Trafficking of mature miRNA-122 into the nucleus of live liver cells.

The binding of superquencher molecular beacon (SQMB) probes to human single-stranded cellular miRNA-122 targets was detected in various single live cells with femtosecond laser microscopy. For delivery of the SQMB-probes, 3D-nanoprocessing of single cells with sub-15 femtosecond 85 MHz near-infrared laser pulses was applied. Transient nanopores were formed by focusing the laser beam for some milliseconds on the membrane of a single cell in order to import of SQMB-probes into the cells. In single cells of the human liver cell lines Huh-7D12 and IHH that expressed miRNA-122, we measured target binding in the cytoplasm by two-photon fluorescence imaging. We found increased fluorescence with time in a nonlinear manner up to the point where steady state saturation was reached. We also studied the intracellular distribution of target SQMB and provide for the first time strong experimental evidence that cytoplasmic miRNA travels into the cell nucleus. To interpret nonlinear binding, a number of individual miRNA-122 positive cells (Huh-7D12 and IHH) and negative control cells, human VA13 fibroblasts and Caco-2 cells were analyzed. Our experimental data are consistent with the cytoplasmic assembly of nuclear miRNA and provide further mechanistic insight in the regulatory function of miRNAs in cellular physiology. An open issue in the regulation of gene expression by miRNA is whether miRNA can activate gene expression in addition to the well-known inhibitory effect. A first step for such a regulatory role could be the travelling of miRNA-RISC into the nucleus.

Multiphoton tissue imaging using high-NA microendoscopes and flexible scan heads for clinical studies and small animal research.

Multiphoton tomographs based on femtosecond laser and GRIN lens technology in combination with flexible scan heads have been developed for clinical high-resolution tissue imaging and small animal research. The novel tissue tomograph possesses a 0.5 m long flexible mirror arm in combination with piezodriven focusing optics and multiple single photon counting PMT detectors. The photodetectors are in particular useful to obtain information on the extracellular matrix by the simultaneous measurement of the two-photon autofluorescence of elastin as well as the second harmonic generation of collagen. A major application is the in vivo determination of the skin age index. The rigid two-photon microendoscope with a high numerical aperture of 0.8 is based on a combination of silver-doped 1.0 mm rod-shaped GRIN lens with a hemispheric front optics. It was used in combination with the multiphoton tomograph for clinical studies as well as for inner organ and eye imaging of small animals.