Suspension culture promotes serosal mesothelial development in human intestinal organoids.

Pluripotent-stem-cell-derived human intestinal organoids (HIOs) model some aspects of intestinal development and disease, but current culture methods do not fully recapitulate the diverse cell types and complex organization of the human intestine and are reliant on 3D extracellular matrix or hydrogel systems, which limit experimental control and translational potential for regenerative medicine. We describe suspension culture as a simple, low-maintenance method for culturing HIOs and for promoting in vitro differentiation of an organized serosal mesothelial layer that is similar to primary human intestinal serosal mesothelium based on single-cell RNA sequencing and histological analysis. Functionally, HIO serosal mesothelium has the capacity to differentiate into smooth-muscle-like cells and exhibits fibrinolytic activity. An inhibitor screen identifies Hedgehog and WNT signaling as regulators of human serosal mesothelial differentiation. Collectively, suspension HIOs represent a three-dimensional model to study the human serosal mesothelium.

Stereologic characteristics of pig small intestine during normal development.

Stereologic methods were used to study the behavior of the pig's intestinal wall during periods that are characterized by a high incidence of gastrointestinal disorders. For this purpose conventionally stained transverse and vertical paraffin sections were made of the small intestine (duodenum, jejunum, and ileum) of fetal, neonatal, and weaned pigs. The volumes of the intestinal walls were estimated using Cavalieri's method. Subsequently, the surface density (Sv) of the tunica mucosa and the volume densities (Vv) of the different small intestinal elements were estimated. Finally, the surface and volumes per serosal surface area (Ss and Vs) were calculated. The decrease of Sv can be attributed to the finding that the mucosal surface increases to a lesser extent compared with the volume of the intestinal wall. The Vs of the various layers increased postnatally, illustrating that the intestinal wall thickens. Despite an increasing total mucosal surface, this postnatal thickening causes Ss to decline. Each of these changes is temporally related to dietary changes, an increased antigen load, and an increased need for protection. Additionally, the regional differences of the various parameters match the qualitative descriptions of the small intestine of the pig and relate to region-specific functions.