Inhibitors to Control Spontaneous Neuroblastoma

Mao

Eißler

Blanc

et al. 2016

Clinical Cancer Research

124

105

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Purpose: Neuroblastoma is the most common extracranial solid cancer type in childhood, and high-risk patients have poor prognosis despite aggressive multimodal treatment. Neuroblastoma-driven inflammation contributes to the induction of suppressive myeloid cells that hamper efficient antitumor immune responses. Therefore, we sought to enhance antitumor immunity by removing immunosuppression mediated by myeloid cells.Experimental

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Section: Discussionsupporting

confidence: 52%

Targeting Suppressive Myeloid Cells Potentiates Checkpoint Inhibitors to Control Spontaneous Neuroblastoma

Mao

Eißler

Blanc

et al. 2016

Clinical Cancer Research

124

105

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“…Meanwhile, immune effector cells not only produce large amounts of inflammatory cytokines to alleviate immune damage caused by anticancer drugs and enhance the immunosurveillance capabilities of patients with cancer, 37 but additionally eliminate potential or residual tumor cells after chemotherapy, including even drug-resistant tumor cells and putative cancer stem cells. [38][39][40] Secondly, alternate application of CIK and NK cells exhibits a synergistic antitumor immunity via different mechanisms compared to the CIT with only CIK cells, which was also found by Maniar et al and Cui et al 34,35 On the other hand, it was reported that the circulating hematopoietic stem and progenitor cells from various patients with solid cancers exhibited a generalized myeloid bias with a skew toward granulocytic differentiation, 41 which increased the neutrophil-to-lymphocyte ratio (NLR), a poor prognostic indicator. 42 Adjuvant CIT could reverse the NLR, resulting in immune equilibrium to reduce tumor recurrence and metastasis.…”

Section: Discussionmentioning

confidence: 69%

Adjuvant cellular immunotherapy in patients with resected primary non-small cell lung cancer

et al. 2015

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Postoperative non-small cell lung cancer (NSCLC) patients require adjuvant therapy to improve their prognosis. In this study, we investigated the efficacy of a sequential combination of autologous cellular immunotherapy (CIT) and chemotherapy for postoperative NSCLC. This retrospective study included 120 postoperative NSCLC patients: 60 cases received only chemotherapy; 33 cases received chemotherapy and sequential CIT with cytokine-induced killer (CIK) cells; and 27 cases received chemotherapy and sequential CIT with alternate CIK and natural killer (NK) cells. Survival analysis showed significantly higher overall survival rates in the CIT group compared with the control group. Overall survival was higher in patients who received CIT with alternate CIK and NK cells than those who received treatment with only CIK cells. Multivariate analysis showed that adjuvant CIT was an independent prognostic factor for overall survival of patients with NSCLC. In subgroup analyses, adjuvant CIT significantly improved the overall survival of patients with less than 60 y old and positive lymph node. In conclusions, these data indicate that adjuvant CIT, especially with alternate application of CIK and NK cells, is an effective therapeutic approach to prolong survival of patients with NSCLC, particularly for patients 60 y old with positive lymph nodes.

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“…Expansion of these early BM compartments by G-CSF could provide a constant supply of lineage-committed progenitors during tumor-induced production of Ly6G + neutrophils. This would also explain the increased number of granulocytemacrophage colony-forming units observed in BM of HER2 transgenic BALB/c tumor-bearing mice (49), and the increased numbers of circulating HSPCs observed in the blood of human patients with different types of carcinomas that also show elevated G-CSF levels (50). The pleiotropic mechanisms by which G-CSF regulates myeloid progenitor differentiation and proliferation (51), apoptosis of mature neutrophils (52), and priming of neutrophil activation (53), together with our previously unidentified observations of expansion of HSCs and MPPs, support the hypothesis that pathways involved in immune activation are also linked to early hematopoiesis to fulfill the demand of the immune system (35).…”

Section: Discussionmentioning

confidence: 98%

“…Skewing of HSPC differentiation toward the myeloid lineage has been reported in mouse models (30,49) and in human patients (50) with different types of solid tumors, but until now the mechanism responsible was not known. Our data demonstrate a previously unidentified mechanism for the production of T cell-suppressive neutrophils in which early compartments of the hematopoietic hierarchy in BM are regulated by tumor-derived G-CSF.…”

Section: Discussionmentioning

confidence: 99%

Invasive breast cancer reprograms early myeloid differentiation in the bone marrow to generate immunosuppressive neutrophils

Casbon¹,

Reynaud

Park³

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

361

345

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Expansion of myeloid cells associated with solid tumor development is a key contributor to neoplastic progression. Despite their clinical relevance, the mechanisms controlling myeloid cell production and activity in cancer remains poorly understood. Using a multistage mouse model of breast cancer, we show that production of atypical T cell-suppressive neutrophils occurs during early tumor progression, at the onset of malignant conversion, and that these cells preferentially accumulate in peripheral tissues but not in the primary tumor. Production of these cells results from activation of a myeloid differentiation program in bone marrow (BM) by a novel mechanism in which tumor-derived granulocyte-colony stimulating factor (G-CSF) directs expansion and differentiation of hematopoietic stem cells to skew hematopoiesis toward the myeloid lineage. Chronic skewing of myeloid production occurred in parallel to a decrease in erythropoiesis in BM in mice with progressive disease. Significantly, we reveal that prolonged G-CSF stimulation is both necessary and sufficient for the distinguishing characteristics of tumor-induced immunosuppressive neutrophils. These results demonstrate that prolonged G-CSF may be responsible for both the development and activity of immunosuppressive neutrophils in cancer.

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Circulating hematopoietic stem and progenitor cells are myeloid-biased in cancer patients

Cited by 172 publications

References 34 publications

Targeting Suppressive Myeloid Cells Potentiates Checkpoint Inhibitors to Control Spontaneous Neuroblastoma

Targeting Suppressive Myeloid Cells Potentiates Checkpoint Inhibitors to Control Spontaneous Neuroblastoma

Adjuvant cellular immunotherapy in patients with resected primary non-small cell lung cancer

Invasive breast cancer reprograms early myeloid differentiation in the bone marrow to generate immunosuppressive neutrophils

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