Lactoperoxidase-catalyzed iodinaton of cell cultures infected with mycoplasma

Summary Hamster BHK cells or secondary cultures of mouse embryo fibroblasts are not iodinated by lactoperoxidase in the absence of hydrogen peroxide. When such cell cultures are infected with a noncultivable strain ofM. hyorhinis, endogenous peroxide generation is sufficient to permit nearly maximal iodination. The SDS-polyacrylamide gel pattern of iodinated cell surface polypeptides is essentially the same regardless of the source of peroxide and whether or not the cultures are infected with mycoplasma.     

Enzymatic Iodination of Sindbis Virus Proteins

Sindbis virus was iodinated by using the enzyme lactoperoxidase, an iodination technique which labels only surface proteins. By this technique, the two viral glycoproteins are labeled, and the internal viral protein is not. The two glycoproteins are iodinated to strikingly different extents. This difference in susceptibility to iodination apparently is due to the position or conformation of the glycoproteins in the envelope spikes of the virion and not to differing contents of tyrosine, the amino acid substrate of lactoperoxidase. Both viral glycoproteins are iodinated by lactoperoxidase on the surface of Sindbis-infected chicken cells. Here, as in the virion, the glycoproteins are iodinated unequally, with the smaller glycoprotein again being preferentially iodinated. Another virus-specific protein found in large amounts in infected cells, and from which the preferentially iodinated virion glycoprotein is produced by a proteolytic cleavage, is not iodinated by lactoperoxidase. Thus it appears that the viral glycoproteins are present on the cell surface and that the precursor protein is not.     

The effect of different antioxidants on glutathione turnover in human cell lines and their interaction with hydrogen peroxide

BACKGROUND: Glutathione plays crucial roles in antioxidant defence and glutathione deficiency contributes to oxidative stress and may therefore play a key role in the pathogenesis of many diseases. The objectives of the present study were to evaluate the effects on glutathione turnover of thiol and non-thiol antioxidants in human cell cultures and if any of the antioxidant had a short-term cellular effect against different levels of hydrogen peroxide. METHODS: We have investigated the effect on the total glutathione amount in HeLa and hepatoma cell cultures of thiol antioxidants in comparison with non-thiol antioxidants, such as a copper chelator, Vitamin C, and a flavonoid. Furthermore, we have investigated the short-term (within 24h) interaction of the different antioxidants with hydrogen peroxide. RESULTS AND CONCLUSION: Lipoic acid and quercetin (Quer) were the two antioxidants that showed the highest stimulation of glutathione synthesis in cell cultures as judged by the total glutathione amount. However, no antioxidant protected against hydrogen peroxide present in concentrations that lowered cell protein. This finding may be attributed to the fact that it is necessary to incubate cell cultures with antioxidants or small doses of oxidants for a period before the cultures are exposed to hydrogen peroxide in order to enhance the antioxidant defence. The presence of Quer and Vitamin C lowered cell protein and total glutathione even in cell cultures containing hydrogen peroxide in concentrations that did not lower cell protein. This finding might be attributed to pro-oxidant properties and formation of excess reactive oxygen species in the presence of Quer and Vitamin C.     

A versatile procedure for the radioiodination of proteins and labeling reagents

For tracer or analytical studies it is often useful to label proteins by direct iodination or by reacting them with an iodinated reagent. A simple iodination technique with hydrogen peroxide is described for use with either carrier-free or low-specific-activity iodine. The method introduces less oxidative damage to proteins than any other procedure tested, yet the efficiency of labeling approaches that offered by the chloramine T or Iodogen methods. The method has been applied to the facile and inexpensive preparation of the iodinated Bolton-Hunter reagent. This peroxide iodination procedure should be particularly useful for labeling proteins or peptides for structural investigations or for immunoassays.     

A versatile procedure for the radioionization of proteins and labeling reagents

For tracer or analytical studies it is often useful to label proteins by direct iodination or by reacting them with an iodinated reagent. A simple iodination technique with hydrogen peroxide is described for use with either carrier-free or low-specific-activity iodine. The method introduces less oxidative damage to proteins than any other procedure tested, yet the efficiency of labeling approaches that offered by the chloramine T or Iodogen methods. The method has been applied to the facile and inexpensive preparation of the iodinated Bolton-Hunter reagent. This peroxide iodination procedure should be particularly useful for labeling proteins or peptides for structural investigations or for immunoassays.     

