Effect of high sucrose concentrations on mitochondria: Analysis of mitochondrial populations by density-gradient centrifugation after fixation with glutaraldehyde

It has been shown previously that intact rat liver mitochondria can be separated into two populations (designated B2 and B3) with mean buoyant densities of 1·184 and 1·216 respectively, by isopycnic sucrose density gradient centrifugation. A comparison has been made of some properties of these mitochondrial fractions from density gradients with non-fractionated mitochondria. Use was made of density gradient centrifugation for analysis of preparations fixed with appropriate concentrations of glutaraldehyde. The permeability of the membranes of non-fractionated mitochondria to sucrose was increased by exposure to hypoosmotic sucrose solutions. The B3 mitochondria differed from the non-fractionated mitochondria in their response to changes in osmotic pressure of the suspending medium while the B2 mitochondria showed essentially identical behaviour with the controls. However, under conditions of energized swelling the B2 mitochondria were markedly different to the controls. This difference, which is attributed to reduced permeability of the mitochondrial membranes to metabolites brought about by exposure to the high concentrations of sucrose encountered in the density gradient, was reversed by incubation in hypo-osmotic sucrose solutions in the presence of oxidizable substrate and permeant ions.Died December, 1969.     

Studies on the Osmotic Disruption and Resealing of Synaptosomes

Abstract: The release of lactate dehydrogenase and K⁺ when synaptosomes are exposed to resuspension in media of various osmolarity has been investigated in order to measure their disruption. Even when resuspended in distilled water a significant percentage (10–20%) of lactate dehydrogenase and K⁺ remains unreleased. The particles containing these substances sediment to the same density as synaptosomes. Synaptosomes retaining their internal organlles after hypoosmotic treatment can be seen in electron micrographs. Resealing of disrupted synaptosomes was measured by the inclusion of [¹⁴C]sucrose. The resealing is spontaneous, essentially complete (80–90%) within 20 min and not noticeably affected by temperature, pH, or the addition of fusogen. The synaptosome preparation after hypoosmotic disruption will therefore contain some undisrupted synaptosomes with some or all of their complement of cytoplasmic constituents, as well as resealed synaptosomes. The retention of the ability of the hypoosmotically treated preparation to convert [¹⁴C]choline to [¹⁴C]acetylcholine is demonstrated as an example of the disproportionate effect these undisrupted particles have on its properties.     

Zinc is released by cultured astrocytes as a gliotransmitter under hypoosmotic stress-loaded conditions and regulates microglial activity

Aim

Astrocytes contribute to the maintenance of brain homeostasis via the release of gliotransmitters such as ATP and glutamate. Here we examined whether zinc was released from astrocytes under stress-loaded conditions, and was involved in the regulation of microglial activity as a gliotransmitter.

Main methods

Hypoosmotic stress was loaded to astrocytes using balanced salt solution prepared to 214–314 mOsmol/L, and then intra- and extra-cellular zinc levels were assessed using Newport Green DCF diacetate (NG) and ICP-MS, respectively. Microglial activation by the astrocytic supernatant was assessed by their morphological changes and poly(ADP-ribose) (PAR) polymer accumulation.

Key findings

Exposure of astrocytes to hypoosmotic buffer, increased the extracellular ATP level in osmolarity-dependent manners, indicating a load of hypoosmotic stress. In hypoosmotic stress-loaded astrocytes, there were apparent increases in the intra- and extra-cellular zinc levels. Incubation of microglia in the astrocytic conditioned medium transformed them into the activated “amoeboid” form and induced PAR formation. Administration of an extracellular zinc chelator, CaEDTA, to the astrocytic conditioned medium almost completely prevented the microglial activation. Treatment of astrocytes with an intracellular zinc chelator, TPEN, suppressed the hypoosmotic stress-increased intracellular, but not the extracellular, zinc level, and the increase in the intracellular zinc level was blocked partially by a nitric oxide synthase inhibitor, but not by CaEDTA, indicating that the mechanisms underlying the increases in the intra- and extra-cellular zinc levels might be different.

Significance

These findings suggest that under hypoosmotic stress-loaded conditions, zinc is released from astrocytes and then plays a primary role in microglial activation as a gliotransmitter.     

Changes in buoyant density and cell size of Escherichia coli in response to osmotic shocks.

