MiRNA-136-5p Sensitizes Liver Cancer Cells to Docetaxel by Targeting P53 and Enhances Cell Migration

We aimed to explore whether microRNA (miRNA)-136-5p modulates P53 expression, and affects the efficacy of docetaxel treatment for liver cancer. miRNA array screened the differentially expressed miRNAs in biopsy tissues of liver cancer patients, and the expression of miR-136-5p and P53 in tissues and cells by RT-PCR. Following docetaxel treatment, through increased- and decreased-function method, we detected the impact of the miRNA on cell progression, as well as the sensitivity of docetaxel through MTT assay and colony formation experiment. The correlation between miR-136-5p and P53 was evaluated. The expression of miR-136-5p in liver cancer cells is up-regulated, which is consistent with the results of bioinformatics analysis. Further, miR-136-5p overexpression promoted cell proliferation and migration, and sensitized liver cancer cells to docetaxel. Interestingly, P53 was indicated to bind to miR-136-5p, and P53 participated in the up-regulation of MMP10 induced by miR-136-5p. miR-136-5p enhances the sensitivity to docetaxel in liver cancer and thus could be a biomarker for the treatment against liver cancer.

Induction of Endoplasmic Reticulum Stress-Mediated Apoptosis by Aminosteroid RM-581 Efficiently Blocks the Growth of PC-3 Cancer Cells and Tumors Resistant or Not to Docetaxel

Aminosteroid derivative RM-581 was previously identified as an endoplasmic-reticulum (ER) stress inducer with potent in vitro and in vivo anticancer activities. We report its evaluation in androgen-independent prostate cancer (PC-3) cells. RM-581 efficiently blocks PC-3 cell proliferation with stronger activity than that of a selection of known antineoplastic agents. This later also showed a synergistic effect with docetaxel, able to block the proliferation of docetaxel-resistant PC-3 cells and, contrary to docetaxel, did not induce cell resistance. RM-581 induced an increase in the expression level of ER stress-related markers of apoptosis, potentially triggered by the presence of RM-581 in the ER of PC-3 cells. These in vitro results were then successfully translated in vivo in a PC-3 xenograft tumor model in nude mice, showing superior blockade than that of docetaxel. RM-581 was also able to stop the progression of PC-3 cells when they had become resistant to docetaxel treatment. Concomitantly, we observed a decrease in gene markers of mevalonate and fatty acid pathways, and intratumoral levels of cholesterol by 19% and fatty acids by 22%. Overall, this work demonstrates the potential of an ER stress inducer as an anticancer agent for the treatment of prostate cancers that are refractory to commonly used chemotherapy treatments.

A novel germline BRCA2 mutation in a Chinese patient with prostate cancer sensitive to platinum chemotherapy: a case report

Background Germline BRCA2 mutation is associated with an aggressive prostate cancer phenotype and indicates higher risk for hereditary cancer. Recently, numerous studies have attempted to identify the genomic landscape of prostate cancer to better understand the genomic drivers of this disease and look for the molecular targets to guide treatment selection. Case presentation We report a 67-year-old patient diagnosed with prostate cancer who experienced rapid disease progression after androgen deprivation therapy and subsequent docetaxel treatment. The patient had a strong family history of malignancy as his mother was diagnosed with breast cancer and his father was died of lung cancer. Next generation sequencing demonstrated a novel pathogenic germline BRCA2 mutation (p.Gly2181Glufs*10) in the patient. His mother with breast cancer and his son were found to have the same BRCA2 mutation. The patient experienced impressive and durable responses to carboplatin treatment. Conclusions This case demonstrated that the carboplatin could have a dramatic antitumor effect on patients with prostate cancer with germline BRCA2 mutations and family history will help to ensure that patients and their families can be provided with proper genetic counseling.

An open-label, pharmacokinetic study to determine the bioavailability, safety and tolerability of single dose oral docetaxel in metastatic prostate cancer (mPC) patients treated with IV docetaxel.

5050 Background: Docetaxel has poor oral bioavailability in part due to extrusion by intestinal p-glycoprotein. To improve IV solubility, it is fomulated with the nonionic surfactant polysorbate 80, requiring steroid premedication to manage hypersensitivity type reactions. Oral administration has the potential to improve tolerability, reduce day-stay utilization and improve patient convenience and allows investigation of alternative dosing schedules. Oradoxel is a new combination of oral docetaxel capsules plus the novel gut-selective P-glycoprotein inhibitor encequidar (HM30181A). Methods: Patients with mPC receiving IV docetaxel were enrolled in 3 cohorts with a dose escalation schedule of Oradoxel 75 mg/m2 in Cohort 1, 150 mg/m2 in Cohort 2, 300mg/m2 in Cohort 3. Oradoxel was given 3 weeks before or after IV docetaxel treatment. Intensive PK samples were taken on days 1-5 for Oradoxel and days 1-4 for IV docetaxel. Dose limiting toxicity (DLT) or serious adverse events (SAE) were assessed per CTCAE v4.03. Results: 3 evaluable patients in each Cohort were studied. No DLT, MTD, or drug-related SAE were observed. PK parameters of Oradoxel vs IV docetaxel are summarized in the table below. Mean absolute bioavailability of Oradoxel was 15.9% (range 8-25%). PK became non linear at 300mg/m2. Conclusions: Oradoxel was well tolerated. Based on the results of this and related studies, Oradoxel 300mg/m2 in divided doses is being further evaluated in phase 2 studies. Clinical trial information: 12616000983404. [Table: see text]

A precision dosing application for prostate cancer patients treated with docetaxel and G-CSF.

