posted on 2016-02-19, 00:00authored byYi Cui, Xiaolei Wang, Wen Ren, Jing Liu, Joseph Irudayaraj
A single-cell
optical clearing methodology is developed and demonstrated
in hyperspectral dark-field microscopy (HSDFM) and imaging of plasmonic
nanoprobes. Our strategy relies on a combination of delipidation and
refractive index (RI) matching with highly biocompatible and affordable
agents. Before applying the RI-matching solution, the delipidation
step by using a mild solvent effectively eliminates those high-density,
lipid-enriched granular structures which emit strong scattering. Upon
treatment, the background scattering from cellular organelles could
be repressed to a negligible level while the scattering signals from
plasmonic nanomaterials increase, leading to a significant improvement
of the signal-to-noise ratio (SNR). With this method established,
the versatility and applicability of HSDFM are greatly enhanced. In
our demonstration, quantitative mapping of the dimerization-activated
receptor kinase HER2 is achieved in a single cancer cell by a nonfluorescent
approach. High-resolution imaging for oncogenic mRNAs, namely ER,
PR, and HER2, is performed with single labeling. More importantly, in situ multiplex detection of mRNA and protein is made
possible by HSDFM since it overcomes the difficulties of complex staining
and signal imbalance suffered by the conventional optical imaging.
Last, we show that with optical clearing, characterization of intracellularly
grown gold particulates is accomplished at an unprecedented spatiotemporal
resolution. Taken together, the uniqueness of optical clearing and
HSDFM is expected to open ample avenues for single-cell studies and
biomedical engineering.