Analysis of sarcoplasmic reticulum Ca2+ transport and Ca2+ ATPase enzymatic properties using mouse cardiac tissue homogenates

Recent studies have focused on developing transgenic mouse models to explore the physiological roles of sarcoplasmic reticulum (SR) calcium handling proteins. The goal of this study was to develop methodology to measure SR Ca2+ transport function and enzymatic properties of SR Ca2+ ATPase (SERCA) in individual mouse hearts. We describe here the procedures to specifically measure SR Ca2+ uptake, the formation and decomposition of SERCA phosphoenzyme intermediate (E-P) in mouse cardiac homogenates. The specificity of SERCA enzymatic activity in cardiac homogenates was established by (a) the selective inhibition of SERCA enzyme by inhibitor-thapsigargin, and (b) comparison of the kinetic parameters of SERCA activity between homogenates and isolated microsomes. Here we show that the apparent affinity of SERCA for Ca2+ and ATP, the time to reach steady-state levels of E-P, and the rate of E-P decomposition (turnover rate of SERCA enzyme) are similar in homogenates and microsomes. These studies demonstrate that SERCA Ca2+ transport and enzymatic properties can be accurately measured in mouse cardiac tissue homogenates. Additionally, we show that frozen cardiac homogenates can be used without significant loss of enzymatic activity. In conclusion, we have developed and established the methods to employ tissue homogenates to study SR Ca2+ transport function in individual mouse hearts.     

Acetylcholine Synthesis in the Schwann Cell and Axon in the Giant Nerve Fiber of the Squid

Abstract: Acetyltransferase enzymatic activity was detected and measured in homogenates obtained from intact nerve fibers and their separate cellular components, in the tropical squid Sepioteuthis sepioidea. The levels of acetylcholine synthesis were determined in pooled samples of whole stellar nerve, intact giant nerve fiber, extruded axoplasm, axoplasm-free giant nerve fiber sheaths, and small nerve fibers. The values found per mg of protein for the axoplasm-free sheaths are about 3–9 times those of the extruded axoplasm, and comparable to those found for the intact giant nerve fiber. These experimental findings settle the question of whether the Schwann cells of the giant nerve fiber of S. sepioidea , under physiological conditions, contain acetyltransferase activity and are able to synthesize acetylcholine.     

Palmitate oxidation and some enzymes of energy metabolism in human muscles and cultured muscle cells

1. Palmitate oxidation rates and activities of creatine kinase, cytochrome c oxidase and citrate synthase were determined in homogenates of three different human muscles and their derived muscle cell cultures. Palmitate oxidation was also assayed in intact cultured cells (myotubes). 2. Biopsies obtained from m. rectus abdominis exhibited a lower palmitate oxidation rate and lower activities of citrate synthase and cytochrome c oxidase than those from m. gluteus and m. quadriceps. In contrast, cell cultures obtained from the three muscles were mutually comparable with regard to these mitochondrial activities. 3. Although cell cultures only reached a low differentiation grade (judged by the total creatine kinase activity and percentage isoenzyme-MM) they are well comparable with the original biopsies with respect to citrate synthase activity and capacity of palmitate oxidation. The activity of cytochrome c oxidase was clearly lower in the cultured cells. 4. Palmitate was more completely oxidized in intact myotubes than in homogenates of myotubes. Apparent Km and Vmax values of palmitate oxidation did not differ significantly in homogenates and intact preparations of myotubes.     

Zinc can activate cellular acidic α-d-glucosidase activity

In an attempt to elucidate the effect of metallic ions and EDTA on acidic α-d-glucosidase activity, we measured acidic α-d-glucosidase activity from either lymphocyte and muscle tissue homogenates or intact cells after incubation with metallic ions. The results showed that this enzyme activity was strongly inhibited by Ag⁺, Hg²⁺, and Fe³⁺ in either lymphocyte or muscle tissue homogenates. There was no effect of Zn²⁺, Cu²⁺, and Cd²⁺. However, intact cells, either lymphocyte or muscle cells, after incubation with Zn²⁺ for 1 or 2 hr, showed enhanced enzyme activity and suppression in the other metallic ion groups, especially in Ag⁺, Hg²⁺, and Fe³⁺. Since deficiency of this enzyme can cause type II glycogen storage disese (Pompe’s disease), the more we understand the character of this enzyme, the more we can improve our enzymatic therapy. This work was supported by Grant NSC75-0412-B075-41 from the National Science Council of the Republic of China.     

