ABSTRACT
BACKGROUND@#Islet transplantation is currently considered the most promising method for treating insulin-dependent diabetes. The two most-studied artificial islets are alginate-encapsulated b cells or b cell spheroids. As three-dimensional (3D) models, both artificial islets have better insulin secretory functions and transplantation efficiencies than cells in twodimensional (2D) monolayer culture. However, the effects of these two methods have not been compared yet. Therefore, in this study, cells from the mouse islet b cell line Min6 were constructed as scaffold-free spheroids or alginate-encapsulated dispersed cells. @*METHODS@#MIN6 cell spheroids were prepared by using Agarose-base microwell arrays. The insulin secretion level was determined by mouse insulin ELISA kit, and the gene and protein expression status of the MIN6 were performed by Quantitative polymerase chain reaction and immunoblot, respectively. @*RESULTS@#Both 3D cultures effectively promoted the proliferation and glucose-stimulated insulin release (GSIS) of MIN6 cells compared to 2D adherent cells. Furthermore, 1% alginate-encapsulated MIN6 cells demonstrated more significant effects than the spheroids. In general, three pancreatic genes were expressed at higher levels in response to the 3D culture than to the 2D culture, and pancreatic/duodenal homeobox-1 (PDX1) expression was higher in the cells encapsulated in 1% alginate than that in the spheroids. A western blot analysis showed that 1% alginate-encapsulated MIN6 cells activated the phosphoinositide 3-kinase (PI3K)/serine/threonine protein kinase (AKT)/forkhead transcription factor FKHR (FoxO1) pathway more than the spheroids, 0.5% alginate-, or 2% alginate-encapsulated cells did. The 3D MIN6 culture, therefore, showed improved effects compared to the 2D culture, and the 1% alginate-encapsulated MIN6 cells exhibited better effects than the spheroids. The upregulation of PDX1 expression through the activation of the PI3K/AKT/FoxO1 pathway may mediate the improved cell proliferation and GSIS in 1% alginate-encapsulated MIN6 cells. @*CONCLUSION@#This study may contribute to the construction of in vitro culture systems for pancreatic islets to meet clinical requirements.
ABSTRACT
Objective:To evaluate immune response of murine peritoneal macrophage challenging by methicillin-resistant S.aureus(MRSA)after pretreatment with Pam3Csk4(TLR2 agonist).Methods: Murine peritoneal macrophage was pretreated with Pam3Csk4(1 μg/ml).Following pretreatment 12 h later,heat-killed MRSA( HK-MRSA) was added and incubated for another 2 or 6 hours.The protein and mRNA level of TNF-α, IL-6 and IL-1 were determined by ELISA and Q-PCR, respectively.To estimate phagocytosis of macrophage,HK-MRSA/MSSA labeled with FITC( FITC-HK-MRSA/MSSA) were added to well and incubated for 30 min.After washing 5 times with PBS,intracellular FITC-HK-MRSA was detected by flow cytometry.To estimate antimicrobal activity of macrophage,live MRSA and MSSA were added to well and incubated at indication time,the CFU of s.aureus was estimated via a 10-fold serial dilution on agar media.cDNA was further quantitative assessed using primers for mouse FCR-Ⅰ,FCR-Ⅲ,CR-1,CR-3,iNOS and LL37 by Q-PCR .Results: Compared with saline-pretreated cell, the protein and mRNA level of TNF-α, IL-6 and IL-1 were markely reduced, respectively.However, both the phagocytosis and antimicrobal activity to S.aureus were significantly increased in macrophages pretreated with Pam3Csk4.Further study found that the macrophages had higher FCR-Ⅰ,FCR-Ⅲ,CR-1,CR-3,iNOS and LL37 expression at 6 h and 12 h post-stimulation Pam3Csk4.Conclusion: The results suggest that Pam3Csk4 could activate murine antimicrobal activity of peritoneal macrophage challenging by methicillin-resistant Saureus via increasing opsonophagocytosis in depended antibodies, complements manners.The results suggest Pam3Csk4 probably be a novel immunotherapy candidate against MRSA.