Nycodenz Gradient Research Articles

Isolation of subcellular agonist-sensitive calcium stores from the pancreatic acinar cell

The purpose of the present study was to develop a technique to identify, isolate and partially purify these membrane bound compartments for further characterizations of their Ca 2+ transport and storage mechanisms. We 45Ca 2+-loaded the agonist-sensitive Ca 2+ stores in rat pancreatic acini. The loading was accomplished by first depleting the stores with carbachol stimulation followed by the addition of 45Ca 2+ and atropine to the extracellular media. After homogenization of the 45Ca 2+-loaded acini, subcellular fractions were resolved on sucrose and Nycodenz gradients. 45Ca 2+ fluxes were minimized during these procedures by inclusion in the media of LaCI 3. Five subcellular fractions were identified that specifically accumulated 45Ca 2+ after carbachol stimulation. Electron microscopic observations of the fractions demonstrated that three of the fractions consisted of rough membrane vesicles; that one consisted of a mixture of rough and smooth membrane vesicles; and that one consisted of smooth membrane vesicles. All fractions were enriched in glucose-6-phosphatase. All 5 fractions demonstrated ATP dependent 45Ca 2+ uptake. By Western blot analysis, all fractions contained calnexin, p58, sarcoplasmic reticulum type Ca 2+-ATPase, and IP 3 receptor. These results demonstrated that the 45Ca 2+-loading technique can be used to isolate and characterize distinct compartments of the agonist-sensitive Ca 2+ store in the pancreatic acinar cell.

Enrichment of Penicillium chrysogenum microbodies by isopycnic centrifugation in nycodenz as visualized with immuno-electron microscopy

A procedure to enrich microbodies from Penicillium chrysogenum and a method to evaluate the purity and integrity of the microbodies are described. As a P. chrysogenum microbody marker acyltransferase (AT) was used. The P. chrysogenum hyphae were converted into protoplasts with Novozym 234. In Percoll-sucrose buffer the protoplasts were separated from mycelial debris after 10 000 × g centrifugation. Purified protoplasts were lysed, and the cell homogenate was centrifuged to form a 14 000 × g pellet. After 2 h, 45 000 × g isopycnic centrifugation of the 14 000 × g pellet on a continuous 20–60% nycodenz gradient, ten fractions were collected. The fractions were analyzed for AT containing microbodies by immuno-blotting and immuno-electron microscopy. The results showed that AT-microbodies are enriched in the 38% nycodenz fraction. The microbodies had a diameter of 400 to 500 nm, revealed an intact single membrane and confined AT. The estimated equilibrium density of the P. chrysogenum microbodies was 1.20 g ml −1 as deduced from the 38% (w/v) nycodenz concentration.

Isolation of human blood dendritic cells by discontinuous Nycodenz gradient centrifugation

The most potent antigen presenting cell present in peripheral blood, lymphoid and non-lymphoid tissue is the dendritic cell (DC). The study of human DC has been restricted by their low frequency in the tissues and the lack of a truly DC specific surface marker to assist in identification and isolation. Standard techniques for the isolation of blood DC generally employ a period of in vitro culture followed by flotation on dense albumin gradients, or more recently, discontinuous gradients of metrizamide. Dense albumin gradients are time consuming to prepare, giving low and variable yields of DC. Metrizamide is more convenient, although exposure of monocytes to metrizamide can decrease the expression of CD14 and alter the accessory cell properties of antigen presenting cells. Here we demonstrate that Nycodenz gradient centrifugation of 16 h cultured, T lymphocyte depleted, peripheral blood mononuclear cells (PBMC) reliably yields a population of low density cells that is highly enriched for DC. Most B and residual T lymphocytes are depleted and NK cell numbers are reduced two-fold from the interface cell population. The high density pellet fraction exhibits very little allostimulatory activity, indicating that few DC pass into the pellet. The low density fraction contains a significant population (20 ± 5 (SD)%, n = 8) of cells which fail to stain for the lineage markers CD3, CD11b, CD14, CD16, CD19 and CD57. Nycodenz exhibits low toxicity, does not alter the allostimulatory activity of antigen presenting cells, and is therefore ideal for the isolation of cultured DC.

