Bj Fuller

Measurements of the membrane water permeability (Lp) and its temperature dependence (activation energy) in human fresh and failed-to-fertilize oocytes and mouse oocyte.

The volumetric response of oocytes during rapid alterations of the extracellular osmotic environment were recorded using video microscopy. From these observations, the kinetics of water loss for human and mouse oocytes were determined over the temperature range 37 to 10 degrees C, including 37, 30, 20, and 10 degrees C. The changes in diameter of oocytes were measured over a 5-min period and a computer model was used to derive values for membrane water permeability (Lp) and inactive volume (Vb) and to compare the experimental data to the predicted values. The results for the mouse oocyte Lp were comparable to values determined by other methods. However the human data, for both failed-to-fertilize and fresh oocytes, have a wide range of values with large standard deviations. The Lp values at the various temperatures were used to calculate the Arrhenius activation energy (Ea). An Ea value of 9.48 kcal/mol was found for the fresh mouse oocyte, whereas the activation energy for human oocytes was extremely low, 3.73 kcal/mol for fresh oocytes and 1.93 kcal/mol for failed-to-fertilize oocytes.

FUNCTIONAL TESTING OF HEPATOCYTES FOLLOWING THEIR RECOVERY FROM CRYOPRESERVATION

Various tests of function have been suggested for assessing hepatocytes recovered from cryopreservation. In this study we have investigated hepatocyte attachment during tissue culture and cellular density in order to assess function and compared them with two classical dye exposure tests. The ability of hepatocytes to exclude trypan blue dye (TB) and metabolize fluorescein diacetate (FDA) was demonstrated. In populations of freshly prepared hepatocytes 88.07% were able to exclude TB and 87.31% were able to metabolize FDA. However in populations of hepatocytes recovered after cryopreservation using 1.5 M dimethyl sulfoxide as cryoprotectant only 33.44% were able to exclude TB and 31.59% able to metabolize FDA. Both of these tests gave the same estimate of functional ability. Density gradient centrifugation of hepatocytes on Percoll 400 (Pharmacia, Uppsala, Sweden) separated two populations of hepatocytes; one (density ca.1.07 g/ml Percoll) in which most of the cells were able to exclude TB and the second (density ca. 1.02 g/ml Percoll) in which they were stained blue. The dense population was highly enriched in dye-excluding hepatocytes: freshly prepared hepatocytes, 92.4%, and cryopreserved hepatocytes, 88.66%. When samples of these cells (2 x 10(6) dye-excluding cells per dish) were tested for their ability to attach to tissue culture dishes only 17.28% of the cryopreserved hepatocytes were able to attach compared to 55.28% of the freshly prepared cells. We conclude that cryopreservation of hepatocytes produces a population of cells which are not metabolically identical to a population of freshly prepared hepatocytes even though they appear to have the same buoyant density and dye-excluding capabilities.(ABSTRACT TRUNCATED AT 250 WORDS)

An assessment of tumor cell viability after in vitro freezing

The identification of the minimum lethal temperature for tumor cells in vivo is difficult because of the secondary factors that are associated with the cryoinjury. This study attempts to identify this temperature by a combination of in vitro and in vivo techniques. Suspensions of Walker carcinoma cells were frozen at a rate of 1 degree C/min without cryoprotection, to either -10, -15, -20, -25, -30, -35 or -40 degrees C and held at that temperature for either 0, 10, 20, or 30 min. After spontaneous rewarming viability was assessed by a combination of vital dye studies and the growth of tumor cells inoculated into the liver and subcutaneous tissue of male, Sprague-Dawley rats. Trypan blue studies indicated that less than 1% of the cells frozen to -35 degrees C were considered viable, yet significant tumor take rates were noted, suggesting that for some cells the cryoinjury is reversible. As expected tumor take rates were reduced by lowering the temperature but were independent of the holding time. The volume doubling time and final tumor volume of the subcutaneous tumors was similar to that of controls, indicating that the growth potential of the cells which survive freezing is normal. The minimum lethal temperature was dependent upon the site of inoculation, subcutaneous tumors developing from cells frozen to -35 degrees C, whereas liver tumors did not develop from cells frozen beyond -25 degrees C, this may have important clinical implications.

