scholarly journals STAT5 is activated in macrophages by breast cancer cell-derived factors and regulates macrophage function in the tumor microenvironment

2021 ◽  
Vol 23 (1) ◽  
Author(s):  
Emily A. Jesser ◽  
Nicholas J. Brady ◽  
Danielle N. Huggins ◽  
Patrice M. Witschen ◽  
Christine H. O’Connor ◽  
...  

Abstract Background In breast cancer, complex interactions between tumor cells and cells within the surrounding stroma, such as macrophages, are critical for tumor growth, progression, and therapeutic response. Recent studies have highlighted the complex nature and heterogeneous populations of macrophages associated with both tumor-promoting and tumor-inhibiting phenotypes. Defining the pathways that drive macrophage function is important for understanding their complex phenotypes within the tumor microenvironment. Signal transducer and activator of transcription (STAT) transcription factors, such as STAT5, are key regulators of immune cell function. The studies described here investigate the functional contributions of STAT5 to tumor-associated macrophage function in breast cancer. Methods Initial studies were performed using a panel of human breast cancer and mouse mammary tumor cell lines to determine the ability of tumor cell-derived factors to induce STAT5 activation in macrophages. Further studies used these models to identify soluble factors that activate STAT5 in macrophages. To delineate STAT5-specific contributions to macrophage function, a conditional model of myeloid STAT5 deletion was used for in vitro, RNA-sequencing, and in vivo studies. The effects of STAT5 deletion in macrophages on tumor cell migration and metastasis were evaluated using in vitro co-culture migration assays and an in vivo tumor cell-macrophage co-injection model. Results We demonstrate here that STAT5 is robustly activated in macrophages by tumor cell-derived factors and that GM-CSF is a key cytokine stimulating this pathway. The analysis of RNA-seq studies reveals that STAT5 promotes expression of immune stimulatory genes in macrophages and that loss of STAT5 in macrophages results in increased expression of tissue remodeling factors. Finally, we demonstrate that loss of STAT5 in macrophages promotes tumor cell migration in vitro and mammary tumor metastasis in vivo. Conclusions Breast cancer cells produce soluble factors, such as GM-CSF, that activate the STAT5 pathway in macrophages and drive expression of inflammatory factors. STAT5 deletion in myeloid cells enhances metastasis, suggesting that STAT5 activation in tumor-associated macrophages protects against tumor progression. Understanding mechanisms that drive macrophage function in the tumor microenvironment will ultimately lead to new approaches that suppress tumor-promoting functions while enhancing their anti-tumor functions.

2017 ◽  
Vol 35 (15_suppl) ◽  
pp. e23149-e23149
Author(s):  
Thomas Nelius ◽  
Courtney Jarvis ◽  
Stephanie Filleur

e23149 Background: Despite the approval of several new agents, taxanes remains the main treatment with survival benefits for castration-refractory metastatic prostate cancer/mCRPC. Still their mechanisms of action and therapeutic efficacy remain incompletely characterized. In the present study, we proposed to compare docetaxel/Doc and cabazitaxel/Cab, delivered as monotherapy or in combination with the anti-angiogenic and anti-tumoral Pigment Epithelium-Derived Factor/PEDF, on CRPC cells in vitro and in vivo. Methods: CRPCcells were assessed for cell growth, cell cycle, and apoptosis under taxane/control treatment by cytotoxicity, PI incorporation and TUNEL assays. CL1 cells that express PEDF/control were used in vivo. Tumor cells were injected s.c. into CB17-SCID mice. After two weeks, mice were randomized into groups: 1) Placebo; 2) Doc 5mg/kg i.p. d4; and 3) Cab 5-1-0.5-0.1mg/kg i.p. d4, d1-7, d2, daily. To assess the anti-tumor effect of the combination, tumor cell migration and phagocytosis were measured by Boyden chamber and confocal microscopy analyses of CL1-RAW264.7 macrophages co-cultures. Results: Cab was more cytotoxic than Doc in all the cell lines tested.This effect was concomitant to increased cell death, but was not due to autophagy or necrosis. Inversely, we showed that apoptosis was superior in Cab-treated cells than in Doc treatment. In vivo, while 0.5 and 0.1 mg/kg Cab did not improve PEDF efficacy on tumor growth, 1mg/kg was very toxic. In contrast, PEDF combined with 5mg/kg Cab lead to stabilization of the disease and was also found to be drastically more efficient than PEDF/Doc in delaying the disease. In vitro, PEDF/Cab inhibited tumor cell migration at a significant superior level compared to PEDF/Doc. Finally, tumor cells phagocytosis was induced in PEDF/Cab suggesting that the combination may target macrophages within the tumor microenvironment. Conclusions: Our data demonstrated the greater anti-tumor efficacy of Cab compared to Doc. They also insist on the fact that PEDF/Cab could be used as a novel combined therapy for CRPC, and emphasize on the importance in evaluating the cytotoxicity of the novel combination tested and investigating the role of the tumor microenvironment in the anti-tumor effect.


