The association of mannitol oxidase with a distinct organelle in the digestive gland of the terrestrial slugArion ater

Summary Post nuclear supernatants prepared from homogenates of the digestive gland of the slugArion ater were analysed by rate-dependent and density-dependent density gradient zonal centrifugation. Mannitol oxidase carrying structures exhibited distinct centrifugal behaviour sedimenting more slowly than mitochondria, lysosomes and peroxisomes but faster than microsomes, and banding sharply at a density of 1.15 g/ml in sucrose gradients. By combining rate and isopycnic centrifugations mannitol oxidase carrying structures were largely separated from contaminating organelles. Electron microscopic examination of such mannitol oxidase-enriched fractions revealed the predominant presence of distinct structures of tubular form. SDS PAGE analysis indicated that the major polypeptide present had a mass of 68 kDa corresponding to the major subunit previously reported for partially purified mannitol oxidase ofHelix aspersa.Abbreviations ER endoplasmic reticulum - SDS PAGE sodium dodecylsulphate polyacrylamide gel electrophoresis     

Stimulation of mitochondrial pyruvate metabolism and citrulline synthesis by dexamethasone. Effect of isolation and incubation media.

Hepatic mitochondria isolated in 0.3 M-sucrose or 0.3 M-mannitol from rats treated for 3h with dexamethasone displayed stimulated rates of pyruvate carboxylation and decarboxylation and citrulline synthesis when compared with organelles from control animals. Mitochondria isolated in mannitol also displayed elevated rates of pyruvate carboxylation and decarboxylation when compared with those isolated in sucrose, and this stimulation was shown to be independent of the lengthy isolation procedure. Citrulline synthesis proceeded at similar rates in mitochondria isolated in either sugar. The concentration of exchangeable adenine nucleotides was identical in mitochondria isolated in sucrose or mannitol, suggesting that those prepared in the former sugar are not more permeable to metabolites than those prepared in the latter. The matrix volume of mitochondria isolated in mannitol was greater than that of mitochondria isolated in sucrose, and the effect of mannitol on pyruvate metabolism was mimicked by swelling the organelles in hypo-osmotic sucrose. Measurements of the extra-matrix volume by using [14C]sucrose or [14C]mannitol suggest that mannitol can permeate mitochondria to a greater extent than can sucrose. The possibility that mannitol elicits its effect by entering the mitochondrial matrix and so initiating swelling is discussed.     

Intramitochondrial proteolytic activity of rat liver]

Highly purified mitochondria and lysosomes are isolated from rat liver homogenate. pH optimum of proteolytic activity with respect to proteins of own structures and to mitochondrial structural protein is investigated. The purification of mitochondria from lysosomes is found to be accompanied by the change of proteolytic activity pH optimum from 5.0 to 6.0 in coarse and purified mitochondria respectively. Comparative study of structural protein hydrolysis products with enzyme preparations from purified mitochondria and lysosomes has revealed differences in the spectrum of the reaction products. The data obtained suggest a presence of a proteolytic enzyme in rat liver mitochondria.     

Spreading of porcine kidney epithelial cells under normal conditions and under the effect of inhibitors of energy metabolism. II. Behavior of cellular organelles

In the present work the behavior of mitochondria and lysosomes during cell spreading has been investigated in normal conditions and under ATP-synthesis inhibitors: sodium aside and N,N-dicyclohexylcarbodiimide (DCCD). In the control culture, microtubules run along the stable edge and perpendicular to the leading edge in most of spreading cells. As a whole, microtubules form a dense network in these cells. However, the radial cells contain bundles of microtubules, radiating from the perinuclear area or form circular arrays around the nucleus. The microtubule network is more dense under inhibitory treatment, than in control conditions. In the control culture the spherical cells display numerous small mitochondria (staining with Rhodamine 123). In the process of cell spreading some elongated mitochondria appear, most of them being localized in the perinuclear area. The mitochondria of cells with radial microtubule organization are directed towards the cell periphery, while in cells with circular bundles of microtubules the mitochondria are localized chaotically. Under DCCD treatment the mitochondria retain the staining for 2-3 h. In the spreading cells, round mitochondria may be distributed all over the cytoplasm. In the presence of sodium aside the mitochondria are not stained. However, by means of phase contrast microscopy some disoriented thread-shaped structures are observed, obviously corresponding to mitochondria. In the control conditions, lysosomes (stained with Acridine orange) in spreading cells are dispersed chaotically, all over the cytoplasm, or are localized in the perinuclear area. In the presence of sodium aside lysosomes are observed only in the perinuclear area. Under DCCD treatment lysosomes do not accumulate the dye. Thus, the cytoskeleton modification and changes in the properties of membrane organelles, induced by ATP-synthesis inhibitors, do not prevent attachment, spreading or cell polarization.     

