Imaging of subcellular structures by scanning ion microscopy and mass spectrometry. Advantage of cryofixation and freeze substitution procedure over chemical preparation

With the IMS 4F, a scanning ion microscope and mass spectrometer (SIMS), it is possible to map chemical elements with a lateral resolution of about 250 nm over a field of view of 50 × 50 μm 2 . Such conditions should enable the imaging of subcellular structures with constitutive ionic species such as CN − , P − , S − . The study was performed on heart and renal tissues prepared either by chemical procedure or cryofixation‐freeze substitution (CF‐FS) prior to embedding. Heart tissue was chosen because cardiocytes display a simple structural organization whereas the structural organization of kidney tubular cells is more complex. Whatever the preparation procedure, nuclei were easily identified due to their high P − content. The CN − , P − , and S − ion images obtained on heart and renal tissues prepared by chemical procedure showed weak contrasts inside the cytoplasm so that it was difficult to recognize the organelles. After CF‐FS, enhanced contrasted images allow organelle (mitochondria, myofibrils, lysosomes, vacuoles, basal lamina, etc) characterization. This work demonstrated that CF‐FS is a more suitable preparation procedure than chemical method to reveal organelle structures by their chemical composition. The improvements in the imaging of these structures is an essential step to establish the correlation between the localization of a trace element (or a molecule tagged with isotopes or particular atoms) and its subcellular targets.