e13585 Background: The aim of this study is to produce a precision dosing application for clinicians to control neutropenia in prostate cancer patients treated with both docetaxel and G-CSF. Chemotherapy-induced neutropenia (CIN) poses serious harm to patients due to the heightened risk of severe infection. Accordingly, chemotherapy dose is assessed at the beginning of each cycle. The therapeutic window of chemotherapy is determined from population studies, with an individual’s dose often scaled by their body surface area. This leads to a large number of patients being over- or under- dosed. We previously developed an application [1] which uses weekly neutrophil counts from the first cycle of docetaxel treatment to predict the level of neutropoenia in subsequent cycles for a given dose of docetaxel. However, in the original app the administration of G-CSF, used as a prophylactic treatment for neutropenia, was not considered. G-CSF administration lacks standardisation and the COVID-19 pandemic has created a highly risk adverse environment to infections, raising the prospects that a clinician will administer G-CSF. Methods: We adapted and combined representations of endogenous and exogenous G-CSF action on CIN from the literature [2,3,4] to capture the inherent feedback effect of circulating neutrophils on progenitor proliferation as well as the stimulatory action of G-CSF injection on proliferation and maturation of progenitor cells. Using data in the public domain from the comparator arm of a phase III clinical trial for metastatic hormone-resistant prostate cancer (NCT00617669), we identified 134 patients treated with docetaxel with recorded weekly blood tests in the first and second cycle, including 27 also receiving G-CSF. We calibrated individualised patient models against neutrophil counts measured in the first cycle by minimising a Bayesian objective function and evaluated their ability to predict the levels observed in the second cycle. Results: The model was able to capture the main features of endogenous and exogenous G-CSF action on neutrophil count described in the literature, including endogenous-G-CSF-mediated rebound above baseline after chemotherapy-induced depletion [4], rapid rise in neutrophil count following exogenous G-CSF administration [5], as well as reduced chemotherapy-induced depletion and earlier recovery under G-CSF treatment compared to chemotherapy alone [5]. Conclusions: This tool has the potential to help determine how a docetaxel patient may best benefit from G-CSF treatment and/or a change in dose of docetaxel. References: Villettte C., et al., AACR; Cancer Res, 2019;79(13 Suppl): Abstract nr 677. Pastor, M.L., et al. 2013. Pharm. Res, 30(11), pp.2795-2807. Krzyzanski, W., et al. 2010. J. Clin. Pharmacol, 50(S9), pp.101S-112S. Quartino, A.L et al., 2014. Pharm. Res, 31(12), pp.3390-3403. Crawford, J., et al. 1991. N. Engl. J. Med, 325(3), pp.164-170.

The role of microRNA-572 in the proliferation and chemotherapeutic treatment of prostate cancer

Objective MicroRNAs (miRNAs) regulate prostate tumorigenesis and progression by involving different molecular pathways. In this study, we examined the role of miR-572 in prostate cancer (PCa). Methods The proliferation rates of LNCaP and PC-3 PCa cells were studied using MTT assays. Transwell migration and Matrigel invasion assays were performed to evaluate cell migration and invasion, respectively. Protein expression levels were examined using western blotting. Docetaxel-induced apoptosis was evaluated by Caspase-Glo3/7 assays. The putative miR-572 binding site in the phosphatase and tensin homolog (PTEN) 3ʹ untranslated region (3ʹ UTR) was assessed with dual-luciferase reporter assays. Additionally, miR-572 expression levels in human PCa tissues were examined by qRT-PCR assays. Results Upregulation of miR-572 promoted proliferation, migration, and invasion of PCa cells. Overexpression of miR-572 decreased sensitivity of PCa cells to docetaxel treatment by reducing docetaxel-induced apoptosis. MiR-572 can regulate migration and invasion in PCa cells. Furthermore, miR-572 could regulate expression of PTEN and p-AKT in PCa cells by directly binding to the PTEN 3ʹ UTR. MiR-572 expression levels were increased in human PCa tissues and associated with PCa stage. Conclusions miR-572 displayed essential roles in PCa tumor growth and its expression level may be used to predict docetaxel treatment in these tumors.

Tau oligomers accumulation sensitizes prostate cancer cells to docetaxel treatment

Purpose Human tau is a highly dynamic, multifunctional protein expressed in different isoforms and conformers, known to modulate microtubule turnover. Tau oligomers are considered pathologic forms of the protein able to initiate specific protein accumulation diseases, called tauopathies. In our study, we investigated the potential association between autophagy and tau oligomers accumulation and its role in the response of prostate cancer cells to docetaxel. Methods We evaluated in vitro the expression of tau oligomers in prostate cancer cell lines, PC3 and DU145, in presence of autophagy inhibitors and investigated the role of tau oligomers accumulation in resistance to docetaxel treatment. Results Tau protein was basally expressed in prostate cancer lines as several monomeric and oligomeric forms. The pharmacologic inhibition of autophagy induced in cancer cells the accumulation of tau protein, with a prevalent expression of oligomeric forms. Immunofluorescence analysis of untreated cells revealed that tau was visible mainly in dividing cells where it was localized on the mitotic spindle. Inhibition of autophagy determined an evident upregulation of tau signal in dividing cells and the presence of aberrant monoastral mitotic spindles. The accumulation of tau oligomers was associated with DNA DSB and increased cytotoxic effect by docetaxel. Conclusions Our data indicate that autophagy could exert a promoting role in cancer growth and during chemotherapy facilitating degradation of tau protein and thus blocking the antimitotic effect of accumulated tau oligomers. Thus, therapeutic strategies aimed at stimulating tau oligomers formation, such as autophagy inhibition, could be an effective adjuvant in cancer therapy.