Desferrioxamine reduces susceptibility to lipid peroxidation in rabbit kidneys subjected to ward ischaemia and reperfusion

Rabbit kidneys were clamped and subjected to warm ischaemia for 60 or 120 min then reperfused with blood for 60 min or for 24 hr. Treated rabbits received desferrioxamine at 15 or 50 mg/kg i.v. 15 min before reperfusion. Their kidneys were then removed and assayed for phospholipid Schiff base fluorescence (ex. 360 nm, em. 435 nm), diene and triene conjugates by UV spectrophotometry (240 nm and 268 nm respectively), for superoxide dismutase and for reduced and oxidised glutathione to provide an index of glutathione redox activity. All indices of lipid peroxidation were significantly elevated in untreated rabbits and glutathione redox activity was reduced. Treatment with desferrioxamine however effectively prevented these deviations and in many cases maintained them at the levels in fresh rabbit kidneys. These data provide further evidence that lipid peroxidation occurring during the reperfusion period is superimposed on the damage set up during warm ischaemia and may be preventable by administration of suitable therapeutic agents.

OSMOTIC RESPONSE OF OOCYTES USING A MICROSCOPE DIFFUSION CHAMBER - A PRELIMINARY-STUDY COMPARING MURINE AND HUMAN OVA

The hydraulic conductivity (Lp) of the plasma membrane determines how cells respond to the stresses of dehydration encountered during cryopreservation. We have used a microscope diffusion chamber which allows for direct real-time observation of the dynamic osmotic response of individual cells in microvolume suspension to compare the Lp of murine and human unfertilized ova. In this system, the response of an individual cell to the induced osmotic imbalance is documented via a series of photomicrographs or videotape; from these data the Lp can be computed. Donated human preovulatory oocytes were compared with macroscopically normal human ova, 43 hr after insemination, which had failed to fertilize (Ff) and with murine ova collected 13 hr post human chorionic gonadotropin injection. The permeability coefficients were 0.65 +/- 0.43, 0.84 +/- 0.39, and 0.36 +/- 0.07 micron3/micron2/atm/min. The results suggest that it may be possible to use Ff ova for experiments to design suitable cryopreservation procedures.

STUDIES ON CRYOPROTECTANT EQUILIBRATION IN THE INTACT RAT-LIVER USING NUCLEAR MAGNETIC-RESONANCE SPECTROSCOPY - A NONINVASIVE METHOD TO ASSESS DISTRIBUTION OF DIMETHYL-SULFOXIDE IN TISSUES

Nuclear magnetic resonance (NMR) spectroscopy was used in the study of rat livers following flushing with a clinically used preservation solution containing either 12 or 30% (v/v) Me2SO. The extent of equilibration of Me2SO in the tissue after 10-15 min of perfusion with Me2SO and again after subsequent washout with Me2SO-free medium was assessed by 1H NMR spectroscopy. 31P NMR spectroscopy was used to follow the changes in ATP, ADP, inorganic phosphate, and tissue pH. The data show that 1H NMR spectroscopy can be used as a sensitive and rapid method of assessing the equilibration and concentration of compounds such as Me2SO, since these compounds are likely to be present at concentrations greatly in excess of other constituents of the medium and will therefore give rise to strong, easily detected signals. At the same time, 31P NMR spectroscopy can be used to monitor the metabolic status of the tissue reflected in the levels of ATP, ADP, and inorganic phosphate, as well as being a noninvasive monitor of intracellular pH. The possibility of determining the tissue pH in the presence of solutes such as Me2SO is discussed.

BIOCHEMICAL AND ULTRASTRUCTURAL EXAMINATION OF CRYOPRESERVED HEPATOCYTES IN RAT

Abstract We investigated the ultrastructure and metabolic capabilities of isolated rat hepatocytes after cryopreservation using 1.5 M Me 2 SO as protectant and a slow cool/fast thaw regime. Ultrastructural assessment of the cryopreserved population revealed only approximately 10% of cells with normal morphology. Conjugation of bilirubin by the cryopreserved cells was reduced to 20% of that seen in unfrozen hepatocytes and there was a net loss of glycogen measured in cryopreserved cells incubated in conditions which stimulated glycogen synthesis by unfrozen cells. These results are in contrast to other reports in which cryopreserved hepatocytes have been successfully used for transplantation to reverse hepatic insufficiency.