Oxidative stress decreases extracellular homocysteine concentration in human hepatoma (HepG2) cell cultures

BACKGROUND: Mild hyperhomocysteinemia is associated with premature vascular disease. The mechanism behind the vascular injuries is, however, still unknown. Homocysteine may be catabolized in the trans-sulfuration pathway to cysteine. Cystathionine beta-synthase, which catalyses the first step in the trans-sulfuration pathway is redox-sensitive. We have therefore investigated total extracellular homocysteine turnover in the presence of oxidative stress in human cell lines. METHODS: The turnover of total extracellular homocysteine in HeLa and hepatoma cell cultures has been investigated in the presence of hydrogen peroxide. Furthermore, the effect of hydrogen peroxide on the removal of high amounts of exogenously added homocysteine was also studied. RESULTS: Total extracellular homocysteine concentration in hepatoma cell cultures decreased in the presence of hydrogen peroxide, whereas the extracellular homocysteine concentration in HeLa cell cultures was not influenced. There was no significant change of intracellular homocysteine in any type of cell cultures. Furthermore, the presence of hydrogen peroxide did not increase the removal of exogenously added homocysteine. CONCLUSION: The presence of hydrogen peroxide probably increases the activity of the trans-sulfuration pathway in hepatoma cell cultures, which increases the intracellular use of homocysteine and lowers its extracellular release. Consequently this mechanism might tend to lower total plasma homocysteine concentration in oxidative stress.     

Alterations in surface proteins during myogenesis of a rat myoblast cell line.

Lactoperoxidase-catalyzed iodination and SDS-polyacrylamide gradient gel electrophoresis were used to examine the surface proteins of cultures of an embryonic rat myoblast cell line during myogenesis. We observed several consistent alterations in the proteins iodinated during the periods of alignment and fusion. In addition, we examined the surface proteins of cultures where fusion was inhibited by phospholipase C (PLC), and of cultures of several nonfusing variants of our original line. Many of the proteins which appeared during “normal” myogenesis were not seen in PLC-treated cultures, while the appearance and loss of three low molecular weight proteins were accelerated. The nonfusing variants often accumulated large amounts of many of the proteins which appeared during alignment in normal cultures. This accumulation was demonstrated by Coomassie blue stain intensities as well as by the extent of surface iodination. The three low molecular weight proteins were heavily iodinated in one class of variant, but did not disappear as in normal cultures. One protein of apparent molecular weight 66,000 (66K) was iodinated during alignment but was inaccessible during fusion. Coomassie blue staining of the gels showed that the actual appearance and disappearance of the 66K protein band from the membrane were coincident with alignment and fusion. While this band was not seen in fluorograms from gels of PLC-treated cultures and some of the nonfusing variants, a 66K band was invariably stained by Coomassie blue, and in PLC-treated cultures appeared to accumulate with time. In the variants there appeared to be a correlation between the availability of the 66K protein for iodination and the appearance of the low molecular weight proteins.     

Lactoperoxidase-catalyzed iodination of surface membrane lipids

Lactoperoxidase-catalyzed iodination of intact cells, is known to label predominantly, if not exclusively, the exposed tyrosine residues of cell surface proteins. The present study demonstrates that during this iodination process surface membrane lipids are also iodinated through an enzyme-dependent step. Phosphatidylcholine, cholesterol-phosphatidylcholine liposomes and confluent secondary cultures of chick embryo cells were iodinated by the lactoperoxidase-glucose oxidase-glucose [¹²⁵I] procedure. Liposomes were efficiently labeled. In the cells, 20–30% of the radioactivity was found in proteins and 20–30% in the lipids. Both neutral and polar lipids were found to bind [¹²⁵I] covalently. Controls in which lactoperoxidase was omitted showed < 6% of the radioactivity found in liposomes or cells labeled with the enzyme.     

The outer boundary of the cytoskeleton: a lamina derived from plasma membrane proteins

We prepared the cytoskeletal framework by gently extracting cells with Triton X-100. Lipids and soluble proteins were removed, leaving a complex meshlike structure which contains the cell nucleus and is composed of the major cell filament networks as well as the microtrabeculae with attached polyribosomes. The surface sheet or lamina covering this structure contains most of the cell surface proteins by the following criteria. Intact cells are labeled externally with radioiodine and then extracted with detergent. The iodinated poteins remain almost entirely with skeletal framework. A new major integral protein, the coat protein of Sindbis virus, is inserted into the plasma membrane of infected cells. This new protein is heavily iodinated and remains almost completely associated with the framework after extraction. Lectin binding and poliovirus binding sites are also retained after detergent extraction. Our results indicate that plasma membrane proteins form a sheet or lamina upon removal of lipids. This lamina reproduces even complex surface convolutions and appears to be supported by and intimately connected to the underlying skeleton. In this case, the surface lamina, and hence the plasma membrane of the original intact cell, might be viewed as a component of the cytoskeletal framework.     