Zinc pyrithione induces cellular stress signaling and apoptosis in Hep-2 cervical tumor cells: the role of mitochondria and lysosomes

Increased intracellular free zinc concentrations are associated with activation of several stress signaling pathways, specific organelle injury and final cell death. In the present work we examined the involvement of mitochondria and lysosomes and their crosstalk in free zinc-induced cell demise. We report that treatment of cervical tumor Hep-2 cells with zinc pyrithione leads to an early appearance of cytoplasmic zinc-specific foci with corresponding accumulation of zinc first in mitochondria and later in lysosomes. Concomitant with these changes, upregulation of expression of metallothionein II A gene as well as the increased abundance of its protein occurs. Moreover, zinc activates p53 and its dependent genes including Puma and Bax and they contribute to an observed loss of mitochondrial membrane potential and activation of apoptosis. Conversely, lysosomal membrane permeabilization and its promoted cleavage of Bid occurs in a delayed manner in treated cells and their effect on decrease of mitochondrial membrane potential is limited. The use of specific inhibitors as well as siRNA technology suggest a crucial role of MT-IIA in trafficking of free zinc into mitochondria or lysosomes and regulation of apoptotic or necrotic cell demise.     

Behavior of rat liver catalase during electrophoresis in a pH gradient.

Investigations were conducted on the distribution of rat liver catalase subsequent to electrofocusing in a pH gradient. Differences were observed depending on the enzyme being extracted from the total mitochondrial fraction, from the supernatant of the homogenate or from purified peroxisomes. Catalase solubilized from the total mitochondrial fraction exhibits an apparent isoelectric point lower than that of catalase derived from the supernatant. Catalase released from purified peroxisomes shows a behavior similar to that of the supernatant catalase. It has been concluded that, in a total mitochondrial fraction, a factor is present that alters the electric charge of the catalase molecule during or after the extraction of the enzyme. This factor is probably associated with lysosomes existing together with peroxisomes and mitochondria in a total mitochondrial fraction. As a matter of fact, the addition of an extract of purified lysosomes to purified peroxisomes or to supernatant will cause a shift towards a more acid pH of catalase distribution subsequent to electrofocalization.     

Subcellular localization of ferritin and iron taken up by rat hepatocytes.

The subcellular localization of ferritin and its iron taken up by rat hepatocytes was investigated by sucrose-density-gradient ultracentrifugation of cell homogenates. After incubation of hepatocytes with 125I-labelled [59Fe]ferritin, cells incorporate most of the labels into structures equilibrating at densities where acid phosphatase and cytochrome c oxidase are found, suggesting association of ferritin and its iron with lysosomes or mitochondria. Specific solubilization of lysosomes by digitonin treatment indicates that, after 8 h incubation, most of the 125I is recovered in lysosomes, whereas 59Fe is found in mitochondria as well as in lysosomes. As evidenced by gel chromatography of supernatant fractions, 59Fe accumulates with time in cytosolic ferritin. To account for these results a model is proposed in which ferritin, after being endocytosed by hepatocytes, is degraded in lysosomes, and its iron is released and re-incorporated into cytosolic ferritin and, to a lesser extent, into mitochondria.     

