Insulin gene expression CX-5461 chemical structure by two groups of cells was 0.04 ± 0.004 for hADSCs and 0.65 ± 0.036 for IPCs; cycle threshold values of PCR assay were 14.12 ± 0.45 and 14.33 ± 0.37, respectively. Gene expression was normalized to GAPDH. The asterisk denotes P < 0.05. Table 2 Insulin secretion of cells (μU/mL) L-glucose L-glucose H-glucose H-glucose (30 min) (1 h) (30 min) (1 h) Normal human pancreatic
β cells 9.25 ± 1.14 9.65 ± 1.12 23.43 ± 4.12 25.81 ± 2.57 IPCs 0.46 ± 0.04 1.01 ± 0.11 1.20 ± 0.13 1.50 ± 0.23 L, low; H, high. Morphology of cells as observed by AFM For each group, two coverslips containing six cells each were analyzed. There was not much difference selleck chemical in appearance between the beta cells and IPCs observed via an inverted microscope. Single-membrane proteins may reveal the details of cell surface structures which can be observed by AFM. Therefore, we analyzed the nanostructures of beta cells and IPCs through AFM in contact mode. IPCs had similar morphological features to beta cells which
appeared as polygons, ovals, or circles. IPCs were bigger than beta cells (P < 0.05; Table 3). Table 3 Characteristic of cells Normal human pancreatic β cells IPCs Length (μm) 55.46 ± 4.84 73.45 ± 2.08* Width (μm) 34.71 ± 1.57 40.78 ± 1.09* Height (nm) 505.39 ± 12.01 421.46 ± 19.25* *Compared with normal human pancreatic β cells, the difference was significant, P < 0.05. Figures 2 and 3 show a characteristic structure with many holes located in the cytoplasm in beta cells and IPCs. The porous structure was more obvious in the glucose-stimulated group. We measured the Ra in the analytical area. The statistical results selleck chemicals showed that the Ra of the beta cells was bigger than that of the IPCs, regardless of whether glucose stimulation was provided (Table 4). We also measured the nanoparticle size
of cells through AFM. The data indicate that the nanoparticle size of beta cells was bigger than that of IPCs, regardless of whether they were subject to glucose stimulation. Moreover, for normal human pancreatic beta cells, the Ra values were similar to each other when comparing 30-min stimulation with 1-h stimulation within the same glucose concentration (P < 0.05). However, Calpain in the IPCs group, Ra values were much lower when cells were stimulated for 30 min by low glucose concentrations, which was similar to the case observed in a non-glucose state (P > 0.05). Particle size trends resembled those of the Ra values. Meanwhile, due to the nanometer-scale resolution of AFM, we observed single-membrane proteins and revealed details of the cellular surface structure. Figures 2 (A3) and 3 (A3) showed that the membrane proteins of both beta cells and IPCs exhibited a homogeneous granular distribution.