Project description:SPP1 (secreted phosphoprotein 1), also known as osteopontin, has emerged as a pivotal factor in the tumor microenvironment (TME) across various cancers. It has been reported that SPP1-positive macrophages are associated with immunosuppressive activity and poor prognosis in colorectal cancer (CRC). The increasing proportion of SPP1-positive macrophages contributes to immune suppression and immune desert by inhibiting T cell function in liver metastatic lesions. However, the role of SPP1 in colorectal cancer liver metastasis (CRLM) remains incompletely understood. Therefore, the impact of tumor-secreted SPP1 on the CRC microenvironment warrants further investigation. To explore the effect of SPP1 on diverse TME cell populations, we conducted single-cell RNA sequencing on MC38 xenografts. Our results revealed an increase in fibroblasts and a concurrent decrease in T cells following SPP1 overexpression, suggesting that SPP1 promotes cancer-associated fibroblast (CAF) infiltration into the CRC TME.

Project description:Early synchronous colorectal liver metastasis (CRLM) represents a clinical condition characterized by the simultaneous presence of primary colorectal cancer (CRC) and metastatic liver lesions (CRLM). The present study characterizes the tissues-specific transcriptomes, phenotypes, and functional relevance of tumor associated macrophages (TAMs) within the tumor microenvironment (TME) of CRC and CRLM specimens in patients who underwent simultaneous surgical removals of these malignancies. The high-throughput single-cell transcriptional analysis revealed an inverse ratio of inflammatory and immunoregulatory TAMs in CRC and CRLM TMEs, along with significant heterogeneity in both tumoral tissues. Importantly, we found that inflammatory TAMs in CRC express inhibitory ligands that might support the tumor immune escape, thus favoring liver metastatic progression. In contrast, CRLM lesions possess a highly immunosuppressive milieu characterized by large proliferative CTLA4pos immunoregulatory TAMs and by the presence of IL7Rpos cytotoxic TAMs. Higher frequencies of these specific TAM subsets in CRLM are associated with a shorter disease-free survival and worse patient prognosis. The identification and characterization of immunoregulatory TAMs preferentially enriched in CRLM is key for the development of novel immune-therapeutic strategies aimed at boosting anti-cancer immune responses within TME.

Project description:Liver metastasis is the main cause of death for human colorectal cancer (CRC), thus effective biomarkers and therapeutic target of colorectal cancer liver metastasis (CRLM) are urgently needed. Here, we report that FGF19 mediated the polarization of hepatic stellate cells to inflammatory CAFs by activating the autocrine effect of IL-1α via JAK2-STAT3 pathway. FGF19-induced iCAFs produced complement C5a and IL-1β to enhance neutrophil extracellular traps (NETs) formation in liver metastases, which in turn accelerated the liver colonization of CRC cells.

Project description:Collagen, a major component of the extracellular matrix, is significantly upregulated in colorectal liver metastasis (CRLM) compared to liver tissue. Expression levels of specific collagen types in CRLM resemble those in colorectal cancer (CRC) and colon tissue. We investigated whether the collagen hydroxylation pattern from the primary tumor also migrates with the metastatic tumor. The degree of collagen alpha-1(I) hydroxylation in colon, CRC, liver, and CRLM tissue in the same individuals (n=14) was studied with mass spectrometry. The degree of hydroxylation was investigated in 36 collagen alpha-1(I) peptides, which covered 54% of the triple helical region. The average degree of hydroxylation in liver tissue was similar to that in colon tissue. The overall degree of hydroxylation was significantly lower (9% +/- 14%) in CRC tissue and also significantly lower (12% +/-22%) in CRLM tissue compared to colon or liver tissue. Still, in previous research of liver and CRLM enzymes involved in collagen hydroxylation were found to be upregulated, whereas P4HB (4-prolyl hydroxylase beta unit) was downregulated. Furthermore, 11 peptides are present with a specific number of hydroxylations that are significantly different between CRLM and liver tissue; these peptides could be candidates for the detection of CRLM. For one of these eleven peptides, a matching naturally occurring peptide in urine has been identified as being significantly different between patients suffering from CRLM and healthy controls. We conclude that the degree of hydroxylation in CRC and CRLM tumor tissue is in general significantly downregulated in comparison to healthy colon and liver tissue. The hydroxylation pattern in CRLM resemble partly the pattern in liver, primary colorectal cancer and colon.