The buoyant density of Escherichia coli was shown to be related to the osmolarity of the growth medium. This was true whether the osmolarity was adjusted with either NaCl or sucrose. When cells were grown at one osmolarity and shocked to another osmolarity, their buoyant density adjusted to nearly suit the new osmolarity. When cells were subjected to hyperosmotic shock, they became denser than expected. When cells were subjected to hypoosmotic shock they occasionally undershot the new projected density, but the undershoot was not as dramatic as the overshoot seen with hyperosmotic shocks. Shrinkage and swelling of the cells in response to osmotic shocks could account for the change in their buoyant density. The changes in cell size after osmotic shocks were measured by two independent methods. The first method measured cell size with a Coulter Counter, and the second method measured cell size by stereologic analysis of Nomarski light micrographs. Both methods gave qualitatively similar results and showed the cells to be flexible. The maximum swelling recorded was 23% of the original cell volume, while the maximum shrinkage observed was 33%.     

Characterization of C-Type Particles Produced by a Tissue Culture-Adapted Murine Myeloma

C-type particles produced by a tissue culture-adapted BALB/c myeloma were characterized. It was determined that although the particles were morphologically and antigenically similar to murine leukemia and sarcoma virus, the size of their RNA was different, they lacked RNA-dependent DNA polymerase, they were unstable in NET buffer, sucrose and citrate but were stable in glycerol and Earle balanced salt solution, and they behaved differently from oncornaviruses when treated with ether and detergent.     

Pseudo-streaming potentials in Necturus gallbladder epithelium. I. Paracellular origin of the transepithelial voltage changes

Apparent streaming potentials were elicited across Necturus gallbladder epithelium by addition or removal of sucrose from the apical bathing solution. In NaCl Ringer's solution, the transepithelial voltage (Vms) change (reference, basolateral solution) was positive with sucrose addition and negative with sucrose removal. Bilateral Cl- removal (cyclamate replacement) had no effect on the polarity or magnitude of the Vms change elicited by addition of 100 mM sucrose. In contrast, bilateral Na+ removal (tetramethylammonium [TMA+] replacement) inverted the Vms change (from 2.7 +/- 0.3 to -3.2 +/- 0.2 mV). Replacement of Na+ and Cl- with TMA+ and cyclamate, respectively, abolished the change in Vms. Measurements of cell membrane voltages and relative resistances during osmotic challenges indicate that changes in cell membrane parameters do not explain the transepithelial voltage changes. The initial changes in Vms were slower than expected from concomitant estimates of the time course of sucrose concentration (and hence osmolality) at the membrane surface. Paired recordings of the time courses of paracellular bi-ionic potentials (partial substitution of apical Na+ with tetrabutylammonium [TBA+]) revealed much faster time courses than those produced by sucrose addition, although the diffusion coefficients of sucrose and TBACl are similar. Hyperosmotic and hypoosmotic challenges yielded initial Vms changes at the same rate; thereafter, the voltage increased with hypoosmotic solution and decreased with hyperosmotic solution. These late voltage changes appear to result from changes in width of the lateral intercellular spaces. The early time courses of the Vms changes produced by osmotic challenge are inconsistent with the expectations for water-ion flux coupling in the junctions. We propose that they are pseudo-streaming potentials, i.e., junctional diffusion potentials caused by salt concentration changes in the lateral intercellular spaces secondary to osmotic water flow.     

Spherical composite particles of rice starch and microcrystalline cellulose: A new coprocessed excipient for direct compression

Composite particles of rice starch (RS) and microcrystalline cellulose were fabricated by spray-drying technique to be used as a directly compressible excipient. Two size fractions of microcry stalline cellulose, sieved (MCS) and jet milled (MCJ), having volumetric mean diameter (D₅₀) of 13.61 and 40.51 μm, respectively, were used to form composite particles with RS in various mixing ratios. The composite particles produced were evaluated for their powder and compression properties. Although an increase in the microcrystalline cellulose proportion imparted greater compressibility of the composite particles, the shape of the particles was typically less spherical with rougher surface resulting in a decrease in the degree of flowability. Compressibility of composite particles made from different size fractions of microcrystalline cellulose was not different; however, using MCJ, which had a particle size range close to the size of RS (D₅₀=13.57 μm), provided more spherical particles than using MCS. Spherical composite particles between RS and MCJ in the ratio of 7∶3 (RS-MCJ-73) were then evaluated for powder properties and compressibility in comparison with some marketed directly compressible diluents. Compressibility of RS-MCJ-73 was greater than commercial spray-dried RS (Eratab), coprocessed lactose and microcrystalline cellulose (Cellactose), and agglomerated lactose (Tablettose), but, as expected, lower than microcrystalline cellulose (Vivapur 101). Flowability index of RS-MCJ-73 appeared to be slightly lower than Eratab but higher than Vivapur 101, Cellactose, and Tablettose. Tablets of RS-MCJ-73 exhibited low friability and good self-disintegrating property. It was concluded that these developed composite particles could be introduced as a new coprocessed direct compression excipient.     

