Catherine Sánchez

Exosomes from bulk and stem cells from human prostate cancer have a differential microRNA content that contributes cooperatively over local and pre-metastatic niche

The different prostate cancer (PCa) cell populations (bulk and cancer stem cells, CSCs) release exosomes that contain miRNAs that could modify the local or premetastatic niche. The analysis of the differential expression of miRNAs in exosomes allows evaluating the differential biological effect of both populations on the niche, and the identification of potential biomarkers and therapeutic targets. Five PCa primary cell cultures were established to originate bulk and CSCs cultures. From them, exosomes were purified by precipitation for miRNAs extraction to perform a comparative profile of miRNAs by next generation sequencing in an Illumina platform. 1839 miRNAs were identified in the exosomes. Of these 990 were known miRNAs, from which only 19 were significantly differentially expressed: 6 were overexpressed in CSCs and 13 in bulk cells exosomes. miR-100-5p and miR-21-5p were the most abundant miRNAs. Bioinformatics analysis indicated that differentially expressed miRNAs are highly related with PCa carcinogenesis, fibroblast proliferation, differentiation and migration, and angiogenesis. Besides, miRNAs from bulk cells affects osteoblast differentiation. Later, their effect was evaluated in normal prostate fibroblasts (WPMY-1) where transfection with miR-100-5p, miR-21-5p and miR-139-5p increased the expression of metalloproteinases (MMPs) -2, -9 and -13 and RANKL and fibroblast migration. The higher effect was achieved with miR21 transfection. As conclusion, miRNAs have a differential pattern between PCa bulk and CSCs exosomes that act collaboratively in PCa progression and metastasis. The most abundant miRNAs in PCa exosomes are interesting potential biomarkers and therapeutic targets.

Expression of Multidrug Resistance Proteins in Prostate Cancer Is Related With Cell Sensitivity to Chemotherapeutic Drugs

Multidrug resistance (MDR) proteins have been associated with the lack of chemotherapy response. Expression of these proteins has been described in the prostate, but there is no information about their role in the chemotherapy response of prostate cancer (PC). We studied the gene and protein expression of MDR proteins in primary cell cultures from PC tumors and PC cell lines, their relationship with chemotherapy and their effects on cell survival.

Effect of Leuprolide and Cetrorelix on Cell Growth, Apoptosis, and GnRH Receptor Expression in Primary Cell Cultures from Human Prostate Carcinoma

Contradictory data have been reported regarding the effect of GnRH agonists and antagonists on cell growth and survival, using prostate cancer-derived cell lines expressing either endogenous or exogenous GnRH receptors. We addressed the issue studying the effect of leuprolide (agonist) and cetrorelix (antagonist) on cell growth, apoptosis and GnRH receptor expression using a primary cell coculture system. Also, binding characteristics of prostate GnRH receptor in this culture system are described. Epithelial and stromal cells were obtained from prostate adenocarcinoma samples and cocultured in a bicameral system. Expression of GnRH receptors was evaluated by semiquantitative RT-PCR (transcript level) and Western blot (protein level). Cell growth was estimated by MTT method and apoptosis by DNA fragmentation using COMET assay. Saturation and competition binding studies were carried out using 125I-GnRH as radioligand. GnRH receptors from cell cultures of prostate cancer exhibited a single class of binding sites with a Kd of 1.11 ± 0.28 nM and a Bmax of 2.81 ± 0.37 pmol/mg of membrane protein for GnRH. Leuprolide and cetrorelix showed no effect on GnRH receptor expression. Both analogues showed a significant reduction in cell growth rate and an increase in DNA-fragmented cell number. These effects were dependent on the analogue concentrations (from 5–20 ng/mL). Considering that the culture system used in this work represents more closely the in vivo conditions of tumor cells than metastatic derived cell lines, we conclude that GnRH analogues have a significant inhibitory effect on cell viability of cells expressing GnRH receptors. In addition, GnRH receptors expressed in tumor prostatic cells seem not discriminate between agonist and antagonist, both analogues activating these receptors. Also, leuprolide and cetrorelix treatments did not influence GnRH receptor expression in our culture system. These differences with pituitary receptors may be explained by differences in affinity, transduction mechanism and molecular context in prostatic tissue.

Chemotherapy sensitivity recovery of prostate cancer cells by functional inhibition and knock down of multidrug resistance proteins.

