Abstract
Expansion of Gr-1+/CD11b+ myeloid derived suppressor cells (MDSCs) is governed by the presence of increasingly metastatic, malignant primary tumors. Metastasis, not the primary tumor, is often the cause of mortality. This study sought to fully characterize the MDSC proteome in response to metastatic and non-metastatic mammary tumors using label-free mass spectrometry shotgun proteomics in a mouse model with tumor cell lines, 67NR and 4T1, derived from the same tumor. 67NR cells form only primary mammary tumors, whereas 4T1 cells readily metastasize to the lungs, lymph nodes, and blood. Overall analysis identified a total of 2825 protein groups with a 0.78% false discovery rate. Of the 2814 true identifications, 43 proteins were exclusive to the 67NR group, 153 were exclusive to the 4T1 group, and 2618 were shared. Among the shared cohort, 26 proteins were increased and 31 were decreased in the metastatic 4T1 cohort compared to non-metastatic 67NR controls after filtering. MDSCs selectively express proteins involved in the γ-glutamyl transferase, glutathione synthase pathways, CREB transcription factor signaling, and other pathways involved in platelet aggregation, as well as lipid and amino acid metabolism, in response to highly metastatic 4T1 tumors. Cell cycle regulation dominated protein pathways and ontological groups of the 67NR non-metastatic group. Not only does this study provide a starting point to identify potential biomarkers of metastasis expressed by MDSCs; it identifies critical pathways that are unique to non-metastatic and metastatic conditions. Therapeutic interventions aimed at these pathways in MDSC may offer a new route to control malignancy and metastasis.
Highlights
Breast cancer is estimated to afflict more than 200,000 women in 2010 in the Unites States (SEER Cancer Statistics, National Cancer Institute)
Characterization of the Myeloid derived suppressor cells (MDSCs) proteome To define the MDSC proteome, we used shotgun proteomics to detect proteins that were differentially expressed in MDSCs isolated from hosts bearing non-metastatic or metastatic primary mammary tumors. 67NR and 4T1 cells, derived from the same parental mammary adenocarcinoma, differ greatly in metastatic potential the primary tumor growth kinetics are very similar. 4T1, not 67NR, cells metastasize to lung and lymph nodes
Peptides were separated by strong cation exchange (SCX) directly coupled to reversed phase liquid chromatography (RP-LC) prior to direct nano-spray mass spectrometry
Summary
Breast cancer is estimated to afflict more than 200,000 women in 2010 in the Unites States (SEER Cancer Statistics, National Cancer Institute). Myeloid derived suppressor cells (MDSCs) are a subset of heterogeneous, bone marrow derived, hematopoietic cells that home to the tumors and contribute indirectly to angiogenesis, growth and metastasis. These tumor infiltrating cells foster proliferation, survival, and metastasis [1]. Murine MDSCs are characterized by expression of Gr1 and CD11b cell surface markers. These cells are found in the peripheral blood of cancer patients and are positively correlated to malignancy [5,6], which suggests MDSCS have a role in tumor invasion and metastasis.
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