Liposome fractionation and size analysis by asymmetrical flow field-flow fractionation/multi-angle light scattering: influence of ionic strength and osmotic pressure of the carrier liquid

Asymmetrical flow field-flow fractionation (AsFlFFF)/multi-angle light scattering (MALS) was employed for studying filter-extruded liposomes in carrier solutions with different ionic strength and osmolarity. By dilution of preformed liposome suspensions with different media, only the ionic strength in the external free aqueous phase was changed. Under such conditions the liposomes were found to elute at almost identical elution times, which is in contrast to earlier studies. This may be explained by two opposing effects: (a) modulation of inter-particulate and particle-wall-repulsion effects and (b) osmotic stress-induced changes in vesicle size. The latter effect was demonstrated when analysing liposomes upon dilution in media of constant ionic strength, but varying osmotic pressure (with or without 150 mmol L^?1 sucrose supplement). The osmotic stress-induced change in liposome size was found to be size dependent. Larger liposomes appeared to both shrink and swell when exposed to hyper- or hypoosmotic media, respectively. Smaller liposomes appeared to shrink but not to swell. The potential causes of this effect are discussed.     

A novel protocol for the subcellular fractionation of C3A hepatoma cells using sucrose density gradient centrifugation

In this paper, we describe a method to obtain a relatively pure mitochondrial and microsomal fractions by subcellular fractionation of human hepatoma cell line C3A using sucrose as the hypoosmotic medium. The cells were subjected to osmotic stress with sucrose and homogenized. Osmolarity was then restored to the cells and the organelles were separated by density gradient centrifugation. The protein profiles were examined by SDS-PAGE and the purity was analysed by marker enzymes and Western blotting. Our results indicate a good separation of mitochondrial and microsomal fractions from human hepatoma C3A cells.     

Evidence that SNF1-related kinase and hexokinase are involved in separate sugar-signalling pathways modulating post-translational redox activation of ADP-glucose pyrophosphorylase in potato tubers

We recently discovered that post-translational redox modulation of ADP-glucose pyrophosphorylase (AGPase) is a powerful new mechanism to adjust the rate of starch synthesis to the availability of sucrose in growing potato tubers. A strong correlation was observed between the endogenous levels of sucrose and the redox-activation state of AGPase. To identify candidate components linking AGPase redox modulation to sugar supply, we used potato tuber discs as a model system. When the discs were cut from growing wild-type potato tubers and incubated for 2 h in the absence of sugars, redox activation of AGPase decreased because of a decrease in internal sugar levels. The decrease in AGPase redox activation could be prevented when glucose or sucrose was supplied to the discs. Both sucrose uptake and redox activation of AGPase were increased when EDTA was used to prepare the tuber discs. However, EDTA treatment of discs had no effect on glucose uptake. Feeding of different glucose analogues revealed that the phosphorylation of hexoses by hexokinase is an essential component in the glucose-dependent redox activation of AGPase. In contrast to this, feeding of the non-metabolisable sucrose analogue, palatinose, leads to a similar activation as with sucrose, indicating that metabolism of sucrose is not necessary in the sucrose-dependent AGPase activation. The influence of sucrose and glucose on redox activation of AGPase was also investigated in discs cut from tubers of antisense plants with reduced SNF1-related protein kinase activity (SnRK1). Feeding of sucrose to tuber discs prevented AGPase redox inactivation in the wild type but not in SnRK1 antisense lines. However, feeding of glucose leads to a similar activation of AGPase in the wild type and in SnRK1 transformants. AGPase redox activation was also increased in transgenic tubers with ectopic overexpression of invertase, containing high levels of glucose and low sucrose levels. Expression of a bacterial glucokinase in the invertase-expressing background led to a decrease in AGPase activation state and tuber starch content. These results show that both sucrose and glucose lead to post-translational redox activation of AGPase, and that they do this by two different pathways involving SnRK1 and an endogenous hexokinase, respectively.     