Association of Granulocyte-Macrophage Colony-Stimulating Factor With the Crystalloid Granules of Human Eosinophils

We have previously shown that normal-density human peripheral blood eosinophils transcribe and translate mRNA for granulocyte-macrophage colony-stimulating factor (GM-CSF) and that the intracellular distribution was granular as assessed by light microscopy immunocytochemistry. The present study was conducted to confirm this apparent association between GM-CSF and the crystalloid granule using a subcellular fractionation method for human eosinophils and immunogold electron microscopy (EM). Highly purified (> 99%, by negative selection using anti-CD16 immunomagnetic microbeads) human peripheral blood eosinophils were obtained from four asthmatic subjects (not taking systemic medication), homogenized and density fractionated (5 x 10(7) cells/subject) on linear Nycodenz gradients. Twenty-four fractions were collected from each cell preparation and analyzed for marker enzyme activities as well as total protein. Dot blot analysis with specific monoclonal antibodies (MoAbs) was used to detect the eosinophil granule proteins major basic protein (MBP) and eosinophil cationic protein (ECP). An anti-CD9 MoAb was used as an eosinophil plasma membrane marker. Lactate dehydrogenase (LDH) was used as a cytosolic marker. Immunoreactivity for GM-CSF was detected by a specific enzyme-linked immunosorbent assay using a polyclonal antihuman GM-CSF antibody and confirmed by dot blot. GM-CSF coeluted with the cellular fractions containing granule markers (MBP, ECP, eosinophil peroxidase, hexosaminidase, and arylsulphatase), but not those containing cytoplasm (LDH+) or membrane (CD9+) markers. EM examination of pooled fractions associated with the peak of GM-CSF immunoreactivity confirmed that they contained crystalloid and small granules, but not plasma membrane. In addition, quantification, using immunogold labeling with an anti/GM-CSF MoAb, indicated preferential localization of gold particles over the eosinophil granule cores of intact cells. Thus, our results indicate that GM-CSF resides as a granule-associated, stored mediator in unstimulated human eosinophils.

A normal rabbit serum containing Golgi-specific autoantibodies identifies a novel 74-kDa trans-Golgi resident protein.

A normal rabbit serum has been identified which contains Golgi-specific autoantibodies. In indirect immunofluorescence experiments the serum was found to stain the juxtanuclear Golgi complex in a variety of cell lines, including human skin fibroblasts, rat osteoblasts, rat myoblasts (L6), baby hamster kidney epithelial cells, and human embryonic kidney cells (293). Thus, the antigen(s) recognized by this serum seems to be well conserved and universally expressed in various mammalian cell types. Immunoelectron microscopy revealed that the epitope resides in the luminal side of the Golgi membranes, and that the antigen is concentrated in the trans-face of the Golgi stacks. In agreement with these results, brefeldin A treatment did not release the antigen from the membranes, but caused its redistribution partly into the endoplasmic reticulum but also into the juxtanuclear area, similarly as with other proteins known to be present in the trans-Golgi cisternae or trans-Golgi network. Our immunoprecipitation studies in human skin fibroblasts demonstrated that the serum recognizes specifically only a single protein with a molecular size of 74 kDa. This protein also cosedimented with a known trans-Golgi-specific marker protein, galactosyltransferase, after fractionation of subcellular organelles by Nycodenz gradient centrifugation. The widespread and polarized expression of this 74-kDa trans-Golgi resident protein suggests that it is required for the late Golgi functions in different mammalian cell types.