2003 ◽  
Vol 160 (2) ◽  
pp. 267-277 ◽  
Author(s):  
Katarina Wolf ◽  
Irina Mazo ◽  
Harry Leung ◽  
Katharina Engelke ◽  
Ulrich H. von Andrian ◽  
...  

Invasive tumor dissemination in vitro and in vivo involves the proteolytic degradation of ECM barriers. This process, however, is only incompletely attenuated by protease inhibitor–based treatment, suggesting the existence of migratory compensation strategies. In three-dimensional collagen matrices, spindle-shaped proteolytically potent HT-1080 fibrosarcoma and MDA-MB-231 carcinoma cells exhibited a constitutive mesenchymal-type movement including the coclustering of β1 integrins and MT1–matrix metalloproteinase (MMP) at fiber bindings sites and the generation of tube-like proteolytic degradation tracks. Near-total inhibition of MMPs, serine proteases, cathepsins, and other proteases, however, induced a conversion toward spherical morphology at near undiminished migration rates. Sustained protease-independent migration resulted from a flexible amoeba-like shape change, i.e., propulsive squeezing through preexisting matrix gaps and formation of constriction rings in the absence of matrix degradation, concomitant loss of clustered β1 integrins and MT1-MMP from fiber binding sites, and a diffuse cortical distribution of the actin cytoskeleton. Acquisition of protease-independent amoeboid dissemination was confirmed for HT-1080 cells injected into the mouse dermis monitored by intravital multiphoton microscopy. In conclusion, the transition from proteolytic mesenchymal toward nonproteolytic amoeboid movement highlights a supramolecular plasticity mechanism in cell migration and further represents a putative escape mechanism in tumor cell dissemination after abrogation of pericellular proteolysis.


2003 ◽  
Vol 44 (1) ◽  
pp. 279-284 ◽  
Author(s):  
J. Chen ◽  
J. A. Rodriguez ◽  
B. Barnett ◽  
N. Hashimoto ◽  
J. Tang ◽  
...  

2017 ◽  
Vol 35 (6_suppl) ◽  
pp. 275-275
Author(s):  
Thomas Nelius ◽  
Courtney Jarvis ◽  
Stephanie Filleur

275 Background: Despite the approval of several new agents, taxanes remain the main alternative treatment for castration-refractory metastatic prostate cancer (mCRPC). In a previous work, we have demonstrated that cabazitaxel is more efficient in a low-dose setting than docetaxel in inhibiting the proliferation and inducing apoptosis of CRPC cells in vitro, and delaying tumor growth in vivo. In the present study, we have investigated the efficacy of low-dose cabazitaxel when combined with the anti-angiogenic and anti-tumoral Pigment Epithelium-Derived Factor (PEDF). Methods: CRPC CL1 cells (LNCaP-derivative) that express PEDF or control plasmid were used. Tumor cells were injected s.c. into C.B.17-SCID mice. After two weeks, mice were randomized into groups: 1) Placebo; 2) Docetaxel: 5mg/kg i.p. d4; and 3) Cabazitazel 5-1-0.5-0.1mg/kg i.p. d4, d1-7, d2, and daily. To investigate the molecular mechanisms involved in the anti-tumor effect of the combined treatment, tumor cell migration was measured using the inverted Boyden chamber assay. Tumor cell phagocytosis was also assessed in CL1-RAW264.7 macrophages co-cultures. Results: We showed that while 0.5 and 0.1 mg/kg cabazitaxel did not improve PEDF efficacy on tumor growth, 1mg/kg was extremely toxic, killing 1/2 animals within the first week of treatment. In contrast, we demonstrated that PEDF combined with 5mg/kg cabazitaxel lead to stabilization of the disease. PEDF/cabazitaxel was also found to be drastically more efficient than PEDF/docetaxel in delaying the disease. In vitro, PEDF/cabazitaxel inhibited tumor cell migration at a superior level compared to PEDF/docetaxel. Finally, PEDF/cabazitaxel induced more phagocytosis of the tumor cells by macrophages than PEDF/docetaxel suggesting that the combination may target macrophages within the tumor microenvironment. Conclusions: Our data demonstrated that PEDF with low-dose cabazitaxel could be used as a novel therapeutic combination to treat CRPC. Our results also emphasize on the importance in closely evaluating the cytotoxicity of the combination tested and investigating the role of the tumor microenvironment in the anti-tumor effect.


