LZ-8, a bioactive protein isolated from Ganoderma lucidium, it has been reported that has several immunomodulatory function on immune cells. In our preliminary data showed that orally administering LZ-8 to mice would enhance the increase of CD25+ FOPX3+ regulatory T cell population both in the MLN and spleen. But the mechanism underlying this outcome was remained unknown. In addition, our in vitro data showed that treating LZ-8 to bone marrow-derived regulatory dendritic cells would upregulate the mRNA expression of aldehyde dehydrogenase family 1, subfamily 2 (ALDH1A2), a rate-limiting enzyme that helps dendritic cells synthesis more retinoic acid to exert regulatory function. In the experiment of co-culturing LZ-8-treated regDCs with CD4+ T cells showed higher ratio of FOXP3+ regulatory T cell production. Furthermore, in mice IBD model, LZ-8- fed mice had reduction of criteria for IBD evaluation including weight loss and inflammatory cytokine production. Taken together, these data demonstrated that LZ-8 might activate regulatory dendritic cells residing in intestine (CD103+ DCs), and then promote downstream CD25+ FOXP3+ regulatory T cells development. Furthermore, another source of RA was intestinal epithelial cells (IECs) which express ALDH1A1 and ALDH1A3 to produce RA. In our recent experiment found that adding LZ-8 to mouse IEC cell line, CMT-93, would promote its growth. If LZ-8 could also upregulate the enzymatic activity of ALDH on IECs, it is another good explaination that LZ-8 could attenuate IBD. In conclusion, administration of LZ-8 might mediate the homeostasis in the intestine and have a therapeutic potential to inflammatory disease, such as inflammatory bowel disease.