The morphology and configurational states of isolated heavy beef heart mitochondria by the freeze fracture technique

Are there knobs on energy transducing membranes in situ?

It is argued here that the projections which are frequently seen on the matrix side of the mitochondrial inner membranes and which are characterized as globules or spherical projections or as knob-on-stalks are an artifact of the preparation and/or of the staining of the submitochondrial particles or mitochondria. In sectioned or freeze-fractured preparations of intact cells or mitochondria, the externalized spheres are rarely seen on the membranes. They are, however, almost always seen on fragmented preparations, especially if they have been negatively stained with phosphotungstate.

Freeze-fracture analysis of isolated liver mitochondria in different metabolic states

Isolated liver mitochondria were crosslinked with glutaraldehyde during different respiratory states and then analyzed either by freeze-fracturing, or in thin sections prepared according to a low denaturation embedding technique. In freeze-fractured material, large intracristal spaces were found in 86% of the mitochondria freshly isolated in a sucrose medium. These results were in good agreement with mitochondria analyzed in thin sections, in which case 88% of the mitochondria contained intracristal spaces. In freeze-fractured mitochondria, only 24% of the mitochondria crosslinked after 3 min in respiratory state 4 contained intracristal spaces, while 36% of the mitochondria contained intracristal spaces during state 3. These values compared favorably with those obtained in embedded material in which case 21 and 41% of the mitochondria contained intracristal spaces during states 3 and 4, respectively. The agreement between the observations made with the two methods demonstrated that the disappearance of intracristal spaces is independent of the embedding technique, and is not a special effect caused by dehydration in ethylene glycol.

A study of rapid mitochondrial structural changes in vitro by spray-freeze-etching

The spray-freeze-etching technique has been used to study energy-linked mitochondrial structural changes in rat liver mitochondria incubated in vitro. The technique involves spraying the suspension of mitochondria into liquid propane at -190 degrees C, and does not require the use of cryoprotectants or chemical fixatives. The results confirmed that freshly isolated mitochondria have a condensed matrix and that this expands at the expense of the outer compartment to give the orthodox configuration when the mitochondria are incubated in a K+ medium in the presence of substrate and phosphate. Addition of adenosine diphosphate (ADP) caused a rapid shrinkage of the matrix compartment, and the time-course and extent of this shrinkage has been measured quantitatively by coupling a rapid sampling device to the spray-freezing apparatus. These data show that for orthodox mitochondria the onset of phosphorylation is accompanied by a reduction of 30% in the matrix volume in 20's, and there is no evidence that the decrease in matrical volume affects the phosphorylation efficiency. These results suggest that natural ionophores in the mitochondrial inner membrane make it permeable enough to permit a rapid readjustment of matrix volume after the addition of ADP, and that the associated ion movement does not cause uncoupling of oxidative phosphorylation.

Tridimensional ultrastructure of freeze-fractured rat kidney cortex (studied in stereo)

The tridimensional ultrastructure of the inner cortex of rat kidney has been studied by observing freeze-fractured tissue in stereo. The complex structure of the tubules, fenestrated capillaries and glomeruli is more readily observed through the irregular fracturing of the tissue that occurs in this technique. The ultrastructure of the brush border and interdigitating membranes of the proximal tubules, the structure of the fenestrated endothelial membranes of the capillaries and the ribbon-like appearance of the filtration space between the foot processes of the glomeruli were especially well depicted in stereo images of freeze-fractured renal tissue.