Novel application of aniline blue. Fluorescent staining of glycogen and some protein structures

The present study shows that aniline blue can be used as a fluorescent stain for glycogen. The dye is also helpful in tracing pathological and autolytic changes in lysosomes, mitochondria, erythrocytes and nuclei, and it can also be used for demonstrating bacteria in tissue sections and smears. The techniques used are simple, rapid and inexpensive. Spectrophotometric studies on aniline blue solutions have shown that aniline blue fluorescence was enhanced by the addition of certain proteins, or of glycogen to the dye solution. In case of albumen which has the maximum effect, enhancement is dependent upon the albumen-dye ratio. The mechanism of staining is mainly due to self quenching, but there is also an evidence of the presence of hydrophobic reaction.     

Novel application of aniline blue

Summary The present study shows that aniline blue can be used as a fluorescent stain for glycogen. The dye is also helpful in tracing pathological and autolytic changes in lysosomes, mitochondria, erythrocytes and nuclei, and it can also be used for demonstrating bacteria in tissue sections and smears. The techniques used are simple, rapid and inexpensive.Spectrophotometric studies on aniline blue solutions have shown that aniline blue fluorescence was enhanced by the addition of certain proteins, or of glycogen to the dye solution. In case of albumen which has the maximum effect, enhancement is dependent upon the albumen-dye ratio.The mechanism of staining is mainly due to self quenching, but there is also an evidence of the presence of hydrophobic reaction.     

The existence of a lysosomal redox chain and the role of ubiquinone

Several studies concerning the distribution of ubiquinone (UQ) in the cell report a preferential accumulation of this biogenic quinone in mitochondria, plasma membranes, Golgi vesicles, and lysosomes. Except for mitochondria, no recent comprehensive experimental evidence exists on the particular function of UQ in these subcellular organelles. The aim of a recent study was to elucidate whether UQ is an active part of an electron-transfer system in lysosomes. In the present work, a lysosomal fraction was prepared from a light mitochondrial fraction of rat liver by isopycnic centrifugation. The purity of our preparation was verified by estimation of the respective marker enzymes. Analysis of lysosomes for putative redox carriers and redox processes in lysosomes was carried out by optical spectroscopy, HPLC, oxymetry, and ESR techniques. UQ was detected in an amount of 2.2 nmol/mg of protein in lysosomes. Furthermore, a b-type cytochrome and a flavin-adenine dinucleotide (FAD) were identified as other potential electron carriers. Since NADH was reported to serve as a substrate of UQ redox chains in plasma membranes, we also tested this reductant in lysosomes. Our experiments demonstrate a NADH-dependent reduction of UQ by two subsequent one-electron-transfer steps giving rise to the presence of ubisemiquinone and an increase of the ubiquinol pool in lysosomes. Lysosomal NADH oxidation was accompanied by an approximately equimolar oxygen consumption, suggesting that O(2) acts as a terminal acceptor of this redox chain. DMPO/(*)OH spin adducts were detected by ESR in NADH-supplemented lysosomes, suggesting a univalent reduction of oxygen. The kinetic analysis of redox changes in lysosomes revealed that electron carriers operate in the sequence NADH > FAD > cytochrome b > ubiquinone > oxygen. By using the basic spin label TEMPAMINE, we showed that the NADH-related redox chain in lysosomes supports proton accumulation in lysosomes. In contrast to the hypothesis that UQ in lysosomes is simply a waste product of autophagy in the cell, we demonstrated that this lipophilic electron carrier is a native constituent of a lysosomal electron transport chain, which promotes proton translocation across the lysosomal membrane.     

Density gradient separation of two populations of lysosomes from rat parotid acinar cells