Isolation and purification of large quantities of fresh human Kupffer cells, which are cytotoxic against colon carcinoma

A new rapid method is described for the isolation and purification of functional active human Kupffer cells without the need of in situ perfusion techniques. Liver wedge biopsies (3 to 5 g), obtained after laparotomy, were incubated with pronase under continuous pH registration. Human Kupffer cells were subsequently separated from other nonparenchymal cells by Nycodenz gradient centrifugation and purified by counterflow centrifugal elutriation. Kupffer cells, 1.7 +/- 0.4 x 10(6) per gram liver, were isolated with a purity of 95% +/- 3%. Cell-mediated cytotoxicity of Kupffer cells was assayed against a human colon carcinoma cell line (SW948). Kupffer cell cytotoxicity was 42% +/- 9% (mean +/- SD) at an effector-to-target cell ratio of 10 and significantly increased to 73 +/- 17% (P < .05) after activation of Kupffer cells with interferon-gamma. In conclusion, a reliable and relatively simple method is provided to isolate and purify fresh human Kupffer cells in large yields, which show spontaneous as well as gamma-interferon-induced cytotoxicity against a human colon carcinoma cell line.

Isolation and purification of large quantities of fresh human kupffer cells, which are cytotoxic against colon carcinoma

A new rapid method is described for the isolation and purification of functional active human Kupffer cells without the need of in situ perfusion techniques. Liver wedge biopsies (3 to 5 g), obtained after laparotomy, were incubated with pronase under continuous pH registration. Human Kupffer cells were subsequently separated from other nonparenchymal cells by Nycodenz gradient centrifugation and purified by counterfiow centrifugal elutriation. Kupffer cells, 1.7 ± 0.4 × 10 6 per gram liver, were isolated with a purity of 95% ± 3%. Cell-mediated cytotoxicity of Kupffer cells was assayed against a human colon carcinoma cell line (SW948). Kupffer cell cytotoxicity was 42% ± 9% (mean ± SD) at an effectorto-target cell ratio of 10 and significantly increased to 73 ± 17% ( P < .05) after activation of Kupffer cells with interferon-gamma. In conclusion, a reliable and relatively simple method is provided to isolate and purify fresh human Kupffer cells in large yields, which show spontaneous as well as gamma-interferon—induced cytotoxicity against a human colon carcinoma cell line.

Involvement of Early and Late Lysosomes in the Degradation of Mannosylated Ligands by Rat Liver Endothelial Cells

The intracellular transport and degradation of endocytosed mannosylated albumin (Man-BSA) was studied in cell cultures of rat liver endothelial cells by subcellular fractionation, fluorescence microscopy, and electron microscopy. The ligand used for subcellular fractionation experiments was labeled with 125 I-labeled tyramine cellobiose or 131I-labeled tyramine cellobiose. The labeled degradation products are trapped in the degradative compartments and may therefore serve as markers for these compartments. Cell fractionation was performed using Nycodenz gradients. The cell fractionation experiments demonstrated that the ligand sequentially occupied three compartments of increasing density. After 15 min it was mainly found in large cisternal organelles that banded in the gradient at about 1.09 g/ml. These organelles were rab5 positive and showed a peripher distribution in the fluorescence microscope. Degradation of ligand started after 30-60 min and this coincided with its transfer to a electron lucent vesicle with a density of 1.12 g/ml. After >1 h, degradation products started to accumulate in perinuclear, electron-dense lysosomes that banded in the gradient at 1.15 g/ml. The density distribution of lysosomal β-acetylglucosaminidase coincided with the densest organelle. The results obtained show that the degradation of ligand takes place sequentially in two types of lysosomes. The early lysosome is an electron-lucent vesicle of low density, whereas the terminal lysosome is an electron-dense organelle with higher density and a more perinuclear distribution. The main degradation of the ligand takes place in the early lysosome. The transfer of ligand and degradation products from the early to the late lysosome is slow. Texas red-labeled ovalbumin (OVA) coincided with lysosomes labeled with OVA-Bodipy 24 h in advance only after 4-6 h.

Characterizing mutagenesis in the hprt gene of rat alveolar epithelial cells.