In several cancer types, expression of multidrug resistance (MDR) proteins has been associated with lack of chemotherapy response. In advanced prostate cancer (PCa) the use of chemotherapy is mainly palliative due to its high resistance. Previously, we described that MDR phenotype in PCa could be related with high basal and drug‐induced expression of MDR proteins P‐Glycoprotein (P‐Gp), MRP1, and LRP.

Gonadotropin Releasing Hormone Analogs Induce Apoptosis by Extrinsic Pathway Involving p53 Phosphorylation in Primary Cell Cultures of Human Prostatic Adenocarcinomas

Gonadotropin‐releasing‐hormone (GnRH) analogs are widely used to block hypothalamic–pituitary–gonadal axis and inhibit blood androgen levels in patients with prostate cancer (PCa). In addition, GnRH analogs induce proliferation arrest and apoptosis through GnRH receptors expressed on the membrane of PCa cells. Possible molecular mechanisms involved in GnRH‐mediated apoptosis on prostate cancer cells were studied.

Exploring transplacental transmission of Pneumocystis oryctolagi in first-time pregnant and multiparous rabbit does

Pneumocystis sp. is transmitted through the airborne route and presents a high host-species-specificity. Occasional reports of Pneumocystis pneumonia in still births and newborn infants suggest that other routes of transmission, e.g. transplacental might occur. The latter has been reported in rabbits but available data indicate that transplacental transmission of Pneumocystis seems not to occur in corticosteroid-treated rats and in SCID mice. The present study was undertaken to evaluate transplacental transmission of Pneumocystis oryctolagi. The spontaneously-acquired pneumocystosis rabbit model using hybrid California/New Zealand white female rabbits was selected because of similarities among rabbit and human placentas. Three different experiments were conducted in France and Chile. Pneumocystis organisms were detected by microscopy in the lungs of pregnant does and Pneumocystis DNA was found in the lungs of fetuses from the multiparous does from the second week to the end of gestation. Pneumocystis DNA was not detected in fetuses from primiparous does. Detection of Pneumocystis oryctolagi--DNA in fetuses of multiparous does and not in those of primiparous ones, suggests that transplacental transmission may be favored by multiple gestations. Whether Pneumocystis-DNA in fetal tissues from multiparous does resulted from transplacental passage of viable transmissible forms requires further investigation.

Evaluation of MENT on primary cell cultures from benign prostatic hyperplasia and prostate carcinoma.

7-alpha-Methyl-19-Nortestosterone (MENT) is a synthetic androgen more potent than testosterone (T) and cannot be reduced at 5-alpha position. No important effects of MENT on prostate growth have been reported. However, little is known about the effect of MENT on benign prostatic hyperplasia (BPH) or prostate carcinoma (CaP). We evaluate the effect of MENT, T and dihydrotestosterone (DHT) on secretion, proliferation and gene expression of primary cell cultures from human BPH and CaP. Moreover, the effect of these androgens was examined in the presence of finasteride to determine the influence of the 5-alpha reductase (5-AR) activity on the androgenic potency. BPH and CaP primary cultures were treated with 0, 1, 10 and 100 nM of T, MENT or DHT during 24 and 48 h. Prostate-specific antigen (PSA) was measured by micro particles immunoassay and proliferation rate by spectrophotometric assay (MTT) and by the immunochemical detection of the proliferation marker Ki-67. Gene expression of FGF8b (androgen sensitive gene) was evaluated by semi-quantitative RT-PCR. Results showed that MENT treatments increased PSA secretion and proliferation rate with a potency ranged between T and DHT. Similar effects of MENT were observed in both BPH and CaP cultures. The studies with finasteride showed that in BPH and CaP cells, the conversion of T into DHT significantly contributes to its effect on the proliferation and PSA secretion, and corroborated the resistance of MENT to the 5-AR. The effect of MENT on the gene expression of FGF8b in CaP cells was similar to T and lower than DHT. It is concluded that MENT increases proliferative and secretory activities and gene expression on pathological prostate cells although in less extent than the active metabolite DHT. Furthermore, the fall of endogenous concentration of T during MENT treatment anticipates that this androgen will be of low impact for the prostate.

Purificación de antígenos de Fasciola hepatica mediante electroelución y su aplicación inmunodiagnóstica mediante Western Blot en la infección animal

La electroelucion implementada en este estudio logro purificar por separado dos polipeptidos, uno de 14 y otro de 29 kDa. La eficiencia diagnostica de cada uno de estos polipeptidos medida a traves de Western blot indico una sensibilidad de 95% y 97,5% respectivamente y ambos una especificidad de 100%. Ademas se concluye que son de utilidad en la pesquisa de infecciones prepatentes

Pharmacoperone IN3 enhances the apoptotic effect of leuprolide in prostate cancer cells by increasing the gonadotropin-releasing hormone receptor in the cell membrane.

