Baizheng Song scite author profile

Heat shock protein (HSP) 70 isolated from tumor-dendritic cell (DC) fusions (HSP70.PC-F) induces potent antitumor immunity and prevents growth of such tumors. In the present study, we have examined mechanisms underlying such antitumor activity of the HSP70.PC-F vaccine. The degree of antitumor immunity induced by HSP70.PC-F depended on intact TLR signaling in immunized animals, and mice in which the tlr2 and tlr4 genes were both inactivated did not respond to the vaccine. The reduced responses to HSP70.PC-F vaccine in such tlr knockout mice were restored by immunization of animals with HSP70.PC-F-pulsed wild-type DC, indicating a key role for this cell type in HSP70.PC-F-mediated immunity. Our studies also indicate a role for the scavenger receptor expressed by endothelial cells-1 (SREC-1) in antitumor immunity induced by HSP70.PC-F. These two receptor types appeared functionally interdependent, as indicated by the finding that tlr2 and tlr4 knockout decreases HSP70 binding in double-knockout DC and reduces SREC-1 expression. In addition, TLR-dependent, tumor cell killing was suppressed by SREC-1 knockdown in DC, suggesting a significant role for this receptor in HSP70.PC-F-mediated tumor immunity.

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Enhanced Immunogenicity of Heat Shock Protein 70 Peptide Complexes from Dendritic Cell-Tumor Fusion Cells

Enomoto

Bharti

Khaleque

et al. 2006

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We have developed a molecular chaperone-based tumor vaccine that reverses the immune tolerance of cancer cells. Heat shock protein (HSP) 70 extracted from fusions of dendritic (DC) and tumor cells (HSP70.PC-F) possess superior properties such as stimulation of DC maturation and T cell proliferation over its counterpart from tumor cells. More importantly, immunization of mice with HSP70.PC-F resulted in a T cell-mediated immune response including significant increase of CD8 T cells and induction of the effector and memory T cells that was able to break T cell unresponsiveness to a nonmutated tumor Ag and provide protection of mice against challenge with tumor cells. By contrast, the immune response to vaccination with HSP70-PC derived from tumor cells is muted against such nonmutated tumor Ag. HSP70.PC-F complexes differed from those derived from tumor cells in a number of key manners, most notably, enhanced association with immunologic peptides. In addition, the molecular chaperone HSP90 was found to be associated with HSP70.PC-F as indicated by coimmunoprecipitation, suggesting ability to carry an increased repertoire of antigenic peptides by the two chaperones. Significantly, activation of DC by HSP70.PC-F was dependent on the presence of an intact MyD88 gene, suggesting a role for TLR signaling in DC activation and T cell stimulation. These experiments indicate that HSP70-peptide complexes (PC) derived from DC-tumor fusion cells have increased their immunogenicity and therefore constitute an improved formulation of chaperone protein-based tumor vaccine.

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Targeting the hsp70 gene delays mammary tumor initiation and inhibits tumor cell metastasis

et al. 2015

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Elevated levels of the inducible heat-shock protein 70 (Hsp72) have been implicated in mammary tumorigenesis in histological investigations of human breast cancer. We therefore examined the role of Hsp72 in mice, using animals in which the hsp70 gene was inactivated. We used a spontaneous tumor system with mice expressing the polyomavirus middle T (PyMT) oncogene under control of the mouse mammary tumor virus (MMTV) long-terminal repeat (MMT mice). These mice developed spontaneous, metastatic mammary cancer. We then showed Hsp72 to be upregulated in a fraction of mammary cancer initiating cells (CIC) within the MMT tumor cell population. These cells were characterized by elevated surface levels of stem cell markers CD44 and Sca1 and by rapid metastasis. Inactivation of the hsp70 gene delayed the initiation of mammary tumors. This delay in tumor initiation imposed by loss of hsp70 was correlated with a decreased pool of CIC. Interestingly, hsp70 knockout significantly reduced invasion and metastasis by mammary tumor cells and implicated its product Hsp72 in cell migration and formation of secondary neoplasms. Impaired tumorigenesis and metastasis in hsp70-knockout MMT mice was associated with downregulation of the met gene and reduced activition of the oncogenic c-Met protein. These experiments therefore showed Hsp72 to be involved in the growth and progression of mammary carcinoma and highlighted this protein as a potential target for anticancer drug development.

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Baizheng Song

T Cell Activation by Heat Shock Protein 70 Vaccine Requires TLR Signaling and Scavenger Receptor Expressed by Endothelial Cells-1

Enhanced Immunogenicity of Heat Shock Protein 70 Peptide Complexes from Dendritic Cell-Tumor Fusion Cells

Targeting the hsp70 gene delays mammary tumor initiation and inhibits tumor cell metastasis

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