Entinostat induces antitumor immune responses through immune editing of tumor neoantigens.

Although immune-checkpoint inhibitors (ICIs) have been a remarkable advancement in bladder cancer treatment, the response rate to single-agent ICIs remains suboptimal. There has been substantial interest in the use of epigenetic agents to enhance ICI efficacy, although precisely how these agents potentiate ICI response has not been fully elucidated. We identified entinostat, a selective HDAC1/3 inhibitor, as a potent antitumor agent in our immune-competent bladder cancer mouse models (BBN963 and BBN966).

Oxygen as a chemoattractant: confirming cellular hypoxia in paper-based invasion assays.

Low oxygen tension, or hypoxia, is a common occurrence in solid tumors. Hypoxia is a master regulator of cellular phenotype, and is associated with increased tumor invasion and aggressiveness as well as adverse patient prognosis. Oxygen has recently been linked with the selective movement of different cancer cell types in three-dimensional invasion assays utilizing paper-based scaffolds.

Quantifying oxygen in paper-based cell cultures with luminescent thin film sensors.

Paper-based scaffolds are an attractive material for generating 3D tissue-like cultures because paper is readily available and does not require specialized equipment to pattern, cut, or use. By controlling the exchange of fresh culture medium with the paper-based scaffolds, we can engineer diffusion-dominated environments similar to those found in spheroids or solid tumors. Oxygen tension directly regulates cellular phenotype and invasiveness through hypoxia-inducible transcription factors and also has chemotactic properties.

Real-time imaging of cancer cell chemotaxis in paper-based scaffolds.

Cellular migration is the movement of cells, cultured as a monolayer; cellular invasion is similar to migration, but requires the cells to move through a three-dimensional material such as basement membrane extract or a synthetic hydrogel. Migration assays, such as the transwell assay, are widely used to study cellular movement because they are amenable to high-throughput screens with minimal experimental setup. These assays offer limited information about cellular responses to gradients in vivo because they oversimplify the threedimensional (3D) environment of a tissue.

Tracking the Invasion of Small Numbers of Cells in Paper-Based Assays with Quantitative PCR.

Paper-based scaffolds are an attractive material for culturing mammalian cells in a three-dimensional environment. There are a number of previously published studies, which utilize these scaffolds to generate models of aortic valves, cardiac ischemia and reperfusion, and solid tumors. These models have largely relied on fluorescence imaging and microscopy to quantify cells in the scaffolds.