Hypoosmotic and glutamate‐induced swelling of bipolar cells in the rat retina: comparison with swelling of Müller glial cells

Regulation of cellular volume is of great importance to avoid changes in neuronal excitability resulting from a decrease in the extracellular space volume. We compared the volume regulation of retinal glial (Müller) and neuronal (bipolar) cells under hypoosmotic and glutamate‐stimulated conditions. Freshly isolated slices of the rat retina were superfused with a hypoosmotic solution (60% osmolarity; 4 min) or with a glutamate (1 mM)‐containing isoosmotic solution (15 min), and the size changes of Müller and bipolar cell somata were recorded. Bipolar cell somata, but not Müller cell somata, swelled under hypoosmotic conditions and in the presence of glutamate. The hypoosmotic swelling of bipolar cell somata might be mediated by sodium flux into the cells, because it was not observed under extracellular sodium‐free conditions, and was induced by activation of metabotropic glutamate receptors and sodium‐dependent glutamate transporters. The glutamate‐induced swelling of bipolar cell somata was mediated by sodium chloride flux into the cells induced by activation of NMDA‐ and non‐NMDA glutamate receptors, glutamate transporters, and voltage‐gated sodium channels. The glutamate‐induced swelling of bipolar cell somata was abrogated by adenosine and γ‐aminobutyric acid, but not by vascular endothelial growth factor and ATP. The data may suggest that Müller cells, in contrast to bipolar cells, possess endogenous mechanisms which tightly regulate the cellular volume in response to hypoosmolarity and prolonged glutamate exposure. Inhibitory retinal transmission may regulate the volume of bipolar cells, likely by inhibition of the excitatory action of glutamate.     

Adenovirus type 2 assembly analyzed by reversible cross-linking of labile intermediates.

Dimethyl-4,4'-dithiobisbutyrimidate dihydrochloride was used as a cleavable cross-linking reagent to maintain the structure of labile intermediates in adenovirus type 2 assembly. Analysis on sucrose gradients of nuclear adenovirus particles revealed two size classes, with sedimentation rates of 750 and 600S. After reversible fixation with diimido ester, the different classes were further separated on CsCl gradients and characterized with regard to their buoyant density, DNA content, and polypeptide composition. The 750S particles banded at 1.345 g/cm3 in CsCl, contained a DNA with a sedimentation coefficient of 34S in alkaline sucrose gradients, and had a polypeptide composition similar to that of young virions. The 600S population consisted of two types of particles with buoyant densities of 1.315 and 1.37 g/cm3. The 1.315-g/cm3 particles contained a DNA fragment of 7--11S and lacked the core proteins V and VII. In their place were found precursors P VI and P VIII and two nonvirion proteins with molecular weights of 50,000 (50K) and 39,000 (39K). 34S DNA was present in the 1.37-g/cm3 particles, which also lacked core proteins V and VII, as well as the 50K and 39K. Pulse-chase labeling kinetics suggested that the 1.315-g/cm3 particles were anterior to the 1.37-g/cm3 particles, themselves preceding the 1.345-g/cm3 young virions, and that the release of both 50K and 39K, possible scaffolding proteins, was required for entry of viral DNA.     

Effect of osmotic stress on thylakoid fine structure inPorphyra umbilicalis

Summary The fine structural organization of thylakoid membranes in intact cells ofPorphyra umbilicalis, an intertidal red alga, was studied using the freeze-fracture method with special emphasis on changes induced by hypo- and hyperosmotic stresses. In osmotically adapted plants the density of intramembraneous particles on the PF-face increases considerably in the osmotic range from 5-fold diluted to 6-fold concentrated artifical seawater medium ASP₁₂, while that on the EF-face remains constant. The size of the particles on both fracture faces decreases strongly from extreme hypoosmotic to extreme hyperosmotic stress. These findings are discussed with relation to their biological significance.The author is member of the Arbeitsgemeinschaft für Elektronenmikroskopie an der Tierärztlichen Hochschule Hannover.     

Heat resistance of Salmonella senftenberg 775W at various sucrose concentrations in distilled water