Neutralizing activities of early and late IgG fragments from rabbits immunized with herpes simplex virus.

Rabbits immunized with herpes virus were bled periodically and bivalent and univalent fragments of IgG from each serum sample were prepared by enzymatic digestion. The 2-week F(ab')2 showed a low neutralizing activity only after addition of anti-IgG. F(ab')2 of the 4-week serum retained almost all of the neutralizing activity of IgG, while its univalent fragments demonstrated none even when tested with anti-IgG. In contrast to these early IgG fragments, univalent fragments of the 9-week and 20-week IgG neutralized the virus to considerable extents in the absence of anti-IgG; after addition of anti-IgG the activity equaled that of intact IgG in the cases of Fab' and Fab-II, though the activity of Fab-I was relatively low. Three three univalent fragments were all sensitive to heating at 70 C and to ultraviolet irradiation, whereas intact IgG resisted these treatments. F(ab')2 was resistant to the heating and less sensitive to ultraviolet irradiation than univalent fragments. Neutralization kinetic curve experiments to test blocking effects of IgG fragments against the neutralization by intact IgG suggested that the early Fab' did combine with the virus and that the late Fab' exerted a higher blocking effect than the early Fab'.     

Neutralizing Activities of Early and Late IgG Fragments from Rabbits Immunized with Herpes Simplex Virus

Rabbits immunized with herpes virus were bled periodically and bivalent and univalent fragments of IgG from each serum sample were prepared by enzymatic digestion. The 2-week F(ab′)₂ showed a low neutralizing activity only after addition of anti-IgG. F(ab′)₂ of the 4-week serum retained almost all of the neutralizing activity of IgG, while its univalent fragments demonstrated none even when tested with anti-IgG. In contrast to these early IgG fragments, univalent fragments of the 9-week and 20-week IgG neutralized the virus to considerable extents in the absence of anti-IgG; after addition of anti-IgG the activity equaled that of intact IgG in the cases of Fab′ and Fab-II, though the activity of Fab-I was relatively low. The three univalent fragments were all sensitive to heating at 70 C and to ultraviolet irradiation, whereas intact IgG resisted these treatments. F(ab′)₂ was resistant to the heating and less sensitive to ultraviolet irradiation than univalent fragments. Neutralization kinetic curve experiments to test blocking effects of IgG fragments against the neutralization by intact IgG suggested that the early Fab′ did combine with the virus and that the late Fab′ exerted a higher blocking effect than the early Fab′.     

Regulation of 11 beta-hydroxysteroid dehydrogenase enzymes in the rat kidney by estradiol

The 11beta-hydroxysteroid dehydrogenase (11betaHSD) type 1 (11betaHSD1) enzyme is an NADP+-dependent oxidoreductase, usually reductase, of major glucocorticoids. The NAD+-dependent type 2 (11betaHSD2) enzyme is an oxidase that inactivates cortisol and corticosterone, conferring extrinsic specificity of the mineralocorticoid receptor for aldosterone. We reported that addition of a reducing agent to renal homogenates results in the monomerization of 11betaHSD2 dimers and a significant increase in NAD+-dependent corticosterone conversion. Estrogenic effects on expression, dimerization, and activity of the kidney 11betaHSD1 and -2 enzymes are described herein. Renal 11betaHSD1 mRNA and protein expressions were decreased to very low levels by estradiol (E2) treatment of both intact and castrated male rats; testosterone had no effect. NADP+-dependent enzymatic activity of renal homogenates from E2-treated rats measured under nonreducing conditions was less than that of homogenates from intact animals. Addition of 10 mM DTT to aliquots from these same homogenates abrogated the difference in NADP+-dependent activity between E2-treated and control rats. In contrast, 11betaHSD2 mRNA and protein expressions were significantly increased by E2 treatment. There was a marked increase in the number of juxtamedullary proximal tubules stained by the antibody against 11betaHSD2 after the administration of E2. Notwithstanding, neither the total corticosterone and 11-dehydrocorticosterone excreted in the urine nor their ratio differed between E2- and vehicle-treated rats. NAD+-dependent enzymatic activity in the absence or presence of a reducing agent demonstrated that the increase in 11betaHSD2 protein was not associated with an increase in in vitro activity unless the dimers were reduced to monomers.     