Project description:Colorectal cancer (CRC) patients suffer from the second highest mortality among all cancer entities. In half of all CRC patients, colorectal cancer liver metastases (CRLM) can be observed. Metastatic colorectal cancer is associated with poor overall survival and limited treatment options. Even after successful surgical resection of the primary tumor, metachronous liver metastases occur in one out of eight cases. The only available curative intended treatment is hepatic resection, but metachronous CRLM frequently recur after approximately one year. In this study, we performed a proteome analysis of three recurrent liver metastases of a single CRC patient by mass spectrometry. Despite surgical resection of the primary CRC and adjuvant chemotherapy plus cetuximab treatment, the patient developed three metachronous CRLM which occurred consecutively after 9, 21 and 31 months. We identified a set of 1,132 proteins expressed in the three metachronous CRLM, of which 481 were differentially regulated, including 81 proteins that were associated with the extracellular matrix (ECM). 56 ECM associated proteins were identified as upregulated in the third metastasis, 26 (46%) of which were previously described as negative prognostic markers in CRC, including tenascin C, nidogen 1, fibulin1 and vinculin. These data may reflect an ascending trend of malignancy from the first to the third metachronous colorectal cancer liver metastasis. Additionally, the results indicate different ECM phenotypes for recurrent metachronous metastasis, associated with different grades of malignancy and highlights the importance of individual analysis of molecular features in different, consecutive metastatic events in a single patient.

Project description:Metastasis is the primary cause of cancer-related mortality in colorectal cancer (CRC) patients. How to improve therapeutic options for patients with metastatic CRC (mCRC) is the core question for CRC treatment. However, the complexity and diversity of stromal context of the tumor microenvironment (TME) in liver metastases of CRC is not fully understood, and its influence on response to chemotherapy is unclear. Here we provide an in-depth analysis of transcriptional landscape of primary CRC, matched liver metastases and blood at single-cell resolution, and perform a systematic examination of transcriptional changes and phenotypic alteration of the TME in response to preoperative chemotherapy (PC). Based on 111,292 single-cell transcriptomes, our study reveals that TME of treatment-naïve tumors is characterized by higher abundance of less-activated B cells and higher heterogeneity of tumor-associated macrophages (TAMs). By contrast, in tumors treated with PC, we find activation of B cells, lower diversity of TAMs with immature and less activated phenotype, lower abundance of both dysfunctional T cells and ECM-remodeling cancer-associated fibroblasts (CAFs), and an accumulation of myofibroblasts. Our study provides a foundation for future investigation of the cellular mechanisms underlying liver metastasis of CRC and its response to PC, and opens up new possibilities for the development of therapeutic strategies for CRC.

Project description:Cancer-associated fibroblasts (CAFs) are the dominant components of stroma in the tumor microenvironment (TME), and they influence cancer hallmarks by interacting with other TME components. However, the heterogeneity and dynamics of CAFs have not been systematically characterized across different cancer types. Here, we performed pan-cancer analysis on 226 samples from 164 donors across 10 types of solid cancers to profile the TME at single-cell resolution. The activation trajectory of fibroblasts into various major types of CAFs was divided into three distinct differentiated states and was capable of sculpting the TME, which was associated with the prognosis of immunotherapy. On the other hand, except for activation, minor CAF components represented the dynamic transition between fibroblasts and other TME components (i.e., macrophages, peripheral nerve and endothelial cells) and delineated the alternative origins of CAFs. Particularly, the ubiquitous presentation of CAFEndoMT (endothelial-mesenchymal transition), which may be stimulated by proximal SPP1+ tumor-associated macrophages, played a role in angiogenesis and patient survival stratifications. Our study comprehensively profiled the heterogeneity and plasticity of CAFs, implied a potential divergent origin of different CAF populations, and highlighted its generalized key role in the TME across different cancer types.

