In Situ Cryofixation of Kidney for Electron Probe X-Ray Microanalysis

Abstract

Cell physiological and pathophysiological studies often require information about the elemental composition of intracellular organelles in situ. Electron probe X-ray microanalysis (EPXMA) is one of the few methods by which intracellular elemental content and distribution can be measured simultaneously. While several cryofixation techniques for EPXMA have been utilized on isolated cells, few have been applied successfully to whole tissue in vivo or in situ. A recently developed, commercial, portable, metal-mirror device was used for preserving kidney in situ to determine the intracellular element distribution in proximal tubule cells. Kidneys of male rats were exposed, cryofixed, and analyzed for organelle elemental contents by EPXMA imaging. In addition, some portions of the frozen tissue were prepared for conventional transmission electron microscopy. Proximal tubules were preserved with intact brush borders and open lumens. The quality of preservation of tubule cell organelles varied inversely as a function of depth from the point of first contact with the mirror surface; the best preservation was within 15 μm, while the poorest preservation was deeper than 30 μm. Analysis of EPXMA images from the best-preserved regions revealed that proximal tubule cell cytoplasmic K/Na was ∼6, cytoplasmic Cl was low relative to other subcellular compartments, and mitochondrial Ca levels were 1.8 nmole/mg dry weight; these observations indicate that the cells were physiologically viable at the time of cryofixation. The advantages of in situ cryofixation by this metal-mirror method include acquisition of organelle elemental content data in vivo, ease of use, reproducibility, portability, applicability to other tissues, and suitability for pathophysiological studies.