Specific protein targets of 13-oxooctadecadienoic acid (13-OXO) and export of the 13-OXO-glutathione conjugate in HT-29 cells.

The linoleic acid metabolite, 13-oxooctadecadienoic acid (13-OXO), is reactive with cellular thiols. In the present report, incubations of HT-29 or CaCo-2 homogenates with 13-OXO and GSH indicate that HT-29 cell homogenates produce a 13-OXO-GSH conjugate. The conjugate formed was likely of enzymatic origin as chiral-phase HPLC showed the major product consisted of only one of two possible diastereomers. The glutathione transferase activity (GST), using chlorodinitrobenzene, was found to be 126 nmol/mg/min in HT-29 cells and 21 nmol/mg/min in CaCo-2 cells. These levels of activity are consistent with the relative ability of the two cell lines to conjugate GSH to 13-OXO. Incubation of intact HT-29 cells with either 13-OXO, or the metabolic precursor 13-hydroxyoctadecadienoic acid (13-HODE), showed detectable 13-OXO-GSH conjugate in the media, but none in the cells. The stereochemistry of the extracellular conjugate suggested an enzymatic origin. In additional experiments, the labeling of cellular protein by 13-HODE was much more specific than the labeling of protein by 13-OXO suggesting that in situ generation of 13-OXO from 13-HODE confers selectivity on the reactions between cellular thiols and 13-OXO. These results demonstrate that in HT-29 cells, 13-HODE is converted to 13-OXO which then either reacts with cellular protein or is conjugated to GSH by GST. The 13-OXO-GSH conjugate is then exported from the cell.     

Reaction of osmoregulatory system in juveniles of Russian sturgeon <Emphasis Type="Italic">Acipenser gueldenstaedtii</Emphasis> (Acipenseridae) on influence of comatotropin of carp <Emphasis Type="Italic">Cyprinus carpio</Emphasis>

For the first time by the example of juveniles of Russian sturgeon Acipenser gueldenstaedtii Brandt, the role of growth hormone of hypophysis in the osmotic regulation of acipenserids was studied, also the process of transformation of reserve chloride was described. In Russian sturgeon juveniles, administration of growth hormone of carp Cyprinus carpio at a dose of 1 mg per 1 g body weight causes changes in the fine structure of numerous reserve (undifferentiated) gill epithelial cells and thus stimulates their transformation into mature chloride cells involved in transport of monovalent ions. Increase in the number of chloride cells, on account of reserve cells, was accompanied by higher enzymatic activity of Na⁺/K⁺-ATPase in gill homogenates of the injected fish adapting to a hyperosmotic environment of salinity 12.5‰ (403 mosm/l) than in the intact fish under the same conditions but without hormonal treatment. Morphophysiological changes observed in the injected juveniles provided the more efficient dynamics of blood serum osmolarity under saline exposure than that in the intact fish. Their serum osmolality during the maximum rise (24 hours after the transfer of fish into the water of 12.5‰ salinity) was lower (p <0.01), than that of the intact fish. The inclusion of growth hormone in the osmoregulatory process was established.     

Analysis of DNA polymerase activity in Petunia protoplasts treated with clastogenic agents

Clastogenic agents, i.e. agents that can induce chromosome or DNA breakage, have been shown to enhance the rale of direct gene transfer to protoplasts. The effect was analysed at the enzymatic level using protoplast homogenates as well as intact protoplasts. For that purpose existing procedures were modified to enable measurement of DNA polymerase in vivo. In the system used, external DNA was able to enter the cells without the addition of membrane-permeabilizing compounds. When comparing total DNA polymerase activity of protoplasts irradiated with X-rays or UV-light with that of untreated cells we did not observe significant differences. Incubation of protoplasts with high doses of bleomycin affected total DNA polymerase activity negatively. but dideoxythymidine triphosphate-sensitive activity was not influenced. We conclude that the DNA strand-breaks induced by low doses of X-rays. UV-light or bleomycin do not increase the total or the repair-DNA polymerase activity and. therefore. that the increase in the transformation rates after DNA strand-breaking is not preceded by enhanced DNA polymerase activity.     

