Table 2.
The mechanism of difference source of MSCs in treatment Inflammatory Bowel Disease.
| MSCs source | Model | Type | Pathway | Dosage | Mechanism | Refs |
|---|---|---|---|---|---|---|
| BM-MSCs | C57BL/6 Mice | IBD | i.v. | 1×106 cells | Up-regulation of COX2 and the activation of EP4 receptors | Brown et al. (112) |
| BM-MSCs | C57BL/6 mice | UC | i.p. | 2×106 cells | Through suppression of DCs’ inflammatory phenotype through Gal-3 | Nikolic et al. (113) |
| BM-MSCs | BALB/c mice | UC | i.p. | 2×106 cells | Promoted M2-like macrophage polarization and relieved inflammatory responses | Cao et al. (114) |
| BM-MSCs | Wister rats | UC | i.p. | 2×106 cells | By reducing the neutrophil infiltration, lipid peroxidation, and proinflammatory cytokine levels | Froushani et al. (115) |
| hUC-MSCs | Patients | IBD | i.v. | 2.3-4.7×107 cells | Accelerate the apoptosis of active inflammatory cells by down-regulating inflammatory mediator production | Hu et al. (116) |
| hUC-MSCs | KM mice | IBD | i.p. | 1.3×106 cells | By regulating the expression of IL-7 | Fei et al. (117) |
| hUC-MSCs | BALB/c mice | IBD | i.p. | 1×106 cells | Modulation of immunosuppression by producing PGE2 inducing TLR3 to activate Notch-1 signaling | Qiu et al. (90) |
| hUC-MSCs | BALB/c mice | IBD | i.v. | n/a | Reduce ubiquitin-protein expression and reduction of NF-κB and mTOR activation | Wu et al. (118) |
| hUC-MSCs | C57BL/6 mice | IBD | i.p. | 3×106 cells | By inhibiting ERK signalling, polarize neutrophils toward the “N2” phenotype. | Wang et al. (119) |
| GMSCs | C57BL/6J mice | UC | i.v. | 2×106 cells | By downregulating the production of inflammatory cytokines by reducing colonic infiltration of inflammatory cells and promoting the generation/activation of Tregs | Zhang et al. (43) |
| GMSCs | C57BL/6J mice | UC | i.v. | n/a | By modulating inflammatory immune cells via IL-10 signalling | Lu et al. (120) |
| GMSCs | C57BL/6J mice | UC | i.v. | 2×105 cells | By upregulating expression of FAS ligand | Xu et al. (121) |
| GMSCs | C57BL/6J B6.129P2-Cbstm1Unc/J, and Cbs+/− mice | UC | i.v. | 2×105 cells | By Fas/FasL coupling-induced T-cell apoptosis | Yang et al. (94) |
| GMSCs | C57BL/6J mice | UC | i.v. | 1×106 cells | By upregulating expression of FAS ligand | Yu et al. (122) |
| HA-MSCs | SD rats | IBD | i.v. | 1×106 cells | By producing a variety of humoral factors | Miyamoto et al. (123) |
| HA-MSCs | CD-1 mice | IBD | i.v. | 2×106 cells | By increasing the numbers of Lgr51 intestinal stem cells, stimulating intestinal epithelial cell proliferation, and increasing intestinal angiogenesis | Soontararak et al. (124) |
| AT-MSCs | C57BL/6J mice | IBD | i.p. | 2×106 cells | Increased release of TSG-6 and PGE2 | Song et al. (125) |
| AT-MSCs | C57BL/6J mice | IBD | i.p. | 1-5×106 cells | Induces an innate immune memory response | Lopez-Santalla et al. (126) |
| AT-MSCs | SD rats | UC | i.v. | 1×107 cells | By suppressing NF-κB signaling pathway | Qi et al. (127) |
| MSC-CM | Rat | IBD | i.v. | 4.5×107 cells | Produced pleiotropic gut trophic factors | Watanabe et al. (128) |
| iPSC-MSCs | C57BL/6J mice | IBD | i.p. | 2×106 cells | Hyaluronan-CD44 interacts with TSG-6 in an Akt-dependent manner | Yang et al. (129) |
| DF-MSCs | CD patients | CD | i.v. | n/a | By inducing increased numbers of Tregs and reducing CD4+IL22BP T cell ratio | Zibandeh et al. (130) |