Michael Ciesielski scite author profile

BackgroundImmunosuppressive factors such as regulatory T cells (Tregs) limit the efficacy of immunotherapies. Histone deacetylase (HDAC) inhibitors have been reported to have antitumor activity in different malignancies and immunomodulatory effects. Herein, we report the Tregs-targeting and immune-promoting effect of a class I specific HDAC inhibitor, entinostat, in combination with either IL-2 in a murine renal cell carcinoma (RENCA) model or a survivin-based vaccine therapy (SurVaxM) in a castration resistant prostate cancer (CR Myc-CaP) model.Methods and ResultsRENCA or CR Myc-CaP tumors were implanted orthotopically or subcutaneously, respectively. Inoculated mice were randomized into four treatment groups: vehicle, entinostat, cytokine or vaccine, and combination. Tregs in the blood were assessed by FACS analysis. Real time quantitative PCR and Western blot analysis of isolated T cell subpopulations from spleen were performed to determine Foxp3 gene and protein expression. The suppressive function of Tregs was tested by T cell proliferation assay. Low dose (5 mg/kg) entinostat reduced Foxp3 levels in Tregs and this was associated with enhanced tumor growth inhibition in combination with either IL-2 or a SurVaxM vaccine. Entinostat down-regulated Foxp3 expression transcriptionally and blocked Tregs suppressive function without affecting T effector cells (Teffs). In vitro low dose entinostat (0.5 µM) induced STAT3 acetylation and a specific inhibitor of STAT3 partially rescued entinostat-induced down-regulation of Foxp3, suggesting that STAT3 signaling is involved in Foxp3 down-regulation by entinostat.ConclusionsThese results demonstrate a novel immunomodulatory effect of class I HDAC inhibition and provide a rationale for the clinical testing of entinostat to enhance cancer immunotherapy.

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Metabolic reprogramming of stromal fibroblasts by melanoma exosome microRNA favours a pre-metastatic microenvironment

Shu

Yang

Allen

et al. 2018

Sci Rep

143

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Local acidification of stroma is proposed to favour pre-metastatic niche formation but the mechanism of initiation is unclear. We investigated whether Human Melanoma-derived exosomes (HMEX) could reprogram human adult dermal fibroblasts (HADF) and cause extracellular acidification. HMEX were isolated from supernatants of six melanoma cell lines (3 BRAF V600E mutant cell lines and 3 BRAF wild-type cell lines) using ultracentrifugation or Size Exclusion Chromatography (SEC). Rapid uptake of exosomes by HADF was demonstrated following 18 hours co-incubation. Exposure of HDAF to HMEX leads to an increase in aerobic glycolysis and decrease in oxidative phosphorylation (OXPHOS) in HADF, consequently increasing extracellular acidification. Using a novel immuno-biochip, exosomal miR-155 and miR-210 were detected in HMEX. These miRNAs were present in HMEX from all six melanoma cell lines and were instrumental in promoting glycolysis and inhibiting OXPHOS in tumour cells. Inhibition of miR-155 and miR-210 activity by transfection of miRNA inhibitors into HMEX reversed the exosome-induced metabolic reprogramming of HADF. The data indicate that melanoma-derived exosomes modulate stromal cell metabolism and may contribute to the creation of a pre-metastatic niche that promotes the development of metastasis.

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Site-Specific Conjugation of Boron-Containing Dendrimers to Anti-EGF Receptor Monoclonal Antibody Cetuximab (IMC-C225) and Its Evaluation as a Potential Delivery Agent for Neutron Capture Therapy

et al. 2003

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The gene encoding EGFR often is amplified in human gliomas, and the receptor itself has been considered as a potential target for the specific delivery of therapeutic agents to brain tumors. The purpose of the present study was to investigate the use of the chimeric MoAb cetuximab (IMC-C225), which is directed against EGFR and EGFRvIII, as a boron delivery agent for neutron capture therapy (NCT) of brain tumors. As determined by 125I-cetuximab radioligand binding assays, F98 rat glioma cells, which had been transfected with the gene encoding EGFR (F98EGFR), expressed 1.60 +/- 0.13 x 10(5) receptor sites/cell with a Ka = 1.64 +/- 0.32 x 10(8) M-1). F98 cells transfected with the gene encoding a mutant form of EGFR, designated the F98EGFRvIII glioma, expressed 1.07 +/- 0.10 x 10(5) receptor sites/cell with a Ka = 2.18 +/- 0.54 x 10(9) M-1 compared to background levels expressed on F98 wild-type cells (F98WT). A heavily boronated, fifth generation polyamidoamine (PAMAM or "starburst") dendrimer, G5-B1100, was linked to oligosaccharide moieties, which were distant from antigen binding sites of cetuximab, by means of the heterobifunctional reagents N-succinimidyl 3-(2-pyridyldithio)propionate (SPDP) and N-(k-maleimidoundecanoic acid) hydrazide (KMUH). The resulting bioconjugate, designated C225-G5-B1100, was separated from the unconjugated dendrimer using a Sephacryl S-300 column. On the basis of the relative concentration ratios of boron and protein, there were approximately 1100 boron atoms per molecule of cetuximab with only a slight reduction of Ka. The localization of C225-G5-B1100 or G5-B1100 in rats bearing intracerebral implants of either F98EGFR or F98WT gliomas was determined 24 h following direct intratumoral (i.t.) injection at which time 92.3 +/- 23.3 micrograms B/g tumor was localized in F98EGFR gliomas versus 36.5 +/- 18.8 micrograms B/g tumor in F98WT gliomas and 13.4 +/- 6.1 micrograms in normal brain. In contrast, only 6.7 +/- 3.6 micrograms B/g tumor of G5-B1100 was localized in F98EGFR gliomas following i.t. injection, thereby demonstrating specific molecular targeting of EGFR. Based on these data, BNCT studies will be initiated in F98EGFR glioma bearing rats to evaluate C225-G5-B1100 for the treatment of intracerebral brain tumors.

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