Nanoformulated meloxicam and rifampin: inhibiting quorum sensing and biofilm formation in Pseudomonas aeruginosa.

Background: We aimed to investigate the simultaneous effects of meloxicam and rifampin nanoformulations with solid lipid nanoparticle (SLN) and nanostructured lipid carrier (NLC) substrates on inhibiting the quorum-sensing system of Pseudomonas aeruginosa and preventing biofilm formation by this bacterium. Methods: Antimicrobial activity of rifampin and meloxicam encapsulated with SLNs and NLCs against P. aeruginosa PAO1 was assessed by disk diffusion, minimum inhibitory concentration (MIC) and minimum bactericidal concentration (MBC). Results: The SLN formulation was associated with lower doses for the MIC and minimum bactericidal concentration in comparison to NLC. Moreover, our results demonstrated that both nanoformulations were able to produce 100% inhibition of the biofilm formation of P. aeruginosa PAO1. Conclusion: All these findings suggest that meloxicam and rifampin encapsulated with SLNs could be the most effective formulation against P. aeruginosa.

Probiotics as an Adjuvant for Management of Gastrointestinal Cancers through their Anti-inflammatory Effects: A Mechanistic Review.

The immune system's role in maintaining the health of the gastrointestinal (GI) system is like a double-edged sword. Simultaneously, it could reduce the risk of pathogen invasion by the inflammatory response. However, if regulated improperly, it could also propagate oncogenic signaling that transfers a normal cell into the malignant counterpart. Thus, several mechanisms have been proposed, such as the immune system could disturb the GI homeostasis and increase the survival and proliferative capacity of cells, leading to the formation of a wide range of malignancies. Among the endless list of these mechanisms, inflammatory responses are currently fascinating research areas, as this response regulation is by the gut microbiota. Given this, microbiota manipulation might be a convenient and efficient way to prevent GI cancer. Probiotics could potentially achieve this by overturning the milieu in favor of normal gut homeostasis. In addition to the safety of the use of probiotics, along with their potential ability to interact with immune system responses, these bacteria are also being analyzed from the perspective of dietary supplements. In the present review, we aimed to look into the mechanisms through which probiotics modulate immune response to stimulate anti-inflammatory responses and promote immune surveillance against neoplastic cells.

Glioblastoma, an opportunity T cell trafficking could bring for the treatment.

PURPOSE: Infiltrating into the vital structure of the brain, located in the inaccessible anatomical region, and having molecular heterogeneity, glioblastoma (GBM) -with no doubt- is one of the deadliest cancers. Using the blood and brain barrier (BBB), GBM makes a shield to restrict the reach of chemotherapeutic agents to the tumor site and evolves a unique microenvironment to furnish all the essentials for cancer cells survival to conceal neoplastic cells from immunosurveillance. METHODS: 99 papers which met the criteria of eligibility were included in this review by consensus. The included articles were classified based on their design and level of evidence. RESULTS: Given this characteristic, immunotherapies for a while enjoyed unprecedented attention as a solution for GBM treatment; however, it did not take long before the enthusiasm for their application was muted. It became apparent that cancer cells intelligently find a way to manipulate the anti-tumor responses of agents by attracting immunosuppressive lymphocytes into the brain using the lymphatic vessels. This event makes GBM a good model for immunotherapy resistance. However, the presence of lymphatic vessels has fired up an idea of the adoptive attraction of effector T lymphocytes to the tumor milieu. This was when engineering and cloning technologies, which have given life to one of the recent treatment strategies using artificial T cells named chimeric antigen receptors (CAR) T-cells, came to action to design specific CAR T-cells for the treatment of GBM. CONCLUSION: The present review summarizes the recent advances in CAR T-cell-based treatments in GBM and discusses why this approach could be positioned as a pillar of the next-generation of immunotherapies for this type of brain tumor.