2020 ◽  
Vol 3 (1) ◽  
pp. 10
Author(s):  
Jinsoo Yoon ◽  
Christopher R. Parish ◽  
Lucy A. Coupland

Bioluminescent tumor cell lines are used extensively in vivo to monitor tumor growth and metastasis but rarely used in vitro to follow tumor cell behavior. Tumor cell migration is frequently studied in vitro using transwell assays, however, current methods do not permit the co-incubation of tumor cells with different stromal cell types for analysis of the effects of intercellular cross-talk on tumor cell migration. We describe a novel migration assay using bioluminescent tumor cell lines that is rapid, accurate, and permits the study of the effects of tumor cell-stromal cell interactions on tumor cell migratory behavior.


Oncogenesis ◽  
2021 ◽  
Vol 10 (3) ◽  
Author(s):  
Fabiana Alejandra Rossi ◽  
Juliana Haydeé Enriqué Steinberg ◽  
Ezequiel Hernán Calvo Roitberg ◽  
Molishree Umesh Joshi ◽  
Ahwan Pandey ◽  
...  

AbstractTumor cell dissemination in cancer patients is associated with a significant reduction in their survival and quality of life. The ubiquitination pathway plays a fundamental role in the maintenance of protein homeostasis both in normal and stressed conditions and its dysregulation has been associated with malignant transformation and invasive potential of tumor cells, thus highlighting its value as a potential therapeutic target. In order to identify novel molecular targets of tumor cell migration and invasion we performed a genetic screen with an shRNA library against ubiquitination pathway-related genes. To this end, we set up a protocol to specifically enrich positive migration regulator candidates. We identified the deubiquitinase USP19 and demonstrated that its silencing reduces the migratory and invasive potential of highly invasive breast cancer cell lines. We extended our investigation in vivo and confirmed that mice injected with USP19 depleted cells display increased tumor-free survival, as well as a delay in the onset of the tumor formation and a significant reduction in the appearance of metastatic foci, indicating that tumor cell invasion and dissemination is impaired. In contrast, overexpression of USP19 increased cell invasiveness both in vitro and in vivo, further validating our findings. More importantly, we demonstrated that USP19 catalytic activity is important for the control of tumor cell migration and invasion, and that its molecular mechanism of action involves LRP6, a Wnt co-receptor. Finally, we showed that USP19 overexpression is a surrogate prognostic marker of distant relapse in patients with early breast cancer. Altogether, these findings demonstrate that USP19 might represent a novel therapeutic target in breast cancer.


2003 ◽  
Vol 44 (1) ◽  
pp. 279-284 ◽  
Author(s):  
J. Chen ◽  
J. A. Rodriguez ◽  
B. Barnett ◽  
N. Hashimoto ◽  
J. Tang ◽  
...  

2008 ◽  
Vol 6 (9) ◽  
pp. 15
Author(s):  
M. Seux ◽  
F. Soulavie ◽  
C. Siret ◽  
V. Rigaut ◽  
M.P. Montero ◽  
...  

2020 ◽  
Author(s):  
Fabiana A Rossi ◽  
Juliana H Enriqué Steinberg ◽  
Ezequiel H Calvo Roitberg ◽  
Molishree Joshi ◽  
Ahwan Pandey ◽  
...  

ABSTRACTTumor cell dissemination in cancer patients is associated with a significant reduction in their survival and quality of life. The ubiquitination pathway plays a fundamental role in the maintenance of protein homeostasis both in normal and stressed conditions and its dysregulation has been associated with malignant transformation and invasive potential of tumor cells, thus highlighting its value as a potential therapeutic target. In order to identify novel molecular targets of tumor cell migration and invasion we performed a genetic screen with an shRNA library against ubiquitination pathway-related genes. To this end, we set up a protocol to specifically enrich positive migration regulator candidates. We identified the deubiquitinase USP19 and demonstrated that its silencing reduces the migratory and invasive potential of highly invasive breast cancer cell lines. We extended our investigation in vivo and confirmed that mice injected with USP19 depleted cells display increased tumor-free survival, as well as a delay in the onset of the tumor formation and a significant reduction in the appearance of metastatic foci, indicating that tumor cell invasion and dissemination is impaired. In contrast, overexpression of USP19 increased cell invasiveness both in vitro and in vivo, further validating our findings. More importantly, we demonstrated that USP19 catalytic activity is important for the control of tumor cell migration and invasion, and that its molecular mechanism of action involves LRP6, a Wnt co-receptor. Finally, we showed that USP19 overexpression is a surrogate prognostic marker of distant relapse in patients with early breast cancer. Altogether, these findings demonstrate that USP19 might represent a novel therapeutic target in breast cancer.


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