Immuno-Regulation of Brain Region-Specific Organoids Containing Isogenic Microglia-Like Cells.

Most brain organoids derived from human induced pluripotent stem cells (iPSCs) lack microglia and thus immune function. Microglia-like cells (MGCs) can be differentiated from iPSCs, while the characteristics of isogenic MGC-containing brain organoids in modeling neurodegeneration and cell-cell communications have not been well investigated. In this study, iPSC-derived MGCs are co-cultured with isogenic forebrain cortical organoids (iFCo), which are stimulated with extracellular vesicles (EVs) of brain organoids differentiated from Alzheimer's disease (AD) patient-derived iPSCs (APOE ε4/ε4 and presenilin 1). The AD EV-stimulated co-culture organoids are treated with EVs from healthy MGCs or co-culture. Differential responses of the co-cultured organoids and the MGCs to AD EVs are demonstrated. The co-cultured organoids mitigated pro-inflammatory gene expressions. EVs from healthy MGCs or co-culture reduced the expression of IL-12β, iNOS, TREM2, and CASS4, which are associated with neural inflammation and degeneration, as well as showed regulation on genes involved in microglial activation and carbon metabolism. AD EV cargo analysis by proteomics and microRNA-sequencing revealed APOE and APP proteins and microRNAs regulated pathways such as mitophagy. This study paves the way for understanding the role of microglia and brain organoids in modeling neural degeneration and the development of EV-based cell-free therapeutics for AD treatment.