Exocrine acinar cells possess two cytochemically distinct populations of secondary lysosomes. One population is Golgi associated and has demonstrable acid phosphatase (AcPase) activity, whereas the second is basally located and lacks AcPase activity but has trimetaphosphatase (TMPase) activity. The basal lysosomes are tubular in shape and rapidly label with horseradish peroxidase (HRP) after intravenous injection. In the present study using isolated rat parotid acinar cells, the two lysosomal populations were separated by cell fractionation on Percoll density gradients and were analyzed biochemically and by EM cytochemistry. On 35% Percoll gradients, two peaks of AcPase and beta-hexosaminidase, both lysosomal marker enzymes, and succinic dehydrogenase, an enzyme marker for mitochondria, could be resolved. The major peaks of beta-hexosaminidase and succinic dehydrogenase and the minor peak of AcPase corresponded with the dense lysosome fraction. The major peak of AcPase and the minor peaks for beta-hexosaminidase and succinic dehydrogenase coincided with the light membrane fraction. Galactosyl transferase (a marker enzyme for Golgi saccules) and 5'-nucleotidase (a plasma membrane marker) were also associated with this fraction. By electron microscopy, the light membrane fraction was seen to contain tubular elements, multivesicular bodies (MVB), Golgi saccules, GERL, immature secretory granules, and some mitochondria. Electron microscopic cytochemical examination showed that these tubular structures were lysosomes. The dense lysosome fraction contained lysosomes positive for both AcPase and TMPase. After continuous incubation of isolated acinar cells with HRP, reaction product was rapidly localized to the light membrane fraction (greater than 2 min), where it was found in vesicles and tubular lysosomes. By 10 min it was present in MVB and tubular lysosomes, but by 60 min no HRP reaction product had appeared in the dense lysosomes. These results demonstrate that the tubular lysosomes are separable from dense lysosomes, typical secondary lysosomes, and are involved in the initial stages of endocytosis.     

Isolation of rat liver lysosomes by a single two-phase partition on dextran/polyethylene glycol.

Crude mitochondria from liver rats were added to a two-phase system containing dextran and polyethylene glycol. The polymer and ionic concentration values of the two-phase system were changed in order to separate lysosomes from mitochondria. The best separation of lysosomes and mitochondria was obtained at 6.6-6.6% (w/w) dextran-polyethylene glycol and 5 mmol/kg ammonium chloride as shown by enzyme assays. This procedure showed good reproducibility, and lysosomes were never contaminated with more than 16% mitochondria, as determined by succinate dehydrogenase activity, and beta-D-galactosidase and acid phosphatase activities were enriched five- to sixfold. The lipid composition profile of lysosomes was quite similar to that obtained by means of free carrier electrophoresis, considered a reference method.     

Receptors for gonadotropins and prostaglandins in lysosomes of bovine corpora lutea.

The total mitochondrial fraction of bovine corpus luteum specifically bound [³H]prostaglandin (PG) E₁, [³H] PGF_2α, and ¹²⁵I-labeled human lutropin (hLH) despite very little 5′-nucleotidase activity, a marker for plasma membranes. Since the total mitochondrial fraction isolated by conventional centrifugation techniques contains both mitochondria and lysosomes, it was subfractionated into mitochondria and lysosomes to ascertain the relative contribution of these fractions to the binding. Subfractionation resulted in an enrichment of cytochrome c oxidase (a marker for mitochondria) in mitochondria and of acid phosphatase (a marker for lysosomes) in lysosomes. The lysosomes exhibited little or no contamination with Golgi vesicles, rough endoplasmic reticulum, or peroxisomes as assessed by their appropriate marker enzymes. Subfractionation also re ulted in [³H] PGE₁, [³H] PGF_2α, and ¹²⁵I-labeled hLH binding enrichment with respect to homogenate in lysosomes but not in mitochondria. The lysosomal binding enrichment and recovery were, however, lower than in plasma membranes. The ratios of marker enzyme to binding, an index of organelle contamination, revealed that plasma membrane and lysosomal receptors were intrinsic to these organelles. Freezing and thawing had markedly increased lysosomal binding but had no effect on plasma membrane binding. Exposure to 0.05% Triton X-100 resulted in a greater loss of plasma membrane compared to lysosomal binding. In summary, the above results suggest that lysosomes, but not mitochondria, in addition to plasma membranes, intrinsically contain receptors for PGs and gonadotropins. Furthermore, lysosomes overall contain a greater number of PGs and gonadotropin receptors compared to plasma membranes and these receptors are associated with the membrane but not the contents of lysosomes.     

