Glycogen, its chemistry and morphological appearance in the electron microscope. II. The complex formed in the selective contrast staining of glycogen

Abstract

Synopsis Selective contrast staining of glycogen in untreated ultrathin sections of aldehyde-fixed tissues, double-fixed with 1% osmium tetroxide containing 0.05m K₃Fe(CN)₆ as reported previously (De Bruijn, 1973), may also be obtained by the addition of either K₄Fe(CN)₆, K₃Co(CN)₆, K₂Ru(CN)₆, or K₄Os(CN)₆. On the other hand, addition of K₃Cr(CN)₆, K₂Ni(CN)₄, K₃Mn(CN)₆, K₃Rh(CN)₆, K₂Pd(CN)₄, K₂Pt(CN)₄, or K₃Ir(CN)₆ produces no effect. Hexavalent osmium oxide compounds, such as K₂OsO₄ and OsO₃.2 pyridine, react selectively with a native (or acquired) ligand in the aldehyde-fixed glycogen, but do not render it more electron dense than its immediate surroundings. The presence of these osmium oxides is detected and they are rendered more electron dense by an accumulation reaction by the application on ultrathin sections of phosphotungstic acid (PTA) or a mixture of K₂OsO₄ and K₄Fe(CN)₆. As selective contrast staining of glycogen is also obtained by double fixation of the aldehyde-fixed tissue with 0.05m K₂OsO₄ solutions containing 0.05m K₄Fe(CN)₆ or 0.05m K₄Os(CN)₆, it is postulated that in such tissue, both the selective reaction of K₂OsO₄ with the ligand in the aldehyde-fixed glycogen, and the accumulation of heavy metal at the sites occupied by the K₂OsO₄, occur simultaneously. A proposal for the constitution of this heavy metal osmium/cyanide complex is formulated and arguments are presented that both compounds are formed in the selective contrast stained glycogen areas of such treated tissues. The relative contribution of the components to the final contrast and its complex character is demonstrated by staining ultrathin glutaraldehyde sections intermittently with 0.05m solutions of K₂OsO₄ and K₄Fe(CN)₆; it is shown that after at least three intermittent reactions with both K₂OsO₄ and K₄Fe(CN)₆, the glycogen areas in such sections became contrast stained.