Summary The heat resistance of Salmonella senftenberg 775 W, NCTC 9959, has been determined in distilled water pH 6.5 at sucrose concentrations up to 2.20 mol l^–1 at temperatures between 63 and 70°C. Surviving cells were counted on minimal and enriched agar media to investigate the influence of the various nutrients on the recovery of heat injured cells. At various sucrose concentrations and temperatures multiphasic exponential parts of inactivation curves were found. Systematic differences between the recovery media depended on sucrose concentration, temperature and phase of exponential inactivation. At 60°C and sucrose concentrations between 0.52 and 1.82 mol l^–1 the relationship between inactivation rate and sucrose concentration could be described by the equation ln k₅=ln k₀-_T [sucrose]. The activation energy of thermal inactivation reactions, substantially decreased when sucrose (1.82 mol l^–1) was added to the heating menstruum. The activation energies in different recovery agars were of the same order, which suggests that the critical sites in heat inactivation are not key enzymes of the synthetic pathways of amino-acids and nucleotides. The differences between activation energies, calculated for cells of the various exponential phases of inactivation in both non-sucrose and 1.82 mol sucrose per 1 heating media, were also small, further suggesting that these critical sites are the same in cells from the various phases. Compared to published data on the heat resistance of S. senftenberg 775 W, we found a decreased resistance in a non-sucrose medium but an equal or increased resistance, depending on the phase of exponential inactivation, at a sucrose concentration of 1.82 mol l^–1.     

Involvement of MPK4 in osmotic stress response pathways in cell suspensions and plantlets of Arabidopsis thaliana: activation by hypoosmolarity and negative role in hyperosmolarity tolerance

Three of the protein kinases activated by hypoosmotic stress in Arabidopsis thaliana cell suspensions were previously characterized [FEBS, 2002, 527, 43-50] as mitogen-activated protein (MAP) kinases and two of them corresponded to Arabidopsis mitogen-activated protein kinase 6 (MPK6) (44 kDa) and MPK3 (39 kDa). The third MAP kinase was identified here to MPK4, using a corresponding specific antibody. Like MPK6 and MPK3, MPK4 activity is clearly inhibited by apigenin and MPK4 activation by hypoosmolarity needs upstream phosphorylation events. Activation of the 3 MAP kinases, MPK3, 4 and 6, was confirmed in plantlets submitted to hypoosmotic stress. The action of a biotic signal, flagellin, was also demonstrated to induce the activations of the 3 MAP kinases. Using the mutant displaying MPK4 gene inactivation, the independence of the MPK3 and MPK6 activations towards the presence of MPK4 was demonstrated, both in hypoosmotic and flagellin signalling pathways. Although MPK4 was not activated by hyperosmolarity in cell suspensions nor in seedlings, a possible negative regulation of hyperosmolarity resistance by MPK4 is suggested, based both on phenotype and downstream gene expression studies.     

The Effect of High Sugar Concentrations on the Heat Resistance of Vegetative Micro-organisms

S ummary . The effect of sucrose or mixtures of sucrose and glucose, in the heating menstruum, on the heat resistance of 4 organisms, Salmonella senftenberg, Salm. typhimurium, Saccharomyces rouxii and Torulopsis globosa , was investigated and the results have been expressed in terms of D and z values against water activity ( a_w ). The effect on the cell of sucrose solutions, both with and without heat, was also investigated. Measurements of cell volume obtained from phase contrast micrographs and of O.D. showed that as the sucrose concentration increased, the volume of the cell decreased. The increased heat resistance exhibited by cells in sucrose solutions of low a_w is thought to be the result of a dehydration of the cell together with a reduction in the pore size of the cell wall.     

Hypoosmotic cell swelling as a novel mechanism for modulation of cloned HCN2 channels

This work demonstrates cell swelling as a new regulatory mechanism for the cloned hyperpolarization-activated, cyclic nucleotide-gated channel 2 (HCN2). HCN2 channels were coexpressed with aquaporin1 in Xenopus laevis oocytes and currents were monitored using a two-electrode voltage-clamp. HCN2 channels were activated by hyperpolarization to -100 mV and the currents were measured before and during hypoosmotic cell swelling. Cell swelling increased HCN2 currents by 30% without changing the kinetics of the currents. Injection of 50 nl intracellular solution resulted in a current increase of 20%, indicating that an increase in cell volume also under isoosmotic conditions may lead to activation of HCN2. In the absence of aquaporin1 only negligible changes in oocyte cell volume occur during exposure to hypoosmotic media and no significant change in HCN2 channel activity was observed during perfusion with hypoosmotic media. This indicates that cell swelling and not a change in ionic strength of the media, caused the observed swelling-induced increase in current. The increase in HCN2 current induced by cell swelling could be abolished by cytochalasin D treatment, indicating that an intact F-actin cytoskeleton is a prerequisite for the swelling-induced current.     