Adrenocorticotropic (ACTH) cells of rats after head irradiation.

The heads of intact rats and of rats 15 days after adrenalectomy were irradiated with 1200 R. Some of the adrenalectomized animals with irradiated heads were treated with 5 mg of deoxycorticosterone acetate. In adrenocorticotropic cells of adrenalectomized rats 15 and 30 days after irradiation, the decreased amount of the granular endoplasmic reticulum and the Golgi regression imply a considerably decreased protein synthesis. The finding of an increased number of granules and of granules larger than normal suggests that they are the result of slowed down transport and secretion of the products of these cells' activities. After head irradiation an increased number of degenerative cells was evident in the pituitary of both intact and adrenalectomized rats. The degree of the degenerative changes and the number of degenerative cells was higher 30 than 15 days after irradiation and both were decreased if the adrenalectomized rats were treated with deoxycorticosterone acetate.     

Immunogenicity of subcellular fractions and molecular species of MuLV-induced tumors

Summary YBA, a Moloney virus-induced leukemia in CBA mice, and a relatively weak immunogenic tumor, was screened for the presence of immunogenic antigens. The tumor was subjected to homogenization and subcellular fractionation on sucrose gradients; the immunogenic subcellular fractions underwent further separation by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). The immunogenicity of the subcellular fractions and the SDS-PAGE-isolated molecular species were tested by (their) subcutaneous injection into syngeneic mice and examination of their splenocytes examined against tumor cell and normal cell targets by the chromium release cell-mediated lympholysis assay. Tumor cell homogenates were also separated by SDS-PAGE and tested for immunogenicity without prior fractionation.Splenocytes from mice that had received injections of certain SDS-PAGE-isolated epitopes derived from YBA tumor homogenate or its light and heavy subcellular fractions generated effective cytotoxic responses against YBA target cells after 6 days in vitro cultivation. In contrast, intact YBA tumor cells or non-separated tumor homogenates failed to induce an efficient cytotoxic response. The effector cells induced with the immunogenic SDS-PAGE-isolated epitopes of YBA tumor were specific, since they cytolysed the homologous target cells more efficiently than unrelated target cells or syngeneic normal cells. The activity of these effector cells was affected by varying the effector : target ratio. Augmentation of the cytotoxic responses was obtained when the splenocytes of mice immunized with SDS-PAGE-isolated epitopes of YBA tumor were restimulated in vitro, with the homologous neoplastic cells.Immunogenic SDS-PAGE epitopes were isolated from YAC tumor also (YAC is a Moloney-induced tumor of A mice). The effector cells induced with these separated epitopes were characterized as thymus-derived cells and not as natural killer cells.The results suggest that (1) the molecular repertoire of YBA and YBA tumors contain immunogens that can induce a specific antitumor cell-mediated response; (2) the isolated molecular species injected are more efficient immunogens than the entire, unseparated homogenate sample or a dose of 10⁸ intact inactivated tumor cells; and (3) the gel matrix may be responsible for the enhanced cell-mediated response induced against the weakly immunogenic tumor.     

Transport activity of the sodium bicarbonate cotransporter NBCe1 is enhanced by different isoforms of carbonic anhydrase

Transport metabolons have been discussed between carbonic anhydrase II (CAII) and several membrane transporters. We have now studied different CA isoforms, expressed in Xenopus oocytes alone and together with the electrogenic sodium bicarbonate cotransporter 1 (NBCe1), to determine their catalytic activity and their ability to enhance NBCe1 transport activity. pH measurements in intact oocytes indicated similar activity of CAI, CAII and CAIII, while in vitro CAIII had no measurable activity and CAI only 30% of the activity of CAII. All three CA isoforms increased transport activity of NBCe1, as measured by the transport current and the rate of intracellular sodium rise in oocytes. Two CAII mutants, altered in their intramolecular proton pathway, CAII-H64A and CAII-Y7F, showed significant catalytic activity and also enhanced NBCe1 transport activity. The effect of CAI, CAII, and CAII mutants on NBCe1 activity could be reversed by blocking CA activity with ethoxyzolamide (EZA, 10 μM), while the effect of the less EZA-sensitive CAIII was not reversed. Our results indicate that different CA isoforms and mutants, even if they show little enzymatic activity in vitro, may display significant catalytic activity in intact cells, and that the ability of CA to enhance NBCe1 transport appears to depend primarily on its catalytic activity.     

