GENERATION OF HUMAN INTESTINAL ORGANOIDS CONTAINING TISSUE-RESIDENT IMMUNE CELLS

Abstract

Abstract BACKGROUND Human gastrointestinal (GI) organoid technologies have transformed GI disease research. By recapitulating the essential steps that occur during embryonic organ development, we could generate in vitro human colonic organoids (HCOs) (Munera et al, Cell Stem Cell. 2017) and human intestinal organoids (HIOs) (Spence et al, Nature. 2011) from iPSCs. Interestingly, HCOs contain both epithelial and surrounding mesenchymal derivatives, including myofibroblasts and tissue-resident immune cells. Our preliminary data demonstrate that HCOs co-develop CD163 positive macrophages derived from the hemogenic endothelium that develops within the colonic mesenchyme. Conversely, HIOs do not spontaneously develop tissue-resident immune cells. OBJECTIVE To incorporate tissue-resident immune cells into HIOs and use this new model to interrogate diseases such as IBD and Crohn’s Disease. RESULTS HIOs did not form endothelial tubes and immune cell floaters as seen in HCOs under the microscope 20 days after the start of differentiation. Moreover, HIO supernatants yielded few to no CFUs in Methocult assays compared to HCOs. Therefore, we tried two approaches to generate a novel HIO model system containing resident macrophages. First, we tried to transfer mesenchymal cells innately present in HCOs. We dissociate mesenchyme from HCOs and recombine them with HIO epithelium around day 20 from the start of differentiation (Figure 1A). We could successfully dissociate HCO-mesenchymal components from their epithelium and recombined them with HIO epithelium, but we could not detect CD163 positive macrophages in recombined HIOs. Second, we tried to transfer the supernatant of HCOs to HIOs around day 20 from the start of differentiation (Figure 1B). We confirmed the presence of CD163+ macrophages in day 35 HIOs using immunostaining and RNA sequencing (Figure 2A, B). We also confirmed the expression of cytokines such as IL10, IL12, and TGFβ via qPCR. Furthermore, we wanted to investigate whether these tissue resident macrophages were maintained after further maturation. As previously described, HIO transplantation into the mouse kidney capsule for 12 weeks allows for tissue maturation enabling crypt/villus formation and smooth muscle differentiation (Figure 2C) (Watson et al, Nat. Med. 2014). After recombined HIOs were transplanted, human CD163+ macrophages displayed expansion and were not displaced by bone marrow derived mouse macrophages (expressing F4/80). In the future, we also plan to differentiate monocytes directly from iPSCs and inject the monocytes into HIOs to see if they resident in the tissue as macrophages (Figure 1C). CONCLUSION We generated HIOs containing tissue-resident macrophages by transferring supernatant of HCOs. We expect to accelerate our understanding of the mechanisms of IBD such as CD because of the development of HIOs technology containing of immune cells.