The three-dimensional (3D) cell culture models present physiologically relevant cellular microenvironment and offer great promise for assessing drug disposition and pharmacokinetics that influence drug safety and efficacy at an early stage of drug development. Currently, there are numerous different types of 3D culture systems for liver and gut, from simple spheroids to more complicated organs-on-chips and from single-cell type static 3D models to cell-coculture 3D models equipped with microfluidic flow control.

Nuclear receptors are important components of the host-microbiota communication network. Metabolomics and sequencing-based microbial community profiling, two recent technological advances, have helped to solidify this host-microbiota signaling concept and identified not only how specific ligands generated by the host and by the microbiota can modulate nuclear receptor activity, but also how activation/disruption of these pathways can influence and shape the microbiota.

Developmental exposure to environmental toxicants has been frequently linked to delayed onset of complex human diseases later in life. This talk will discuss how Developmental reprogramming the gut microbiome may contribute to the persistent toxicities of the host in adulthood, using the gut-liver axis as an example.

Design of successful clinical trials requires accurate preclinical assessment of drug candidate’s pharmacokinetic, pharmacodynamic and toxicity profiles. However, due to translational gap between human physiology and and existing preclinical models including both in vitro culture and animal models, a large percentage of drug candidates fail at the clinical trial stage due to a lack of efficacy and unacceptable toxicity. This need for more human-physiology relevant in vitro systems for preclinical testing has led to a major effort to develop “Microphysiological Systems (MPS)” based on engineered human tissue constructs. Javelin Biotech bridges this gap by merging human MPS technologies and quantitative systems pharmacology to predict drug human clinical pharmacokinetic profiles during preclinical studies.

Talk description coming soon!