Macrophage migration inhibitory factor (MIF) expression in human malignant gliomas contributes to immune escape and tumour progression

Mittelbronn, Michel; Platten, Michael; Zeiner, Pia S.; Dombrowski, Yvonne; Frank, Brigitte; Zachskorn, Cornelia; Harter, Patrick N.; Weller, Michael; Wischhusen, Jörg

doi:10.1007/s00401-011-0858-3

Cited by 70 publications

(72 citation statements)

References 54 publications

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“…For example, a previous study demonstrated that in gastric cancer, positive MIF expression rates were 12, 52 and 96% in normal mucosal, gastritis and gastric cancer tissues, respectively (18). Similar observations have also been reported in pancreatic cancer, melanoma, hepatocellular carcinoma, malignant glioma and cervical adenocarcinoma (13,(19)(20)(21)(22).…”

Section: Mif and Carcinogenesissupporting

confidence: 72%

“…MIF-silencing studies have revealed comparable reductions in the tumor cell proliferation of human melanoma and hepatocellular carcinoma cell lines, whereby a decrease in cyclin D1 expression was reported in vitro and in vivo, respectively (31,20). Another study reported that cyclin-dependent kinase 4, cyclin D2 and cyclin E2 expression was downregulated following MIF-knockdown in HeLa 229 cells (22). In hepatocellular carcinoma, increased MIF expression, induced by cell transfection, potentiated the promoter activity of the hepatopoietin gene (a mediator involved in liver regeneration), leading to enhanced cell proliferation (40).…”

Section: Mif and Cell Proliferation Shi Et Almentioning

confidence: 93%

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Involvement of macrophage migration inhibitory factor in cancer and novel therapeutic targets

et al. 2016

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Abstract. Macrophage migration inhibitory factor (MIF) was originally identified in 1966 by Bloom and Bennett as a pro-inflammatory cytokine involved in the inhibition of macrophage motility. Since then, studies have investigated the functional contribution of this pro-inflammatory cytokine in several immune diseases, including rheumatoid arthritis and lupus erythematous. Recently, MIF has been reported to be involved in a variety of neoplastic diseases. The present review discusses previous cancer research studies that have investigated the involvement of MIF in carcinogenesis, disease prognosis, tumor cell proliferation and invasion, and tumor-induced angiogenesis. Finally, potential therapeutic approaches based on the use of MIF antagonists and neutralizing antibodies are examined. The review concludes that MIF could be a good prognostic biomarker in several types of cancer, but also that the inhibition of MIF could represent a novel therapy against cancer.

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Section: Mif and Carcinogenesissupporting

confidence: 72%

Section: Mif and Cell Proliferation Shi Et Almentioning

confidence: 93%

Involvement of macrophage migration inhibitory factor in cancer and novel therapeutic targets

et al. 2016

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“…Furthermore, our data confirmed worst prognosis for high-grade glioblastoma with high levels of CD74 expression. However, our data suggest that CD74 expression alone is not an independent marker for poor prognosis and it requires the expression of MIF for tumor pathogenesis, as previously reported in other studies (4,7,16,17,18) . Although we did not perform co-localization staining for MIF-CD74 in this retrospective study, evidence of MIF and CD74 co-localization reported in several other studies (7,8,9,10,11,12,13,14) .…”

Section: Discussionsupporting

confidence: 77%

“…In line with this observation, we demonstrated overexpression of MIF in grade II-IV astrocytoma, and that overexpression of CD74 is associated with tumor progression in astrocytoma at the gene and transcription levels. MIF exerts multimodal functions in glioblastoma including pro-proliferative, promigratory, pro-angiogenic as well as immune-evasive properties through CD74 (16,17,18) . The binding of MIF to the extracellular domain of CD74 is necessary as an initial step in the MIF signaling cascade (4) resulting in tumor vascularization and the promotion of neoplastic Fig.…”

Section: Discussionmentioning

confidence: 99%

CD74 as a Potential Prognostic Marker in Glioblastoma

Narsia

Ramagiri

Lomtadze³

et al. 2017

IAM

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CD74 is a cell membrane receptor for macrophage migration inhibitory factor (MIF) that is believed to play a role in tumor progression and metastasis. Astrocytoma is the most common type of brain cancers, which are classified by the World Health Organization (WHO) into four grades according to the degree of malignancy. In this study, we investigated MIF and CD74 gene expression levels in a large cohort of publicly available RNA sequencing data and evaluated the correlation between their protein expression with clinicopathological features as well as prognosis in an independent cohort of astrocytoma samples. Seventy-three patients with different grades of astrocytoma (WHO grade II diffuse astrocytoma, grade III anaplastic astrocytoma, and grade IV glioblastoma) were used for protein expression in this study. The expression of CD74 was assayed by immunohistochemistry and was significantly higher in highgrade glioblastoma than grade II and grade III astrocytoma (P < 0.004). Upregulated CD74 expression was frequently found in older patients (≥ 62 years). The expression of CD74 is correlated with overall survival (P = 0.05). Multivariate analysis shows that the CD74 expression is associated with poor prognosis in the presence of MIF expression (P = 0.039) and that CD74 is not an independent prognostic marker in glioblastoma. However, similar studies on larger sample size are required to make a definite conclusion on the role of CD74 in prognosis in glioblastoma.

