Label-free photoacoustic microscopy of cytochromes

Photoacoustic microscopy (PAM) has achieved submicron lateral resolution in showing subcellular structures; however, relatively few endogenous subcellular contrasts have so far been imaged. Given that the hemeprotein, mostly cytochromes in general cells, is optically absorbing around the Soret peak...

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Bibliographic Details
Published in:Journal of biomedical optics 2013-02, Vol.18 (2), p.020504-020504
Main Authors: Zhang, Chi, Zhang, Yu Shrike, Yao, Da-Kang, Xia, Younan, Wang, Lihong V
Format: Article
Language:English
Subjects:
Animals
Cytochromes
Cytochromes - chemistry
Cytochromes - metabolism
Cytoplasm
Cytoplasm - metabolism
Fibroblasts
Fibroblasts - metabolism
Histology
JBO Letters
Mice
Microscopy - instrumentation
Microscopy - methods
Microscopy, Fluorescence
Nuclei
Optical Devices
Optical Phenomena
Photoacoustic microscopy
Photoacoustic Techniques - instrumentation
Photoacoustic Techniques - methods
Skin - anatomy & histology
Skin - metabolism
Spectra
Wavelengths
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Summary:Photoacoustic microscopy (PAM) has achieved submicron lateral resolution in showing subcellular structures; however, relatively few endogenous subcellular contrasts have so far been imaged. Given that the hemeprotein, mostly cytochromes in general cells, is optically absorbing around the Soret peak (∼420  nm), we implemented label-free PAM of cytochromes in cytoplasm for the first time. By measuring the photoacoustic spectra of the oxidized and reduced states of fibroblast lysate and fitting the difference spectrum with three types of cytochromes, we found that the three cytochromes account for more than half the optical absorption in the cell lysate at 420 nm wavelength. Fixed fibroblasts on slides were imaged by PAM at 422 and 250 nm wavelengths to reveal cytoplasms and nuclei, respectively, as confirmed by standard staining histology. PAM was also applied to label-free histology of mouse ear sections by showing cytoplasms and nuclei of various cells. PAM of cytochromes in cytoplasm is expected to be a high-throughput, label-free technique for studying live cell functions, which cannot be accomplished by conventional histology.
ISSN:1083-3668
1560-2281
DOI:10.1117/1.JBO.18.2.020504