大鼠睾丸间质细胞的自体吞噬活动

本文结合超微结构和细胞化学观察,研究大鼠睾丸间质细胞(Leydig细胞)中溶酶体的结??构与功能。观察结果表明,大鼠睾丸间质细胞中高尔基体非常发达,在高尔基体的成熟面存在着CMP酶阳性反应的GERL系统,说明这种细胞有不断产生溶酶体的能力。细胞化学结果也证实在睾丸间质细胞有较多的初级和次级溶酶体。睾丸间质细胞不仅有较多的溶酶体,而且还有相当数量的自噬小体,存在着活跃的自体吞噬活动。自噬小体的界膜来源于特化的光面内质网或高尔基体膜囊,包围的内容物主要是光面内质网和少量线粒体。当自噬小体与溶酶体融合后即成为自体吞噬泡,由于酶的消化作用,自体吞噬泡内的细胞器有一系列形态变化。根据CMP酶细胞化学反应,可以区分自噬小体和自体吞噬泡,后者是一种次级溶酶体,呈CMP酶阳性反应。睾丸间质细胞是分泌雄性激素的内分泌细胞,其光面内质网和线粒体在类固醇激素分泌中起重要作用,自体吞噬活动的结果是去除部分内质网和线粒体,可能在细胞水平上起着对雄性激素分泌的调节作用。     

Characterization of basal lysosomes in exocrine acinar cells

Exocrine acinar cells possess a unique system of basally located lysosomes. Cytochemically, these lysosomes do not contain acid phosphatase, but react positively for trimetaphosphatase (C Oliver: J Histochem Cytochem 28:78, 1980). The present study extends the morphological and cytochemical characterization of these lysosomes in pancreatic, parotid, and exorbital lacrimal acinar cells from Sprague-Dawley rats and National Institutes of Health Swiss mice. The basal lysosomes are highly pleomoric in nature, and frequently appear as a system of anastomosing tubules of varying width. The lysosomes have a close morphological relationship with both the rough endoplasmic reticulum and mitochondria. In addition to trimetaphosphatase activity, the lysosomes are reactive for aryl sulfatase B, thiolacetic acid esterase, and cholinesterase. Since the cholinesterase activity could not be inhibited by specific inhibitors, this activity is most likely due to the presence of nonspecific esterases. The results of this study confirm the lysosomal nature of the basal lysosomes and underscore the necessity of using multiple enzyme activities to identify and characterize lysosomes.     

Intracellular fate of ferritin in HeLa cells following microinjection

It is known that following iron overload newly synthesized ferritin molecules accumulate in lysosomes. However, the way in which these molecules enter the lysosomes has not been clarified. In order to assess if these molecules can be taken up by lysosomes from the cell sap, i.e., by way of autophagy, ferritin was introduced into HeLa cells through microinjection with a glass capillary. The fate of the ferritin was studied after varying intervals with the electron microscope. Shortly after microinjection ferritin molecules could be observed in the cell sap. After both 1 and 2 h, they were found in clusters and still mainly in the cell sap. After 4 h, ferritin molecules were present not only in the cell sap and in autophagic vacuoles but also in occasional secondary lysosomes. After 12 h, they were seen mainly in lysosomes, undergoing degradation. In no instance were ferritin molecules translocated into other organelles such as mitochondria, Golgi apparatus, or endoplasmic reticulum. The present study demonstrates that ferritin can be introduced into cells by glass capillary microinjection without cell damage. From its initial location in the cell sap ferritin is taken up into the lysosomal vacuome. Autophagy is considered to be the principal mechanism for the transfer of the ferritin molecules into lysosomes.     

Constitutive Reactive Oxygen Species Generation from Autophagosome/Lysosome in Neuronal Oxidative Toxicity

Reactive oxygen species (ROS) are involved in several cell death processes, including cerebral ischemic injury. We found that glutamate-induced ROS accumulation and the associated cell death in mouse hippocampal cell lines were delayed by pharmacological inhibition of autophagy or lysosomal activity. Glutamate, however, did not stimulate autophagy, which was assessed by a protein marker, LC3, and neither changes in organization of mitochondria nor lysosomal membrane permeabilization were observed. Fluorescent analyses by a redox probe PF-H₂TMRos revealed that autophagosomes and/or lysosomes are the major sites for basal ROS generation in addition to mitochondria. Treatments with inhibitors for autophagy and lysosomes decreased their basal ROS production and caused a burst of mitochondrial ROS to be delayed. On the other hand, attenuation of mitochondrial activity by serum depletion or by high cell density culture resulted in the loss of both constitutive ROS production and an ROS burst in mitochondria. Thus, constitutive ROS production within mitochondria and lysosomes enables cells to be susceptible to glutamate-induced oxidative cytotoxicity. Likewise, inhibitors for autophagy and lysosomes reduced neural cell death in an ischemia model in rats. We suggest that cell injury during periods of ischemia is regulated by ROS-generating activity in autophagosomes and/or lysosomes as well as in mitochondria.     