DNA infectivity and the induction of host DNA synthesis with temperature-sensitive mutants of simian virus 40.

Host DNA synthesis is induced when CV-1 (monkey kidney) cell cultures are infected at 40 C with wild-type virions or with temperature-sensitive Simian virus 40 mutants of the "early" complementation group A. Host DNA synthesis is not induced when cultures are infected with mutants of the late complementation group D. The simplest explanation for these observations, that induction depends not upon the expression of some early gene function but rather on the presence of an active D protein in the infecting virion, has been examined. Indirect experiments suggest that this explanation is not correct. Moreover, the induction of host DNA synthesis is impaired when cultures are infected with mutants of the A group at 42.5 C rather than 40 C, suggesting that the A function may be responsible for host induction. The inability of D virions to induce host DNA synthesis may reflect their inability to "uncoat" at 40C.     

VIRAL INFECTION OF EMILIANIA HUXLEYI (PRYMNESIOPHYCEAE) LEADS TO ELEVATED PRODUCTION OF REACTIVE OXYGEN SPECIES1

The effect of viral infection of Emiliania huxleyi (Lohman) Hay and Mohler on the concentration of intracellular reactive oxygen species (ROS), hydrogen peroxide (H₂O₂) excretion and cell photosynthetic capacity (CPC) was examined. During the crash of an E. huxleyi culture induced by viruses intracellular ROS concentrations were generally elevated and reached levels of approximately double those observed in non‐infected control cultures. H₂O₂ concentrations also increased in the media of the infected cultures from background levels of around 130 nM to approximately 580 nM while levels in the controls decreased. These data suggest that oxidative stress is elevated in infected cells. Although the precise mechanism for ROS production was not identified, a traditional defense related oxidative burst was ruled out, as no evidence of a rapid intracellular accumulation of ROS following addition of the virus was found. CPC declined substantially in the infected culture from a healthy 0.6–0 arbitrary units. Clearly infection disrupted normal photosynthetic processes, which could lead to the production of ROS via interruption of the electron transport chain at the PSII level. Alternatively, ROS may also be a necessary requirement for viral replication in E. huxleyi, possibly due to a link with viral‐induced cell death or associated with general death processes.     

Glutathione turnover in human cell lines in the presence of agents with glutathione influencing potential with and without acivicin inhibition of gamma-glutamyltranspeptidase

BACKGROUND: We have previously shown that there were great discrepancies between different agents regarding their glutathione stimulating potential and that agents with mainly oxidative effects did not increase concentrations of glutathione in human cell cultures, in contrast to other thiol reactive agents. In order to evaluate whether increased glutathione degradation might be one reason for these discrepancies, we have investigated the effect of different agents with potential influence on glutathione metabolism in human cell cultures with or without acivicin inhibition of gamma-glutamyltranspeptidase (GT), since GT is responsible for the initial degradation of glutathione. METHODS: Intra- and extracellular concentrations of glutathione were investigated in HeLa and hepatoma cell cultures, with and without acivicin inhibition of GT, in the presence of oxidative and electrophilic agents (copper ions, hydrogen peroxide and N-ethylmaleimide), hydroquinone, reducing agents (lipoic acid and N-acetylcysteine), and a thiol reactive metal (mercury ions). RESULTS: There were great discrepancies between the different agents regarding their maximal glutathione response (the sum of the intracellular and the extracellular amount of glutathione) in cell cultures. There was only a small increase in total glutathione in the presence of hydrogen peroxide or N-ethylmaleimide before the cell protein decreased compared to findings with mercury ions, lipoic acid or hydroquinone. In both HeLa and hepatoma cell cultures, there were correlations between the original glutathione amount and the total glutathione amount observed after acivicin inhibition. CONCLUSION: The relatively small increase of glutathione amount in the presence of oxidative and electrophilic agents compared to other thiol reactive agents is not due to increased GT degradation of glutathione.     