Effects of prednisolone on the distribution and activity of two phosphoesterases in membrane preparations from HeLa cells

Activities of two membrane associated enzymes, viz. 5′-nucleo-tidase (EC 3.1.3.5) and alkaline phosphatase (EC 3.1.3.1) are known to be altered by glucocorticoid treatment of cells in culture. In certain HeLa cell lines, their activity is elevated, while in others, it is decreased. In order to confirm the data obtained previously with cell homogenates, cells were fractionated essentially as described by Bosmann, Hagopian and Eylar ('68) after 96 hours exposure to 0.5 μg/ml prednisolone. This treatment resulted in changes both in the specific activity and in the distribution of the two enzymes among the isolated membrane fractions. The alterations in specific activity in the individual membrane fractions reflected changes previously observed in preparations from whole cells. A shift in distribution of total enzymatic activity to fractions of higher density occurred in both cell lines in response to the steroid. These results may be indicative of cellular membrane alterations as a consequence of steroid treatment.     

Entry of ricin and Shiga toxin into cells: molecular mechanisms and medical perspectives

A large number of plant and bacterial toxins with enzymatic activity on intracellular targets are now known. These toxins enter cells by first binding to cell surface receptors, then they are endocytosed and finally they become translocated into the cytosol from an intracellular compartment. In the case of the plant toxin ricin and the bacterial toxin Shiga toxin, this happens after retrograde transport through the Golgi apparatus and to the endoplasmic reticulum. The toxins are powerful tools to reveal new pathways in intracellular transport. Furthermore, knowledge about their action on cells can be used to combat infectious diseases where such toxins are involved, and a whole new field of research takes advantage of their ability to enter the cytosol for therapeutic purposes in connection with a variety of diseases. This review deals with the mechanisms of entry of ricin and Shiga toxin, and the attempts to use such toxins in medicine are discussed.     

Metabolic correction of cerebral radiation syndrome.

DNA strand breaks that occur after irradiation activate the repair enzyme adenosine diphosphoribosyl transferase, which consumes NAD as a substrate and causes depletion first of neuronal NAD and then of the ATP pool. This is considered to be the crucial link in the mechanism underlying the cerebral radiation syndrome (CRS). In this study, two ways to correct the CRS metabolically were examined: (a) prevention of depletion of NAD after irradiation by administration of the enzyme inhibitor nicotinamide and (b) shunting the NAD-dependent oxidative phosphorylation pathway of ATP resynthesis by administration of a substrate of NAD-independent oxidation, succinate. Cerebral lesions induced by radiation were modeled by irradiation of rats or rat brain homogenates with 150 Gy of X rays. The manifestations of CRS in rats (excitement, convulsions, etc.) closely resembled those seen after acute hypoxia. In brain homogenates, pyruvate tetrazolium-reductase activity decreased after irradiation and could be corrected by addition of NAD after irradiation. Succinate tetrazolium-reductase activity was not affected by irradiation. Oxygen consumption by brain homogenates after irradiation in vitro and in situ decreased, as did oxygen consumption by rats in vivo after cranio-caudal irradiation. Administration of nicotinamide or succinate prevented both the postirradiation decrease in respiration (in both rats in vivo and brain homogenates in vitro) and the development of cerebral radiation syndrome. These results help to clarify the mechanisms underlying CRS and its metabolic correction.     

