Showing papers by "Ana Maria Oliveira Battastini published in 2015"

Involvement of purinergic system in the release of cytokines by macrophages exposed to glioma‐conditioned medium

Abstract: Macrophages are involved in cancer progression. M1 macrophages have an antitumor effect, whereas M2 phenotype are associated with tumor growth. The progression of gliomas involves the participation of an inflammatory microenvironment. Adenosine triphosphate (ATP) can act as pro-inflammatory signal, whereas adenosine has opposite properties. The biological effects of extracellular nucleotides/nucleosides mediated by purinergic receptors are controlled by ectonucleotidases. In the present work, we evaluated whether glioma-conditioned medium (GL-CM) modulates macrophage differentiation and the participation of ATP and adenosine in the release of pro-and anti-inflammatory cytokines by these cells. The results show that macrophages exposed to GL-CM were modulated to an M2-like phenotype. HPLC analysis of GL-CM demonstrated the presence of significant amounts of ATP and its metabolites. Macrophages exposed to GL-CM presented decreased ATP and AMP hydrolysis and increased IL-10 and MCP-1 secretion, effects that were diminished by P1 or P2 antagonists. GL-CM did not alter the release of IL-6 by macrophages, although treatment with ATP promoted an increase in the release of IL-6, which was prevented by a P2X7 antagonist. In summary, we found that A2A and P2X7 activation is necessary for IL-10, MCP-1, and IL-6 release by macrophages exposed to GL-CM, which, in turn, modulates the macrophages to M2-phenotype. The present study establishes a relationship between M2-like polarization, cytokine release and purinergic receptor activation in macrophages exposed to GL-CM. Therefore, the data presented herein contributes to advancing in the field of cancer-related inflammation and point specific purinergic receptors as targets for modulation of the phenotype of glioma-associated macrophages.

Pathological concentrations of homocysteine increases IL-1β production in macrophages in a P2X7, NF-ĸB, and erk-dependent manner

Abstract: Elevated plasma levels of homocysteine (Hcy) are associated with the development of coronary artery disease (CAD), peripheral vascular disease, and atherosclerosis. Hyperhomocysteinemia is likely related to the enhanced production of pro-inflammatory cytokines including IL-1β. However, the mechanisms underlying the effects of Hcy in immune cells are not completely understood. Recent studies have established a link between macrophage accumulation, cytokine IL-1β, and the advance of vascular diseases. The purpose of the present study is to investigate the effects of Hcy on IL-1β secretion by murine macrophages. Hcy (100 μM) increases IL-1β synthesis via enhancement of P2X7 expression and NF-ĸB and ERK activation in murine macrophages. In addition, the antioxidant agent N-acetylcysteine (NAC) reduces NF-κB activation, ERK phosphorylation, and IL-1β production in Hcy-exposed macrophages, indicating the importance of ROS in this pro-inflammatory process. In summary, our results show that Hcy may be involved in the synthesis and secretion of IL-1β via NF-ĸB, ERK, and P2X7 stimulation in murine macrophages.

Pharmacological Improvement and Preclinical Evaluation of Methotrexate-Loaded Lipid-Core Nanocapsules in a Glioblastoma Model.

Abstract: Glioblastoma multiforme is a devastating cerebral tumor with an exceedingly poor prognosis. Methotrexate (MTX) is a folic acid analogue that inhibits DNA synthesis by binding to dihydrofolate reductase. Biodegradable nanoparticles are emerging as a promising system for drug delivery to specific tissues. The aims of the current study were pharmacological improvement and preclinical evaluation of MTX-loaded lipid-core nanocapsules (MTX-LNCs) in a glioblastoma model. Cell viability was assessed using the MTT assay, and the cell cycle was characterized by flow cytometry analysis of propidium iodide staining. Apoptosis was measured using an AnnexinV kit and by examining active caspase-3 immunocontent. In vivo glioma implantation was performed in rats, followed by measurement of the tumor size and tumoral apoptosis, BCL-2 immunohistochemistry and analyses of toxicological parameters. MTX-LNCs with increased encapsulation efficiency were successfully prepared. Our in vitro results showed a decrease in glioma cell viability after MTX-LNC treatment that was preceded by cell cycle arrest, leading the cells to undergo apoptotic death, as indicated by AnnexinV staining and increased active caspase-3 protein levels. In the in vivo glioma model, we observed a decrease in the tumor size and an increase in apoptosis in the tumor microenvironment (based on the AnnexinV assay and BCL-2 measurement). MTX-LNC treatment decreased the leukocyte number but altered neither toxicological tissue marker expression nor metabolic parameters. The present results reveal that MTX-LNCs represented an efficient formulation in a preclinical model of glioma and are a potential candidate for clinical trials.

Insights into Ecto-5'-Nucleotidase as a New Target for Cancer Therapy: A Medicinal Chemistry Study.