A clonal selection assay was developed for mutation in the hypoxanthine-guanine phosphoribosyl transferase (hprt) gene of rat alveolar epithelial cells. Studies were conducted to establish methods for isolation and long-term culture of rat alveolar epithelial cells. When isolated by pronase digestion purified on a Nycodenz gradient and cultured in media containing 7.5% fetal bovine serum (FBS), pituitary extract, EGF, insulin, and IGF-1, rat alveolar epithelial cells could be maintained in culture for several weeks with cell doubling times of 2-4 days. The rat alveolar epithelial cell cultures were exposed in vitro to the mutagens ethylnitrosourea (ENU) and H2O2, and mutation in the hprt gene was selected for by culture in the presence of the toxic purine analog, 6-thioguanine (6TG). In vitro exposure to ENU or H2O2 produced a dose-dependent increase in hprt mutation frequency in the alveolar epithelial cells. To determine if the assay system could be used to evaluate mutagenesis in alveolar type II cells after in vivo mutagen or carcinogen exposure, cells were isolated from rats treated previously with ENU or alpha-quartz. A significant increase in hprt mutation frequency was detected in alveolar epithelial cells obtained from rats exposed to ENU or alpha-quartz; the latter observation is the first demonstration that crystalline silica exposure is mutagenic in vivo. In summary, these studies show that rat alveolar epithelial cells isolated by pronase digestion and Nycodenz separation techniques and cultured in a defined media can be used in a clonal selection assay for mutation in the hprt gene. This assay demonstrates that ENU and H2O2 in vitro and ENU and alpha-quartz in vivo are mutagenic for rat alveolar epithelial cells. This model should be useful for investigating the genotoxic effects of chemical and physical agents on an important lung cell target for neoplastic transformation.

Demonstration of Glutathione Peroxidase in Rat Liver Peroxisomes and Its Intraorganellar Distribution

Earlier, we reported that rat liver peroxisomes contain Cu-Zn superoxide dismutase ( J. Biol. Chem. 267, 6870), thereby suggesting a new antioxidant role for this organelle in free radical metabolism. In this study, we report for the first time that mammalian peroxisomes also contain glutathione peroxidase. Using highly purified rat liver peroxisomes isolated by Nycodenz gradient, we found that peroxisomes contain glutathione peroxidase which shows enzymatic activity with different substrates such as hydrogen peroxide, cumene hydroperoxide, and t-butyl hydroperoxide. This activity could be inhibited in vitro by mercaptosuccinate. Western blot analysis revealed that peroxisomes from control and ciprofibrate-treated livers show immunoreactive bands with antibodies raised against glutathione peroxidase. The intraperoxisomal distribution of glutathione peroxidase was investigated by using peroxisomal membrane and matrix proteins. The results revealed that glutathione peroxidase is a matrix enzyme. The presence of glutathione peroxidase in peroxisomes provides an alternate enzyme system responsible for the degradation of organic peroxides and the degradation of H 2O 2 under conditions in which catalase is inactivated (e.g., ischemia-reperfusion and endotoxemia). These findings suggest that glutathione peroxidase in peroxisomes may play a novel role in the cellular antioxidant responses to various oxidative stress conditions.

Rates of beta-oxidation of fatty acids of various chain lengths and degrees of unsaturation in highly purified peroxisomes isolated from rat liver

Highly purified peroxisomes were obtained from the liver of untreated rats, and rates of peroxisomal beta-oxidation were measured using fatty acyl-CoAs differing in chain length and degree of unsaturation. A 20–24-fold purification of peroxisomes, indicated by the specific activities of the marker enzymes catalase and urate oxidase, respectively, was obtained from crude liver homogenate using differential centrifugation techniques followed by a 30% Nycodenz gradient separation. The use of a 30% Nycodenz gradient in the final step of purification was extremely effective (e.g. 5.5-fold reduction) in removing lysosomal contamination. The rate of peroxisomal beta-oxidation with lauroyl-CoA (C12:0) as substrate was the highest of all fatty acyl-CoAs tested. Butyryl-CoA (C4:0) was not oxidized by purified peroxisomes. In general, as chain length of the fatty acyl-CoAs increased above 12 carbons, the rates of beta-oxidation decreased.

