Low response rates and immune-related adverse events limit the remarkable impact of cancer immunotherapy. To improve clinical outcomes, preclinical studies have shown that combining immunotherapies ...with N-terminal Hsp90 inhibitors resulted in improved efficacy, even though induction of an extensive heat shock response (HSR) and less than optimal dosing of these inhibitors limited their clinical efficacy as monotherapies. We discovered that the natural product Enniatin A (EnnA) targets Hsp90 and destabilizes its client oncoproteins without inducing an HSR. EnnA triggers immunogenic cell death in triple-negative breast cancer (TNBC) syngeneic mouse models and exhibits superior antitumor activity compared to Hsp90 N-terminal inhibitors. EnnA reprograms the tumor microenvironment (TME) to promote CD8+ T cell-dependent antitumor immunity by reducing PD-L1 levels and activating the chemokine receptor CX3CR1 pathway. These findings provide strong evidence for transforming the immunosuppressive TME into a more tumor-hostile milieu by engaging Hsp90 with therapeutic agents involving novel mechanisms of action.
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•Enniatin A targets the chaperone Hsp90 without inducing a heat shock response•Enniatin A induces immunogenic cell death in aggressive TNBC models•Enniatin A reduces immunosuppression by reducing PD-L1 protein and activating CX3CR1•Enniatin A promotes CD8+ T cell-mediated anti-tumor immunity against TNBC
Microenvironment; Biological sciences; Molecular biology; Cancer
Cumulative evidence suggests that the heat shock protein 90 (Hsp90) co-chaperone UNC-45 myosin chaperone A (UNC45A) contributes to tumorigenesis and that its expression in cancer cells correlates ...with proliferation and metastasis of solid tumors. However, the molecular mechanism by which UNC45A regulates cancer cell proliferation remains largely unknown. Here, using siRNA-mediated gene silencing and various human cells, we report that UNC45A is essential for breast cancer cell growth, but is dispensable for normal cell proliferation. Immunofluorescence microscopy, along with gene microarray and RT-quantitative PCR analyses, revealed that UNC45A localizes to the cancer cell nucleus, where it up-regulates the transcriptional activity of the glucocorticoid receptor and thereby promotes expression of the mitotic kinase NIMA-related kinase 7 (NEK7). We observed that UNC45A-deficient cancer cells exhibit extensive pericentrosomal material disorganization, as well as defects in centrosomal separation and mitotic chromosome alignment. Consequently, these cells stalled in metaphase and cytokinesis and ultimately underwent mitotic catastrophe, phenotypes that were rescued by heterologous NEK7 expression. Our results identify a key role for the co-chaperone UNC45A in cell proliferation and provide insight into the regulatory mechanism. We propose that UNC45A represents a promising new therapeutic target to inhibit cancer cell growth in solid tumor types.
D‐Ring‐seco‐limonoids (tetranortriterpenoids), such as gedunin and xylogranin B display anti‐cancer activity, acting via inhibition of Hsp90 and/or associated chaperon machinery (e.g., p23). Despite ...this, these natural products have received relatively little attention, both in terms of an enabling synthetic approach (which would allow access to derivatives), and as a consequence their structure–activity relationship (SAR). Disclosed herein is a generally applicable synthetic route to the BCD ring system of the seco‐D‐ring double bond containing limonoids. Furthermore, cell based assays revealed the first skeletal fragment that exhibited inhibition of the p23 enzyme at a level which was equipotent to that of gedunin, despite being much less structurally complex.
The first synthetic route to the BCD ring system of the seco‐D‐ring limonoids has been devised. A synthetic intermediate displayed an equipotent p23 enzyme inhibitory effect to that of the more complex gedunin.
Abstract
Recent findings have shown that the Heat Shock Protein 90 (Hsp90) co-chaperone UNC45A is overexpressed in ovarian and breast cancers. Previously, we have shown that UNC45A is a centrosomal ...protein essential for cervical tumor cell growth through activation of the checkpoint kinase 1 (ChK1). In this report, we further examined the role of UNC45A in breast tumorigenesis using a variety of biochemical and cell biology techniques and animal models. We confirmed that UNC45A is highly overexpressed in human breast-infiltrating ductal carcinomas as compared to adjacent normal tissues. Silencing UNC45A in vitro blocked the proliferation of all breast cancer subtypes and drastically reduced tumor growth of the triple negative MDA-MB-231 cell line implanted in mammary fat pads of NOD/SCID mice. However, loss of UNC45A did not affect the proliferation of normal mammary cells. Remarkably, UNC45A becomes more nuclear in human cancer tissues and cancer cell lines as compared to normal tissues and non-transformed Hs578Bst and HME mammary cell lines, respectively. This suggests an important nuclear function for UNC45A during tumorigenesis. Microarray analysis of mRNA from Hs578T cells showed that loss of UNC45A alters the expression of 121 genes, involved in cancer and cellular development and growth networks. Relevant to cell proliferation, we found that Nek7 gene was significantly repressed upon silencing UNC45A, which was validated by RTqPCR and Western blot analyses in multiple breast cancer cell lines. Nek7 is a member of the NIMA (never in mitosis, gene A) family of serine/threonine kinases. It plays a key role in centrosomal separation during mitosis. This correlates neatly with our observation that loss of UNC45A causes a centrosomal separation defect, cell proliferation arrest and death of breast cancer cell lines. ChIP experiments showed that UNC45A binds to the promoter of the Nek7 gene, suggesting direct transcriptional regulation. Interestingly, the UNC45A sequence contains four LxxLL motifs, which are thought to be signatures for co-activator binding to nuclear receptors. Furthermore, computational analysis identified two glucocorticoid response elements (GRE) consensus sequences in the Nek7 promoter, suggesting its transcriptional regulation by the glucocorticoid receptor (GR). This hypothesis was further strengthened by a significant decrease in the mRNA and protein levels of Nek7 upon silencing GR. Thus, our data suggest that UNC45A functions as a GR co-activator to control Nek7 gene transcription. Consistent with this, immunoprecipitation experiments confirmed that UNC45A and GR form endogenous complexes, and treatment of Hs578T and MCF7 cell lines with dexamethasone upregulates Nek7 mRNA and protein levels. In conclusion our data strongly support the premise that UNC45A promotes Nek7 transcription through activation of GR, and thus controls centrosomal separation and cancer cell proliferation.
Citation Format: Yasmeen Jilani, Nada H. Eisa, Kashish Kainth, Sumin Lu, Nehal M. Elsherbiny, Laila A. Eissa, Mamdouh M. Elshishtawy, Hasan Korkaya, Abdeljabar El Andaloussi, Ahmed Chadli. The co-chaperone UNC45A controls cancer cell proliferation through Nek7 and centrosomal separation abstract. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 4493. doi:10.1158/1538-7445.AM2017-4493
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