A Chemical Mechanism for Tissue Staining by Osmium Tetroxide-Ferrocyanide

The presence of Fe(CN),(4 provides sequential, one-electron reduction pathways for OsO.,. An equilibrium is established containing OsO�, Fe(CN),14, Fe(CN)�i�, 0s02(OH)44, and labile cyano-bridged Os-Fe species containing Os in nominal oxidation states of VIII, VII, and VI. These osmium complexes are chelated by appropriately placed donor atoms in the macromolecular tissue matrix, and chelation facilitates the reduction of osmium in situ to lower oxidation states (predominantly IV) that are relatively nonlabile. The greater reactivity and concentration of the Os(VII and VI) intermediates in this system leads to more Os deposition than 0504 alone; the chelation is responsible for the immobilization of Os and the observed staining pattern in electron micrographs. Chemical data from model systems and electron micrographs of tissue are presented in support of this mechanism.