Abstract: Ecto-5'-nucleotidase (ecto-5'-NT, 5'-NT, eN, CD73) is a membrane ecto-enzyme that is primarily responsible for the extracellular production of adenosine from AMP. Ecto-5'-NT is over expressed in various types of cancer cells, leading to elevated concentrations of adenosine in the tumor microenvironment. Adenosine has also been found to be important in cancer pathogenesis, showing strong immunosuppressive effects over antitumor T cells and macrophages and promoting neovascularization and cell adherence. These actions support tumor growth and development. It has been suggested that the inhibition of ecto-5'-NT results in lower extracellular concentrations of adenosine within the tumor microenvironment, which would directly affect cancer cells and render malignant cells more susceptible to host defense systems. Such mechanisms are proposed to represent promising new targets for cancer therapy. The aim of this review is to explore the biochemical and structural features of ecto-5'-NT, including a brief analysis of its active site by molecular modeling, as a means of evaluating whether the inhibition of this enzyme does indeed represent a feasible strategy for treating cancer. Known inhibitors and possible prototypes that could be used to target ecto-5'-NT during cancer therapy are also discussed.

Ecto-5'-Nucleotidase Overexpression Reduces Tumor Growth in a Xenograph Medulloblastoma Model.

Abstract: Background Ecto-5’-nucleotidase/CD73 (ecto-5’-NT) participates in extracellular ATP catabolism by converting adenosine monophosphate (AMP) into adenosine. This enzyme affects the progression and invasiveness of different tumors. Furthermore, the expression of ecto-5’-NT has also been suggested as a favorable prognostic marker, attributing to this enzyme contradictory functions in cancer. Medulloblastoma (MB) is the most common brain tumor of the cerebellum and affects mainly children. Materials and Methods The effects of ecto-5’-NT overexpression on human MB tumor growth were studied in an in vivo model. Balb/c immunodeficient (nude) 6 to 14-week-old mice were used for dorsal subcutaneous xenograph tumor implant. Tumor development was evaluated by pathophysiological analysis. In addition, the expression patterns of adenosine receptors were verified. Results The human MB cell line D283, transfected with ecto-5’-NT (D283hCD73), revealed reduced tumor growth compared to the original cell line transfected with an empty vector. D283hCD73 generated tumors with a reduced proliferative index, lower vascularization, the presence of differentiated cells and increased active caspase-3 expression. Prominent A1 adenosine receptor expression rates were detected in MB cells overexpressing ecto-5’-NT. Conclusion This work suggests that ecto-5’-NT promotes reduced tumor growth to reduce cell proliferation and vascularization, promote higher differentiation rates and initiate apoptosis, supposedly by accumulating adenosine, which then acts through A1 adenosine receptors. Therefore, ecto-5’-NT might be considered an important prognostic marker, being associated with good prognosis and used as a potential target for therapy.

The Quinovic Acid Glycosides Purified Fraction from Uncaria tomentosa Protects against Hemorrhagic Cystitis Induced by Cyclophosphamide in Mice

Abstract: Uncaria tomentosa is widely used in folk medicine for the treatment of numerous diseases, such as urinary tract disease. Hemorrhagic cystitis (HE) is an inflammatory condition of the bladder associated with the use of anticancer drugs such as cyclophosphamide (CYP). Sodium 2-mercaptoethanesulfonate (Mesna) has been used to prevent the occurrence of HE, although this compound is not effective in established lesions. It has been demonstrated that the purinergic system is involved in several pathophysiological events. Among purinergic receptors, P2X7 deserves attention because it is involved in HE induced by CYP and, therefore, can be considered a therapeutic target. The objective of this study was to investigate the potential therapeutic effect of the quinovic acid glycosides purified fraction (QAPF) from U. tomentosa in the mouse model of CYP-induced HE. Pretreatment with QAPF not only had a protective effect on HE-induced urothelial damage (edema, hemorrhage and bladder wet weight) but was also able to control visceral pain, decrease IL-1β levels and down-regulates P2X7 receptors, most likely by inhibit the neutrophils migration to the bladder. This research clearly demonstrates the promising anti-inflammatory properties of QAPF, supporting its use as complementary therapy. QAPF represents a promising therapeutic option for this pathological condition.

4-Methylcoumarins with cytotoxic activity against T24 and RT4 human bladder cancer cell lines

Abstract: Bladder cancer is one of the most prevalent malignancies of the genitourinary tract, and approximately 25% of patients develop superficial cancers with invasive and metastatic pathology. Coumarins and their derivatives have antiproliferative activity and induce apoptosis in several cancer cell lines. Due to the potential therapeutic applications of these compounds, a series of 4-methylcoumarins were synthesized to investigate the antitumor cytotoxic effect in the T24 and RT4 human bladder cancer cell lines. The microwave-assisted synthesis of the coumarinsvia Pechmann condensation with modifications at position 7 was performed with excellent yields (74–100%). The 7,8-dihydroxy-4-methyl-2-oxo-2H-chromene-5-carboxylic acid derivative (3c) exhibited greater cytotoxicity against T24 cells, which represent a more malignant cell line compared to RT4. In the T24 cells, cell cycle analysis revealed a large number of cells in the sub-G1 phase after treatment with 3c, which is indicative of apoptosis. Apoptotic death was confirmed by annexin V staining assay. Based on the chemical structures of the compounds, it is suggested that the 5-carboxycoumarin ring group has a positive influence on the cytotoxic activity. These results indicate that these new compounds are promising for further chemical modulation to discover a new antitumor agent.