Figure 2 Fluorescence photomicrographs from P30 and P15 mouse liver, showing difference in patterns of labeling between large (0.2 μm) and small (0.02) microspheres. A: Alexa
488 labelled F4/80 cells from P30 mouse. B: Same section as in ‘A’ but viewed using rhodamine optics to reveal large (0.2 μm) fluorescently labelled microspheres. C: Merged image of ‘A’ and ‘B’, showing co-localization of F4/80 and large microspheres. D: Higher magnification photomicrograph showing Alexa 488 labelled F4/80 cells from P15 mouse liver. see more E: Same section as in ‘D’, viewed using rhodamine optics to reveal large (0.2 μm) fluorescently labelled microspheres. F: Merged image of ‘D’ and ‘E’, and also with ultraviolet imaging of DAPI labelled cell nuclei, showing cells co-labelled with F4/80 and microspheres. Note that most microspheres appear associated with F4/80 positive cells. G: Alexa 488 labelled F4/80 positive cells from P30 mouse. H: Same section as in ‘G’, viewed using rhodamine optics to reveal small (0.02 μm) fluorescently labelled microspheres. I: Merged image of ‘G’ and ‘H’, showing a few cells co-labelled with F4/80 and microspheres. Note that most microspheres appear not to be associated
with F4/80 positive cells. White arrows indicate double labelled cells; x indicates capillary with red microspheres but absence of F4/80 immunoreactivity. J: Higher magnification photomicrograph showing Alexa 488 labelled CD-34 cells from P15 mouse liver. K: Same section as in ‘J’, viewed using rhodamine optics to reveal small (0.02
μm) fluorescently labelled microspheres. L: Merged image of ‘J’ and ‘K’, and also with ultraviolet OICR-9429 purchase imaging of DAPI labelled cell nuclei, showing cells co-labelled with CD-34 and microspheres. Note that most microspheres appear associated with CD-34 positive cells; examples are indicated by white arrows. Calibration bar in ‘C’ = 100 μm for images A, B, C, G, H, and I. Calibration bar in ‘F’ = 50 μm for images D, E, F, J, K, and L. In contrast, when the relatively smaller (0.02 μm) microspheres were injected intravascularly, they were found virtually continuously in the lining of the sinusoidal capillaries of the liver (Figure 2G,H,I). Some of these smaller microspheres were found within F4/80 labelled cells, but as shown in higher magnification of tissues from P15 mice, Cell Penetrating Peptide most of the smaller microspheres were found co-localized with the CD-34 antibody, specific for endothelial cells (Figure 2J,K,L). Temporal patterns of microsphere labeling Mice aged P20 were injected intravascularly with the larger (0.2 μm) microspheres and then allowed survival times ranging from 15 Tipifarnib mw minutes to 6 weeks. Very few microspheres were detected in liver at the survival time of 15 minutes. Within 30 minutes, microspheres could be detected within F4/80 positive cells, but some microspheres also were found along the sinusoidal capillary walls without being clearly associated with F4/80 cells (Figure 3A).