Increased susceptibility to lipid peroxidation in rabbit kidneys: A consequence of warm ischaemia and subsequent reperfusion

Rabbit kidneys were clamped and rendered warm ischaemic (WI) in situ for 60 and 120 min. They were then either removed immediately after the ischaemic insult or after reperfusion with blood for 60 min or 24 hr. Homogenates were assayed for phospholipid-Schiff base fluorescence (Ex. 360 nm, Em. 435 nm) and for diene conjugate formation by u.v. spectrophotometry (240 nm) as indices of lipid peroxidation. No alteration in tissue levels of Schiff base was evident immediately after WI but when the homogenates were incubated at 37 degrees C for 90 min, the rate of peroxidation was significantly elevated compared to controls (P less than 0.02 after WI of 60 min and P less than 0.001 after 120 min of WI). These values were still further elevated after reperfusion with blood for 60 min and 24 hr (P less than 0.001). Diene conjugates were raised after WI alone and further still after reperfusion. Thus an early index of lipid peroxidation (diene conjugation) suggested peroxidative damage during the warm ischaemic period itself, whilst detection of Schiff bases was only possible after in vitro incubation of the tissue. Both indices of oxygen-derived free radical damage were increased after reperfusion in vivo with blood and may relate to the degree of tissue damage sustained during ischaemia and reflow.

Liver metabolism in cold hypoxia: a comparison of energy metabolism and glycolysis in cold-sensitive and cold-resistant mammals

The effects of cold hypoxia were examined during a time-course at 2 °C on levels of glycolytic metabolites: glycogen, glucose, glucose-1-phosphate, glucose-6-phosphate, fructose-6-phosphate, fructose-1,6-bisphosphate, phosphoenolpyruvate, pyruvate, lactate and energetics (ATP, ADP, AMP) of livers from rats and columbian ground squirrels. Responses of adenylate pools reflected the energy imbalance created during cold hypoxia in both rat and ground squirrel liver within minutes of organ isolation. In rat, ATP levels and energy charge values for freshly isolated livers were 2.54 μmol·g-1 and 0.70, respectively. Within 5 min of cold hypoxia, ATP levels had dropped well below control values and by 8 h storage, ATP, AMP, and energy charge values were 0.21 μmol·g-1, 2.01 μmol·g-1, and 0.17, respectively. In columbian ground squirrels the patterns of rapid ATP depletion and AMP accumulation were similar to those found in rat. In rat liver, enzymatic regulatory control of glycolysis appeared to be extremely sensitive to the decline in cellular energy levels. After 8 h cold hypoxia levels of fructose-6-phosphate decreased and fructose-1,6-bisphosphate increased, thus reflecting an activation of glycolysis at the regulatory step catalysed by phospho-fructokinase fructose-1,6-bisphosphatase. Despite an initial increase in flux through glycolysis over the first 2 min (lactate levels increased 3.7 μmol·g-1), further flux through the pathway was not permitted even though glycolysis was activated at the phosphofructokinase/fructose-1,6-bisphosphatase locus at 8 h, since supplies of phosphorylated substrate glucose-1-phosphate or glucose-6-phosphate remained low throughout the duration of the 24-h period. Conversely, livers of Columbian ground squirrels exhibited no activation or inactivation of two key glycolytic regulatory loci, phosphofructokinase/fructose-1,6-bisphosphatase and pyruvate kinase/phosphoenolpyruvate carboxykinase and pyruvate carboxylase. Although previous studies have shown similar allosteric sensitivities to adenylates to rat liver phospho-fructokinase, there was no evidence of an activation of the pathway as a result of decreasing high energy adenylate, ATP or increasing AMP levels. The lack of any apparent regulatory control of glycosis during cold hypoxia may be related to hibernator-specific metabolic adaptations that are key to the survival of hypothermia during natural bouts of hibernation.

Deterioration of cold-stored tissue specimens due to lipid peroxidation: Modulation by antioxidants at high subzero temperatures

It is often necessary to store tissue specimens in subzero conditions for assay in batches. During storage at -20 degrees C we found that sufficient lipid peroxidation occurred in rat liver homogenates in phosphate-buffered saline to affect subsequent malondialdehyde assays. This peroxidation did not occur at -196 degrees C. The ratio of oxidized to reduced glutathione increased with storage at -20 degrees C and the level of conjugated dienes increased progressively. The addition of a specific free radical scavenger, superoxide dismutase (200 u/ml) reduced the level of malondialdehyde (P < 0.001) during -20 degrees C storage for periods of 28 days but failed to prevent the changes in the glutathione ratio or dienes. Storage in a less specific free radical scavenger, 0.25 molar sucrose/EDTA, instead of phosphate-buffered saline totally prevented the malondialdehyde production over similar storage periods.