Recent Advancements and Applications of Human Immune System Mice in Preclinical Immuno-Oncology.

Significant advances in immunotherapies have resulted in the increasing need of predictive preclinical models to improve immunotherapeutic drug development, treatment combination, and to prevent or minimize toxicity in clinical trials. Immunodeficient mice reconstituted with human immune system (HIS), termed humanized mice or HIS mice, permit detailed analysis of human immune biology, development, and function. Although this model constitutes a great translational model, some aspects need to be improved as the incomplete engraftment of immune cells, graft versus host disease and the lack of human cytokines and growth factors. In this review, we discuss current HIS platforms, their pathology, and recent advances in their development to improve the quality of human immune cell reconstitution. We also highlight new technologies that can be used to better understand these models and how improved characterization is needed for their application in immuno-oncology safety, efficacy, and new modalities therapy development.

Systematic Evaluation of CRISPRa and CRISPRi Modalities Enables Development of a Multiplexed, Orthogonal Gene Activation and Repression System.

The ability to manipulate the expression of mammalian genes using synthetic transcription factors is highly desirable in both fields of basic research and industry for diverse applications, including stem cell reprogramming and differentiation, tissue engineering, and drug discovery. Orthogonal CRISPR systems can be used for simultaneous transcriptional upregulation of a subset of target genes while downregulating another subset, thus gaining control of gene regulatory networks, signaling pathways, and cellular processes whose activity depends on the expression of multiple genes. We have used a rapid and efficient modular cloning system to build and test in parallel diverse CRISPRa and CRISPRi systems and develop an efficient orthogonal gene regulation system for multiplexed and simultaneous up- and downregulation of endogenous target genes.