2 mM of the drug (Figure 5D-F). We detected important decrease in the microfilament density in the peripheral cytoplasm and an accumulation of fragmented F-actin near the nucleus in HT-144 cells treated with the higher drug concentration. Figure 5 Effects of cinnamic acid on microfilaments organization of HT-144 cells. Images obtained by Laser Scanning Confocal Microscopy of phalloidin FITC-conjugated staining (green) preparations: A,B,C) HT-144 control cells; D,E,F) HT-144 cells treated Panobinostat order with 3.2 mM cinnamic acid. DNA was counterstained with propidium iodide (red). Note the stress fiber formation in control cells (above) and the decreasing of peripheral actin filaments
and perinuclear accumulation of F-actin in treated groups
(below). Figure 6 Cytoskeleton organization in NGM control cells. F-actin (green) was stained with phalloidin FITC-conjugated. Microtubules (blue) were labeled with anti-α and β tubulin and secondary antibody CY-5-conjugated. DNA was counterstained with propidium iodide (red). Note the stress fiber formation (actin filaments). The cells showed a microtubule network that was very finely departed from the centrosome region near the nucleus. We can also observe a mitotic cell (right column). The images were obtained by Laser Scanning Confocal Microscopy. We also observed microtubule disruption in HT-144 cells after treatment with cinnamic acid. Cells treated with 0.4 mM cinnamic acid maintained a normal distribution of microtubules, whereas treatment Kinase Inhibitor Library cost with 3.2 mM induced very diffuse labeling in the cytoplasm with accumulation around the cell
nuclei (Figure 7). Figure 7 Effects of cinnamic acid on microtubules organization of HT-144 cells. Images obtained by Laser Scanning Confocal Microscopy of anti-tubulin immunofluorescence (blue) preparations: A) interphasic HT-144 control cells; B) mitotic HT-144 control cell; C,D) HT-144 cells treated with 3.2 mM cinnamic acid. DNA was counterstained with propidium iodide (red). We can observe 3-oxoacyl-(acyl-carrier-protein) reductase cells with a microtubule network that was very finely departed from the centrosome region near the nucleus (up left) and a normal mitosis (up right). On the other hand, we found cells with microtubule disorganization and tubulin bunches near the nuclei. Treatment with 3.2 mM cinnamic acid induced robust morphological changes in some NGM cells. In addition to changes that occurred in less than 2% of the cases, a cytoskeletal analysis revealed the presence of coiled actin filaments and microtubules (Figure 8). Moreover, the nuclei exhibited an alteration in their morphology, which were observed in NGM cells that were treated with 3.2 mM cinnamic acid; however, a low frequency was observed when compared to HT-144 cells. There was no cytoskeleton reorganization in the NGM cells treated with 0.4 mM of the drug. Figure 8 Cytoskeleton organization in NGM cells treated with 3.2 mM cinnamic acid. The cells were treated with the drug for 48 hours.