2025.11.24
Intestinal Epithelial Cells (IECs) form a critical, single-layered barrier lining the gut, directly interfacing with the luminal environment. This rapidly renewing epithelium, sustained by intestinal stem cells, differentiates into multiple specific cell types. These include nutrient-absorbing enterocytes, mucin-secreting goblet cells, antimicrobial Paneth cells, and hormone-releasing enteroendocrine cells. Together, they perform essential functions in digestion, immune surveillance, and microbial defense. Due to these central roles, IECs are fundamental models for studying drug absorption, inflammatory bowel disease, infection, and for developing advanced intestinal organoid systems.
√ Guaranteed High Post-Thaw Viability (≥80%)
√ Batch-Specific Certificate of Analysis (COA)
√ Expandable & Culture-Ready Cells
√ Customizable: Multiple Species & Sizes
Cat. No. | Product Description | Size |
SD900-05 | SD Rat Intestine Epithelial Cells | 0.5 million |
CD900-05 | CD-1 Mouse Intestine Epithelial Cells | 0.5 million |
BA900-05 | BALB/c Mouse Intestine Epithelial Cells | 0.5 million |
BD900-05 | Beagle Dog Intestine Epithelial Cells | 0.5 million |
CY900-05 | Cynomolgus Monkey Intestine Epithelial Cells | 0.5 million |
BM900-05 | Bama Minipig Intestine Epithelial Cells | 0.5 million |
Figure 1:Cyno IECs maintained a stable cobblestone morphology through serial subculture (P1-P5). When the cells reach 100% confluence, they formed a continuous, polarized monolayer composed of polygonal cells with homogeneous, translucent cytoplasm. The consistent morphology and robust growth indicate reliable in vitro stability.
Fig. 2: Cyno IECs culture stained for ZO-1. The Nuclei counterstained with DAPI.