Use of lissamine rhodamine ceramide trihexoside as a functional assay for alpha-galactosidase A in intact cells

Fabry disease is an X-linked disorder caused by mutations in the GLA gene encoding for α-galactosidase A (AGA, EC 3.2.1.22). Measurement of AGA enzyme activity using cell homogenates can easily identify men with Fabry disease, but in women, the degree of X-inactivation in the tested tissue may produce activities in homogenates that are indistinguishable from normal. Monti et al. developed a series of lissamine rhodamine-labeled glycosphingolipid substrates that can be used to measure clearance of these lipids in intact cells (1). We report here that one of these substrates, lissamine rhodamine ceramide trihexoside (LR-CTH), can be used as a probe for functional activity of AGA in intact fibroblasts, endothelial cells, and T-lymphocytes from patients with Fabry disease. By utilizing standard detection techniques, such as microscopic imaging, fluorescence microplate spectrophotometry, and flow cytometry, cells with impaired AGA activity can easily be distinguished from wild-type (WT) cells, and these two cell types can be isolated into separate populations using fluorescence-activated cell sorting (FACS). The assay we report here can be adapted to evaluate new therapies by high-throughput screening, can aid in the study of AGA activity in living cells, and can assist in the diagnosis of women with the Fabry trait.     

ADP-ribosylation of nonmuscle actin with component I of C2 toxin

C2 toxin elaborated by Clostridium botulinum type C is composed of two dissimilar protein components, designated components I and II. Component I of the toxin caused ADP-ribosylation of a protein of Mr 45,000 in chicken tissue homogenates and also purified nonmuscle but not muscle actin. The endogenous ADP-ribosylation of intracellular actin with C2 toxin was correlated with the morphological change in intact culture cells caused by the toxin. These results indicate that the biological activity of the toxin involves a novel enzymatic activity of component I, which catalyzes the preferential ADP-ribosylation of nonmuscle actin of the target cells.     

Study of enzymes regulating vasopressin-stimulated cyclic AMP metabolism in separated mitochondria-rich and granular epithelial cells of toad urinary bladder

Summary The epithelial cells of the toad urinary bladder are morphologically heterogeneous. In order to relate the effect of vasopressin on cyclic AMP metabolism to cell type, the epithelial cells were separated by the density gradient technique of Scott, Sapirstein and Yoder (Science 184: 797, 1974). The separation was verified by electron-microscopy and by observing that the band of cells enriched in mitochondria-rich cells was enriched in carbonic anhydrase activity compared to the band of granular cells. A large portion of the cells collected from the gradient was considered to be nonviable, precluding further study of their function as intact cells. Vasopressin-stimulated adenylate cyclase activity in homogenates of granular cells was similar to that in homogenates of mitochondria-rich cells. Cyclic nucleotide phosphodiesterase activity was also similar in the two types of cell. Thus, the enzymes known to be involved in cyclic AMP metabolism in response to vasopressin appear to be located in both major cell types.     

The relationship between radiosensitivity and repair of potentially lethal damage in human tumor cell lines with implications for radioresponsiveness

The relationship between intrinsic radiosensitivity and repair capacity was studied for 22 human tumor cell lines in vitro. The experimental material was taken from 19 published papers. Parameters from three radiobiological models were used to assess this relationship: the one-hit multitarget model (D0 and n), the linear-quadratic model (alpha and beta), and the mean inactivation dose (D). Data were obtained for cells in three stages: exponentially growing cells (exp), plateau-phase cells plated immediately after irradiation (ip), and plateau-phase cells plated after completion of PLD repair (dp). No significant difference was found between radiosensitivity of exp and ip cells. There was no correlation between repair capacity and intrinsic radiosensitivity assessed with plateau-phase cells plated immediately after irradiation. The correlation studies between intrinsic radiosensitivity or repair capacity and clinical responsiveness were achieved by assigning cell lines to one of three groups of decreasing in vivo radioresponsiveness: highly, medium, and poorly responsive. There was a significant correlation between radiosensitivity and radioresponsiveness, but no correlation between repair capacity and radioresponsiveness. The average repair capacity was about 0.6 Gy, in terms of D. Three parameters, the mean inactivation dose of exponentially growing cells, of plateau-phase cells plated immediately after irradiation, and of plateau-phase cells plated after completion of PLD repair, could be used equally to assess the relationship between in vitro data and radioresponsiveness. The present results are compared to those obtained in a similar study on a group of 48 nontransformed fibroblast cell strains.