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“…[19][20][21][22] Even more importantly, MIF seems to be required for bone marrow-derived dendritic cells to maintain mature B cells in the bone marrow compartment. 23 MIF is overexpressed in a variety of malignancies compared with the respective primary tissues (eg, prostate, 24 colon, 25 melanoma, 26 glioblastoma, 27 breast cancer 28,29 ). This overexpression might be caused by the tumor-activated HSP90 chaperone complex that protects MIF from degradation, as shown in an ErbB2 transgenic mouse model of human HER2-positive breast cancer.…”

Section: Introductionmentioning

confidence: 99%

Delayed development of chronic lymphocytic leukemia in the absence of macrophage migration inhibitory factor

Reinart

Nguyen

Bouças

et al. 2013

Blood

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IntroductionChronic lymphocytic leukemia (CLL) is a clonal B-cell disorder that is not curable by conventional chemoimmunotherapies. The leukemic transformation may be initiated by specific genomic alterations (eg, del13q) that may cause the deletion of specific micro-RNA genes (eg, miR15 and miR16) and increase the resistance of B cells toward apoptosis. 1,2 Survival of CLL cells depends on a permissive microenvironment composed of cellular components, such as macrophages, T cells, or stromal follicular dendritic cells. [3][4][5] This microenvironment provides various chemokines and angiogenic factors, which interact with leukemic cells via appropriate surface receptors and adhesion molecules. 2,5 Macrophage migration inhibitory factor (MIF) is a proinflammatory and immunoregulatory cytokine that seems to be involved in the pathogenesis of various malignant diseases. 6-9 MIF was identified as a product of T cells 10 but also other cells of the immune system (B cells, monocytes/macrophages). 11 Later, MIF was found to be an almost ubiquitous mediator secreted by a wide variety of cells in the mammalian organism, such as endothelial cells, epithelial cells, or fibroblasts. 12 Macrophages are considered to be a prime source for MIF, as they are able to secrete large amounts of MIF in response to various stimuli. 13 MIF binds to the surface receptors CD74 and CXCR2/CXCR4, thereby stimulating signaling pathways, such as MAPK, NF-B, and AKT. [14][15][16] In B cells, activation of the surface receptor complex CD74/CD44 by MIF induces the proteolytic release of the intracellular domain of CD74, which in turn initiates a signaling cascade composing Syk, AKT, and NF-B; this leads to the production of IL-8 and to an increased resistance to apoptosis via the up-regulation of BCL-2. 17,18 Thus, the MIF-MIF receptor system may be seen as a part of the B-cell costimulatory signals that are required for full B-cell activation and maturation. MIF-deficient mice do not show developmental abnormalities and appear to have normal numbers of B cells. 6 However, they exhibit a number of immune dysfunctions when challenged by antigens or infectious agents. [19][20][21][22] Even more importantly, MIF seems to be required for bone marrow-derived dendritic cells to maintain mature B cells in the bone marrow compartment. 23 Submitted May 22, 2012; accepted October 14, 2012. Prepublished online as Blood First Edition paper, November 1, 2012; DOI 10.1182/blood-2012-05-431452.The online version of this article contains a data supplement.The publication costs of this article were defrayed in part by page charge payment. Therefore, and solely to indicate this fact, this article is hereby marked ''advertisement'' in accordance with 18 USC section 1734. MIF is overexpressed in a variety of malignancies compared with the respective primary tissues (eg, prostate, 24 colon, 25 melanoma, 26 glioblastoma, 27 breast cancer 28,29 ). This overexpression might be caused by the tumor-activated HSP90 chaperone complex that protects MIF from degradation, a...

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Macrophage migration inhibitory factor (MIF) expression in human malignant gliomas contributes to immune escape and tumour progression

Cited by 70 publications

References 54 publications

Involvement of macrophage migration inhibitory factor in cancer and novel therapeutic targets

Involvement of macrophage migration inhibitory factor in cancer and novel therapeutic targets

CD74 as a Potential Prognostic Marker in Glioblastoma

Delayed development of chronic lymphocytic leukemia in the absence of macrophage migration inhibitory factor

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