Characterization of porcine adrenocortical lysosomes

Porcine adrenocortical lysosomes were characterized by differential centrifugation, acid hydrolase contents, latency of cathepsin D, release of bound acid hydrolases in soluble form, and isopycnic density gradient centrifugation. Cathepsins D and B, beta-N-acetylglucosaminidase, beta-galactosidase and arylsulphatase were found exclusively in the lysosomes, while alpha-mannosidase and beta-glucuronidase were in both the lysosomal and microsomal fractions. The activity of cathepsin D was remarkably high, amounting to more than 6 times that in porcine liver and to more than 10 times that in liver of Sprague-Dawley rats in terms of units per g wet tissue. Porcine adrenocortical lysosomes showed a modal isopycnic density value of 1.155, but mitochondria a value of 1.145. The validity of these values was studied by investigating the possibilities of agglutination of organelles, damage to lysosomal membranes, disruption of mitochondria due to the hydrostatic pressure and by applying the same procedures of isopycnic centrifugation to hog and rat livers. After these validity tests, porcine adrenocortical lysosomes were concluded to be unique in their strikingly high content of cathepsin D as well as in their low modal isopycnic density which is very close to that of porcine adrenocortical mitochondria.     

A novel hypothesis of lipofuscinogenesis and cellular aging based on interactions between oxidative stress and autophagocytosis.

Based on a series of experiments, using cultured postmitotic neonatal rat cardiac myocytes as a model system, we present a novel hypothesis of lipofuscin formation. This hypothesis proposes that lipofuscin is formed within secondary lysosomes due to an interplay of two processes, the production of partially reduced oxygen species by mitochondria and the autophagocytotic degradation within secondary lysosomes. Specifically, it is proposed that H2O2 generated by mitochondria and other organelles permeates into the lumen of secondary lysosomes, which contain iron derived from cellular structures undergoing intralysosomal degradation. The interaction between reactive ferrous iron and H2O2 results, via Fenton-type mechanisms, in the generation of hydroxyl free radicals (OH), inducing lipid peroxidation and eventually leading to intermolecular cross-linking and lipofuscin formation. Additionally, mitochondria undergoing intralysosomal decomposition might continue for a certain period to produce superoxide anion radicals (O2-) and thus also H2O2. This model of lipofuscinogenesis could satisfactorily explain the variations observed in the rates of lipofuscinogenesis among different postmitotic cell types in various species. Such variations might arise from a variety of factors including differences in the efficiency of the 'anti-oxidative shield', rate of H2O2 generation, amount of chain-breaking antioxidants, mode of intralysosomal iron chelation, rate of autophagocytosis as well as degree of efficiency of the intralysosomal hydrolytic enzymes.     

Studies on the involvement of lysosomes in estrogen action, I. Isolation and enzymatic properties of pig endometrial lysosomes.

Pig endometrium cells, collected by curettage and homogenized in an all-glass Potter Elvehjem homogenizer, gave a considerably higher yield of intact mitochondria and lysosomes than homogenates of whole uterus obtained with the Ultraturrax or the Parr bomb. After homogenization of the cells and subfractionation in the presence of Mg2, mitochondria and lysosomes equilibrated at the same modal density in isopycnic centrifugation. Homogenization and subfractionation in buffers devoid of divalent cations and containing EDTA resulted in a decrease in the buoyant density of mitochondria, allowing for a separation from lysosomes. The pH optima and the specific activities of two mitochondrial enzymes and eight hydrolyases used as marker enzymes were determined. The morphological characteristics of fractions were established by electron microscopy. Preliminary results indicate an involvement of lysosomes in steroid metabolism rather than in steroid and receptor translocation into the nucleus.