Double-stranded RNAs and proteins associated with the 34 nm virus particles of the cultivated mushroom Agaricus bisporus.

Agaricus bisporus fruit bodies affected by La France disease contain a specific set of nine dsRNA molecules. A method was developed to isolate intact virus particles containing these dsRNAs. Using precautions to limit proteolysis, virus particles 34 nm in diameter were banded in a Nycodenz gradient together with the nine disease-associated dsRNAs and three proteins of M(r) 120K, 115K and 90K. Two of these viral proteins were easily cleaved by proteases present in the fruit bodies, without affecting the morphological appearance, migration in Nycodenz density gradients or dsRNA content of the virus.

Structural and functional properties of plasma membranes from the filamentous fungus Penicillium chrysogenum.

Functional plasma membranes from the filamentous fungus Penicillium chrysogenum have been isolated with the objective of studying transport processes. The isolation procedure consists of three steps, namely homogenization of cells with a Braun MSK homogenizer, followed by Percoll gradient centrifugation and floatation of membranes in a three-step Nycodenz gradient. This method can be applied to strains which differ significantly in morphology and penicillin-production capacity. Plasma membranes were fused with liposomes containing the beef heart mitochondrial cytochrome-c oxidase. In the presence of reduced cytochrome c, the hybrid membranes maintained a high proton motive force that functions as a driving force for the uptake of the amino acids arginine and valine via distinct transport systems.

Isolation of rat and human Kupffer cells by a modified enzymatic assay

A new rapid method is described for the isolation and purification of rat and human Kupffer cells without the need of liver perfusion techniques. Rat livers or small human liver wedge biopsies obtained peroperatively were incubated with pronase under continuous pH registration. Kupffer cells were subsequently separated from other nonparenchymal cells by Nycodenz gradient centrifugation and purified by counterflow centrifugal elutriation. Identification of Kupffer cells was achieved on the basis of ultrastructural analyses and immunophenotyping.

Peroxisomal cholesterol synthesis in vivo: Accumulation of 4-methyl intermediate sterols after aminotriazole inhibition of cholesterol synthesis

To clarify the importance and pathway of peroxisomal cholesterol synthesis in vivo, we have examined whether or not 4,4-dimethyl-5α-cholest-8-en-3β-ol and 4α-methyl-5α-cholest-7-en-3β-olare accumulated in hepatic peroxisomes of aminotriα-zole-treated rats (we have shown that these intermediate steroids accumulate in rat liver when cholesterol synthesis is inhibited by aminotriazole: Hashimoto, F. and Hayashi, H. (1991) Biochim. Biophys. Acta 1086, 115). Differential centrifugation and Nycodenz gradient centrifugation showed that these intermediate steroids were localized in peroxisomes and microsomes. Cholestyramine (3-hydroxy-3-methylglutaryl-CoA reductase activator) pretreatment of aminotriazole-treated rats increased the contents of the intermediate steroids in both peroxisomes and microsomes. In peroxisomes, both 4α-methyl-5α-cholest-7-en-3β-ol and 4,4-dimethyl-5α-cholest-8-en-3β-ol were increased to about 3 times the control (aminotriazole-treated rat), and they were predominantly (about 70%) recovered in the membrane fraction after treatment with 0.05% deoxycholate or 100 mM Na 2CO 3. Gemfibrozil (peroxisomal proliferator) pretreatment enhanced the contents of 4α-methyl-5α-cholest-7-en-3β-ol and 4,4-di-methyl-5α-cholest-8-en- of peroxisomes to 4.5 times and 37 times the control, respectively. The effects of aminotriazole, cholestyramine and gemfibrozil on the intermediate contents were different between peroxisomes and microsomes. We suggest that peroxisomes in addition to microsomes participate in cholesterol synthesis in vivo, and the biosynthetic pathway includes 4α-methyl-5α-cholest-7-en-3β-ol and 4,4-dimethyl-5α-cholest-8-en-3β-ol.

