22Human pluripotent stem cell (hPSC)-derived intestinal organoids (HIOs) generated using directed 23 differentiation lack some cellular populations found in the native organ, including vasculature. Using 24 single cell RNA sequencing (scRNAseq), we have identified a transient population of endothelial cells 25 (ECs) present early in HIO differentiation that are lost over time in culture. Here, we have developed a 26 method to enhance co-differentiation and maintenance of ECs within HIOs (vHIOs). Given that ECs are 27 known to possess organ specific gene expression, morphology and function, we used bulk RNAseq 28 and scRNAseq to interrogate the developing human intestine, lung, and kidney in order to identify 29 organ-enriched EC-gene signatures in these organ systems. By comparing organ-specific gene 30 signatures along with markers validated by fluorescent in situ hybridization to HIO ECs, we find that 31 HIO ECs grown in vitro share the highest similarity with native intestinal ECs relative to kidney and 32 lung. Together, these data show that HIOs can co-differentiate a native EC population that are properly 33 patterned with an intestine-specific EC transcriptional signature in vitro. 34 35 36 37 38 39 40 41 42 43 44 65highly vascularized regions of immunocompromised mice (Cortez et al., 2018; Watson et al., 2014). In 66 these environments, HIOs undergo extensive vascularization by the murine host tissue, and increase in 67 complexity to resemble mature intestinal tissue (Finkbeiner et al., 2015b; Watson et al., 2014).
68However, co-culture approaches or co-differentiating HIOs with a native vasculature prior to in vivo 69 engraftment has not yet been achieved.
71Here, we performed single cell RNA sequencing (scRNAseq) at various timepoints across HIO 72 differentiation in vitro and observed a transient population of endothelial-like cells (ECs) present within 73 HIOs early during differentiation; however, these cells are not maintained during prolonged culture 74 under standard growth conditions. This suggested that early during HIO differentiation, cells within the 75 culture are capable of giving rise to EC-like cells. Based on these observations, we hypothesized that a 76 modified directed differentiation approach would allow the induction and maintenance of a more robust 77 EC population within HIOs (termed vHIO). Our findings demonstrate that modified culture conditions 78 allow a ~13-fold increase in the induction of EC-like cells within HIOs without impacting the other HIO 79 cell populations present (i.e. epithelium, mesenchyme), and support the survival of this population of 80 ECs within HIOs in culture for months.
82Since organ-specific morphology in vascular beds has long been appreciated (Aird, 2007), and 83 organ-specific transcriptional signatures and functions have been described in mouse (Ding et al., 84 2011; Kalucka et al., 2020; Lee et al., 2014; Nolan et al., 2013) and human tissues (Chi et al., 2003; 85 Marcu et al., 2018), we further sought to determine if HIO ECs were properly...