Gonadotropin-releasing hormone (GnRH) agonists are widely used for the treatment of advanced prostate cancer (PCa). Agonists activate the GnRH receptor (GnRH-R), triggering apoptosis in PCa cells. In gonadotropes, the amount of GnRH-R in the plasma membrane is regulated by protein folding and endoplasmic reticulum retention, mechanisms that can be overcome by the pharmacoperone IN3. Our aim was to describe the intracellular distribution of GnRH-R in PCa cells and its relation to response to GnRH analog treatments. The expressions of GnRH-R in PCa biopsies were evaluated by immunohistochemistry and the intracellular distribution was determined by immunofluorescence in primary cell cultures from human PCa samples. Cultured cells were pretreated with IN3 and then with leuprolide. Cell survival was evaluated by 1-(4,5-dimethylthiazol-2-yl)-3,5-diphenylformazan (MTT) thiazolyl blue formazan and cell cycle and apoptosis by flow cytometry. We observed that the expression of GnRH-R decreased according to malignant progression. Most GnRH-R are located inside the cell, colocalizing with endoplasmic reticulum markers. The treatment with IN3 decreased cellular GnRH-R retention, increasing plasma membrane expression in approximately 60%. Pretreatment with IN3 decreased PCa cell survival compared with leuprolide-alone treatment, primarily because of an increase in apoptosis. We conclude that the response of PCa cells to leuprolide is related to the amount of GnRH-R in the plasma membrane. Therefore, pretreatment evaluation of the amount of these receptors may be a predictor of the outcome of leuprolide treatment in PCa patients. Assessment of systemic IN3 effect would be necessary to determine its utility as an adjuvant treatment in hormone-resistant tumors.

Abstract 1562: miRNAs in exosomes from prostate cancer cells modify normal fibroblasts and osteoblasts favoring tumor spread and metastasis

Introduction: Exosomes from bulk and cancer stem cells (CSCs) from prostate cancer primary cultures present a differential pattern of miRNAs. The most abundant miRNA in all exosomes is miR-100, while miR-21 and miR-139 were the most abundant differentially expressed miRNAs in bulk and CSCs exosomes, respectively. Bioinformatics analysis suggested that these miRNAs were related with tumor progression. The functional effect of these miRNAs on targets related with changes at primary and pre-metastatic microenvironment was evaluated in prostatic stromal cells and osteoblasts. Methods: Normal human undifferentiated osteoblasts (hFOB1.19) and prostate fibroblasts (WPMY-1) cell lines were transfected, by separated, with 25 nM of the following miRNas: miR-100-5p, miR-21-5p, miR-139-5p. let7c was included as transfection control. After 48 hours, changes in the expression of metalloproteinases (MMP)-2, -9 and-13, RANKL, OPG and IL-8 at mRNAs and protein levels were evaluated by qPCR and western blot, respectively. As transfection control, expression of specific targets previously described for each miRNA was evaluated. Besides, the effect of miRNAs in fibroblast migration was evaluated by transwell assay. Results: In fibroblasts, transfection with miR-21, -100 and -139 increased significantly expression of RANKL, IL8 and all MMPs, with a higher effect in MMP-9. Besides, miR-21 increased fibroblast migration. In osteoblasts, transfection with miRNAs changed the balance that triggers vicious circle at the bone, increasing RANKL and diminishing OPG expression. miRNAs also increased MMPs expression. The greater effect was observed with miR-21 transfection. Conclusions: Through exosomes, prostate cancer cells recruit normal cells to favor their growth and spread. miRNAs in exosomes increase expression of proteins (in particular, MMPs and RANKL) and cell migration of fibroblasts that create a favorable microenvironment for tumor progression at the primary niche. Besides, through bloodstream, tumoral exosomes can reach the bone, preparing the premetastatic niche. miRNAs from these exosomes change the balance RANKL/OPG that triggers osteoclast recruitment facilitating metastases by activation of the bone vicious circle. miR-21, overexpressed in bulk cells, the main cellular component of tumor, has the higher effect in modify microenvironment, being a potential therapeutic target. (FONDECYT 11121525 and 1140417). Citation Format: Eliana Andahur, Enrique A. Castellon, Chistian Ramos, Juan A. Fulla, Catherine A. Sanchez. miRNAs in exosomes from prostate cancer cells modify normal fibroblasts and osteoblasts favoring tumor spread and metastasis. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 1562.