Quality control in the secretory pathway: retention of a misfolded viral membrane glycoprotein involves cycling between the ER, intermediate compartment, and Golgi apparatus.

Proteins synthesized in the ER are generally transported to the Golgi complex and beyond only when they have reached a fully folded and assembled conformation. To analyze how the selective retention of misfolded proteins works, we monitored the long-term fate of a membrane glycoprotein with a temperature-dependent folding defect, the G protein of tsO45 vesicular stomatitis virus. We used indirect immunofluorescence, immunoelectron microscopy, and a novel Nycodenz gradient centrifugation procedure for separating the ER, the intermediate compartment, and the Golgi complex. We also employed the folding and recycling inhibitors dithiothreitol and AIF4-, and coimmunoprecipitation with calnexin antibodies. The results showed that the misfolded G protein is not retained in the ER alone; it can move to the intermediate compartment and to the cis-Golgi network but is then recycled back to the ER. In the ER it is associated with calnexin and BiP/GRP78. Of these two chaperones, only BiP/GRP78 seems to accompany it through the recycling circuit. Thus, the retention of this misfolded glycoprotein is the result of multiple mechanisms including calnexin binding in the ER and selective retrieval from the intermediate compartment and the cis-Golgi network.

ADP ribosylation factor and a 14-kD polypeptide are associated with heparan sulfate-carrying post-trans-Golgi network secretory vesicles in rat hepatocytes.

Constitutive secretory vesicles carrying heparan sulfate proteoglycan (HSPG) were identified in isolated rat hepatocytes by pulse-chase experiments with [35S]sulfate and purified by velocity-controlled sucrose gradient centrifugation followed by equilibrium density centrifugation in Nycodenz. Using this procedure, the vesicles were separated from plasma membranes, Golgi, trans-Golgi network (TGN), ER, endosomes, lysosomes, transcytotic vesicles, and mitochondria. The diameter of these vesicles was approximately 100-200 nm as determined by electron microscopy. A typical coat structure as described for intra-Golgi transport vesicles or clathrin-coated vesicles could not be seen, and the vesicles were not associated with the coat protein beta-COP. Furthermore, the vesicles appear to represent a low density compartment (1.05-1.06 g/ml). Other constitutively secreted proteins (rat serum albumin, apolipoprotein E, and fibrinogen) could not be detected in purified HSPG-carrying vesicles, but banded in the denser fractions of the Nycodenz gradient. Moreover, during pulse-chase labeling with [35S]methionine, labeled albumin did not appear in the post-TGN vesicle fraction carrying HSPGs. These findings indicate sorting of HSPGs and albumin into different types of constitutive secretory vesicles in hepatocytes. Two proteins were found to be tightly associated with the membranes of the HSPG carrying vesicles: a member of the ADP ribosylation factor family of small guanine nucleotide-binding proteins and an unknown 14-kD peripheral membrane protein (VAPP14). Concerning the secretory pathway, we conclude from these results that ADP ribosylation factor proteins are not only involved in vesicular transport from the ER via the Golgi to the TGN, but also in vesicular transport from the TGN to the plasma membrane.

Separation of lysosomes and autophagosomes by means of glycyl-phenylalanine-naphthylamide, a lysosome-disrupting cathepsin-C substrate.