Project description:The tumor microenvironment is distinctive in primary and secondary liver cancer. B cells represent an important component of immune infiltrates. Here, we demonstrated that B cells are an important regulator in hepatocellular carcinoma (HCC) and colorectal cancer liver metastasis (CRLM) microenvironments. B cells displayed distinct developmental trajectories in HCC and CRLM. Single-cell analysis revealed that IgG+ plasma cells preferentially accumulated in HCC while IgA+ plasma cells were preferentially enriched in CRLM. Mechanistically, IgG+ plasma cells in HCC were recruited by tumor-associated macrophages via the CXCR3-CXCL10 axis, whereas IgA+ plasma cells in CRLM were recruited by metastatic tumor cells via CCR10-CCL28 signaling. Functionally, IgG+ plasma cells preferentially promoted pro-tumorigenic macrophages formation in HCC, and IgA+ plasma cells preferentially induced granulocytic myeloid-derived suppressor cells activation in CRLM. Clinically, increased infiltration of IgG+ plasma cells and macrophages in HCC was correlated to worse survival, while increased intratumoral IgA+ plasma cells and neutrophils in CRLM indicated poor prognosis. Taken together, this study demonstrated plasma and myeloid cell-mediated immunosuppression in HCC and CRLM, suggesting that selectively modulating primary or secondary tumor-related immunosuppressive regulatory networks might reprogram the microenvironment and provide an immunotherapeutic strategy for treating liver cancer.

Project description:The tumor microenvironment is distinctive in primary and secondary liver cancer. B cells represent an important component of immune infiltrates. Here, we demonstrated that B cells are an important regulator in hepatocellular carcinoma (HCC) and colorectal cancer liver metastasis (CRLM) microenvironments. B cells displayed distinct developmental trajectories in HCC and CRLM. Single-cell analysis revealed that IgG+ plasma cells preferentially accumulated in HCC while IgA+ plasma cells were preferentially enriched in CRLM. Mechanistically, IgG+ plasma cells in HCC were recruited by tumor-associated macrophages via the CXCR3-CXCL10 axis, whereas IgA+ plasma cells in CRLM were recruited by metastatic tumor cells via CCR10-CCL28 signaling. Functionally, IgG+ plasma cells preferentially promoted pro-tumorigenic macrophages formation in HCC, and IgA+ plasma cells preferentially induced granulocytic myeloid-derived suppressor cells activation in CRLM. Clinically, increased infiltration of IgG+ plasma cells and macrophages in HCC was correlated to worse survival, while increased intratumoral IgA+ plasma cells and neutrophils in CRLM indicated poor prognosis. Taken together, this study demonstrated plasma and myeloid cell-mediated immunosuppression in HCC and CRLM, suggesting that selectively modulating primary or secondary tumor-related immunosuppressive regulatory networks might reprogram the microenvironment and provide an immunotherapeutic strategy for treating liver cancer.

Project description:PURPOSE: We sought to identify genes of clinical significance to predict survival and the risk for colorectal liver metastasis (CLM), the most common site of metastasis from colorectal cancer (CRC). PATIENTS AND METHODS: We profiled gene expression in 31 specimens from primary CRC and 32 unmatched specimens of CLM, and performed Significance Analysis of Microarrays (SAM) of the expressed genes between these two groups. To characterize the clinical relevance of two highly-ranked differentially expressed signature genes, we analyzed the expression of secreted phosphoprotein 1 (SPP1 or osteopontin) and lymphoid enhancer factor-1 (LEF1) by immunohistochemistry using a tissue microarray (TMA) representing an independent set of 154 patients with primary CRC. Supervised analysis using SAM identified 963 genes with significantly higher expression in CLM compared to primary CRC, with a false discovery rate of <0.5%. TMA analysis showed SPP1 and LEF1 protein overexpression in 60% and 44% of CRC cases, respectively. Subsequent occurrence of CLM was significantly correlated with the overexpression of LEF1 (chi-square p = 0.035), but not SPP1 (p = 0.14). Kaplan Meier analysis revealed significantly worse survival in patients with overexpression of LEF1 (p < 0.01), but not SPP1 (p = 0.11). Both univariate and multivariate analyses identified stage (p < 0.0001) and LEF1 overexpression (p < 0.05) as important prognostic markers, but not tumor grade or SPP1. CONCLUSION: Among signature genes differentially expressed between CLM and primary CRC, we demonstrate overexpression of LEF1 in primary CRC to be a prognostic factor for poor survival and increased risk for liver metastasis. cDNA microarrays from the Stanford Functional Genomics Facility were used to perform mRNA transcript profiling of 31 freshly-frozen primary colorectal cancer specimens, and compared to published profiles of 32 unmatched colorectal liver metastases and 12 normal liver specimens.