Subjecting horse spermatozoa to hypoosmotic incubation: effects of ouabain

Although hypoosmotic tests are widely used to assess spermatozoal quality in different species, they have not been used extensively in the stallion. Moreover, the role of the Na (+)K (+), ouabain sensitive-ATP-ase in the response of equine sperm to hypoosmotic shock is not well understood. This study tests two hypotheses: 1) that equine spermatozoa will respond to a hypoosmotic medium by swelling of the tail, and 2) that addition of ouabain will increase the percentage of swollen sperm tails. Ejaculates from 3 stallions were collected with an artificial vagina and diluted in Kenney's medium (Time = 0). Aliquots were randomly selected to be incubated in an isoosmotic (297 mOsm) or different hypoosmotic media that were composed of citrate or of citrate w?th fructose. The osmolarity of the hypoosmotic media with citrate ranged from 18 to 96 mOsm, and the medium composed of citrate plus fructose (HOS medium) was of 153 mOsm. Moreover, aliquots of spermatozoa pretreated with ouabain were added to the isoosmotic medium and also to the HOS and the 96 mOsm citrate medium (ORT medium). Incubation of equine sperm in the hypoosmotic media resulted in a time- and osmolarity-dependent swelling of the sperm tail, reaching maximum values after incubation for 20-30 min in both the HOS and ORT media. Ouabain induced a dose-dependent effect on swollen tails and viability in fresh semen and also affected some parameters related to motility. Ouabain also increased the swelling response in a hypoosmotic medium although viability decreased. The percentage of swollen tails after incubation in ORT and HOS media snowed significant correlations to viability, altered acrosomes and total motility, but not to other parameters of horse semen analysis. Our results suggest that hypoosmotic tests could be used to improve standard horse semen analysis. Additionally, Na (+)K (+)-ATP-ase activity could be related to the response against hypoosmotic shock of horse spermatozoa.     

Involvement of integrins in osmosensing and signaling toward autophagic proteolysis in rat liver

Inhibition of autophagic proteolysis by hypoosmotic or amino acid-induced hepatocyte swelling requires osmosignaling toward p38MAPK; however, the upstream osmosensing and signaling events are unknown. These were studied in the intact perfused rat liver with a preserved in situ environment of hepatocytes. It was found that hypoosmotic hepatocyte swelling led to an activation of Src (but not FAK), Erks, and p38MAPK, which was prevented by the integrin inhibitory hexapeptide GRGDSP, but not its inactive analogue GRGESP. Src inhibition by PP-2 prevented hypoosmotic MAP kinase activation, indicating that the integrin/Src system is located upstream in the osmosignaling toward p38MAPK and Erks. Inhibition of the integrin/Src system by the RGD motif-containing peptide or PP-2 also prevented the inhibition of proteolysis and the decrease in autophagic vacuole volume, which is otherwise observed in response to hypoosmotic or glutamine/glycine-induced hepatocyte swelling. These inhibitors, however, did not affect swelling-independent proteolysis inhibition by phenylalanine. In line with a role of p38MAPK in triggering the volume regulatory decrease (RVD), PP-2 and the RGD peptide blunted RVD in response to hypoosmotic cell swelling. The data identify integrins and Src as upstream events in the osmosignaling toward MAP kinases, proteolysis, and RVD. They further point to a role of integrins as osmo- and mechanosensors in the intact liver, which may provide a link between cell volume and cell function.     

Monospermy and polyspermy after partial zona dissection of reinseminated human oocytes

Partial zona dissection (PZD), a zona drilling method that uses mechanical force to open the zona pcllucida while the oocyte is shrunken in a sucrose solution, was applied to 121 unfertilized 1-day-old mature human oocytes prior to reinsemination. The 115 surviving oocytes were divided into three groups in which the duration between sucrose addition and reinsemination was varied: I) Less than 20 minutes, II) 21 to 45 minutes, and III) longer than 45 minutes. There was a trend toward a reduced fertilization and polyspermy rate as the time between sucrose exposure and insemination in sucrose-free medium increased. Moreover, there was a statistically significant reduction in the number of oocytes penetrated by more than four sperm in group III (0/41) versus group I (7/34), and in group III, parthcnogcnctic development was observed. The incidence of polyspermy was also increased in oocytes manipulated more than 25 hours after retrieval compared with those manipulated 21-24 hours after recovery, supporting the idea that aged oocytes have a reduced ability to block polyspermy. Oocyte contraction in sucrose occurred in three different patterns: spherical, pear-shaped, and crenated. Both the fertilization and polyspermy rates were significantly higher in the crenated group. These results indicate that changes resembling activation occur following sucrose exposure and that sucrose activation can be used to reduce the risk of polyspermic fertilization in zona drilling procedures. In addition, the pattern of shrinkage in sucrose can be used as an indicator of oocyte receptivity to sperm penetration.