In density-gradient analyses of autophagic vacuoles from isolated rat hepatocytes, autophagosomes could be recognized by the presence of an autophagically sequestered cytosolic enzyme, lactate dehydrogenase (LDH). Lysosomes were identified by marker enzymes such as acid phosphatase, or by degradation products from 125I-tyramine-cellobiose-asialoorosomucoid (125I-TC-AOM) loaded into the lysosomes by an intravenous injection in vivo 18 h prior to cell isolation. Autophagosomes and lysosomes showed similar, largely overlapping, density distributions both in hypertonic sucrose gradients and in isotonic Nycodenz gradients. As a step towards the purification of autophagosomes, we investigated the possibility of using lysosomal enzyme substrates to achieve selective destruction of lysosomes by swelling. Hepatocytes were first incubated for 2 h at 37 degrees C with vinblastine (50 microM) to obtain an accumulation of autophagosomes (to 3-5-times above the control level). The cells were then electrodisrupted and the disruptates incubated with a variety of substrates for lysosomal enzymes. Among these, glycyl-phenylalanine-2-naphthylamide (GPN), a cathepsin-C substrate, and methionine-O-methylester (MetOMe), an esterase substrate, turned out to induce extensive rupture of lysosomes, as measured by a strongly reduced sedimentability of acid phosphatase and a nearly complete loss of 125I-TC-AOM sedimentability in substrate-treated preparations from control or vinblastine-treated cells. The lysosomes of cells treated with leupeptin or asparagine were largely resistant to the action of GPN, probably as a result of interference with cathepsin-C activity or lysosomal function in general. Autophagosomes were partially destroyed by MetOMe, as indicated by a reduction in sedimentable LDH, but GPN had no effect on either autophagosomes or mitochondria. The ability of GPN to selectively destroy lysosomes without affecting the autophagosomes of vinblastine-treated cells should make GPN treatment a useful aid in the purification of rat liver autophagosomes.

Metabolism of glucose monophosphates by leucoplasts and amyloplasts from soybean suspension cultures

Leucoplasts and amyloplasts were isolated on Nycodenz gradients from lysates of protoplasts of suspension cultures of soybean ( Glycine max). The labelling of CO 2 and starch was determined after incubating intact and lysed preparations of plastids with 14C-labelled substrates. The substrates were said to have been metabolized by the plastids if the labelling of the product was greater in the intact than in the lysed preparations. Leucoplasts and amyloplasts metabolized both [ 14C]glucose 1-phosphate and [ 14C]glucose 6-phosphate to 14CO 2. In both types of plastid [ 14C]glucose 6-phosphate was the better precursor. Neither substrate was converted to starch by intact leucoplasts. Amyloplasts converted [ 14C]glucose 1-phosphate, but not [ 14C]glucose 6-phosphate, to starch in the presence of exogeneous ATP. It is suggested that in these plastids the reaction catalysed by phosphoglucomutase is not at equilibrium.

Sperm recovery techniques to maximize fertilizing capacity.

Because seminal plasma contains factors that inhibit the fertilizing ability of spermatozoa, it is essential that spermatozoa be separated from it quickly and efficiently. Although the success of a sperm preparation method is often assessed by the yield of motile spermatozoa, the choice of a method also depends on its technical complexity, the materials and apparatus required and time costs. Any exposure of spermatozoa during preparation to factors that may cause iatrogenic sperm dysfunction must obviously be avoided. Consequently, methods involving centrifugal washing prior to the selection of motile spermatozoa should be avoided. Direct swim-up from semen is the simplest way to obtain highly motile sperm populations and can be a very rapid procedure with normal semen samples. Two-layer discontinuous Percoll gradients give excellent yields when the lower layer contains 81% (v/v) Percoll. However, for severely asthenozoospermic cases the results can be disappointing and a Nycodenz gradient may be better, although the 'mini-Percoll' technique might be useful if special care is taken to protect the spermatozoa from damage induced by free radicals. In such cases the migration-sedimentation approach can also be successful. Abnormal samples, especially those with increased viscosity, may benefit from prior dilution with culture medium, or even chymotrypsin-induced liquefaction, before density gradient centrifugation. Finally, pharmacological stimulation of sperm motility may increase yields but, for in vitro fertilization (IVF), such spermatozoa must be used to inseminate oocytes as soon as possible after exposure to the stimulant, although after its removal.