Host DNA Synthesis-Suppressing Factor in Culture Fluid of Tissue Cultures Infected with Measles Virus

Host DNA synthesis is suppressed by the culture fluid of cell cultures infected with measles virus. This activity in the culture fluid is initiated somewhat later than the growth of infectious virus. Ninety percent of host DNA synthesis in HeLa cells is inhibited by culture fluid of 3-day-old cell cultures of Vero or HeLa cells infected with measles virus. This suppressing activity is not a property of the virion, but is due to nonvirion-associated component which shows none of the activities of measles virus such as hemagglutination, hemolysis, or cell fusion nor does it have the antigenicity of measles virus as tested by complement-fixation or hemagglutination-inhibiting antibody blocking tests. Neutralization of the activity of this component is not attained with the pooled sera of convalescent measles patients. This component has molecular weights of about 45,000, 20,000, and 3,000 and appears to be a heat-stable protein. The production of host DNA suppressing factor (DSF) is blocked by cycloheximide. Neither UV-inactivated nor antiserum-neutralized measles virus produce DSF. Furthermore, such activity of nonvirion-associated component is not detected in the culture fluid of cultures infected with other RNA viruses such as poliovirus, vesicular stomatitis virus, or Sindbis virus.     

Mycoplasma pneumoniae protects infected epithelial cells from hydrogen peroxide‐induced cell detachment

Epithelial cell shedding is a defence mechanism against infectious microbes that use these cells as an infection foothold and that eliminate microbes from infection foci by removing infected cells. Mycoplasma pneumoniae, a causative agent of respiratory infections, is known to adhere to and colonise the surface of ciliated airway epithelial cells; it produces a large amount of hydrogen peroxide, indicating its capability of regulating hydrogen peroxide‐induced infected cell detachment. In this study, we found that M. pneumoniae reduces exogenous hydrogen peroxide‐induced detachment of the infected cells from culture plates. This cell detachment occurred dependently of DNA damage‐initiated, poly (ADP‐ribose) polymerase 1 (PARP1)‐mediated cell death, or parthanatos. In cells infected with M. pneumoniae, exogenous hydrogen peroxide failed to induce DNA damage‐initiated poly (ADP‐ribose) (PAR) synthesis and concomitant increased cytoplasmic membrane rupture, both of which are biochemical hallmarks of parthanatos. The impairment of PAR synthesis was attributed to a reduction in the amount of cytosolic nicotinamide adenine dinucleotide (NAD), a substrate of PARP1, caused by M. pneumoniae. On the other hand, nonadherent mutant strains of M. pneumoniae showed a lower ability to reduce cell detachment than wild‐type strains, but the extent to which NAD was decreased in infected cells was comparable to that seen in the wild‐type strain. We found that NAD depletion could induce PARP1‐independent cell detachment pathways following stimulation with hydrogen peroxide and that M. pneumoniae could also regulate PARP1‐independent cell detachment in a cytoadhesion‐dependent manner. These results suggest that M. pneumoniae might regulate infected cell detachment induced by hydrogen peroxide that it produces itself, and such a mechanism may contribute to sustaining the bacterial infection.     

Strategies to increase the use of entomopathogens

Synchronized cultures of the TN-368 insect cell line were infected with a nuclear polyhedrosis virus from the alfalfa looper, Autographa californica, during different phases of the cell cycle. Cultures exposed to virus during the middle and late S phase have higher percentages of infected cells than cultures inoculated with virus in the G₂ phase. The amount of virus produced from each infected cell (polyhedra and plaque forming units) is not significantly different between cultures infected at all phases of the cell cycle.     

Protective effects of tetramethylpyrazine on rat retinal cell cultures

The retinal degeneration characterized with death of retinal ganglion cells is a pathological hallmark and the final common pathway of various optic neuropathies. Thus, there is an urgent need for identifying potential therapeutic compounds for retinal protection. Tetramethylpyrazine has been suggested to be neuroprotective for central neurons by acting as an antioxidant and a calcium antagonist. In this study, we tested the effects of tetramethylpyrazine on the viability of both neuronal and non-neuronal cells in mixed rat retinal cell cultures during a long-term cultivation or following hydrogen peroxide treatments. Cellular and biochemical analyses demonstrated that 50 microM tetramethylpyrazine significantly preserved neuronal morphology and survival in retinal cell cultures following 4-week in vitro cultivation as well as lethal exposures to hydrogen peroxide (10 microM or 50 microM for 24h). Hydrogen peroxide treatments induced remarkable increases in lipid peroxidation and mitochondrial reactive oxygen species (ROS) generation paralleled by the loss of mitochondrial membrane potential, microtubule-associated protein-2 (MAP-2) in neuronal soma and rattin peptide in cultured cells. Addition of tetramethylpyrazine in the cultures efficiently attenuated the signs of oxidative stress and retained abundance of MAP-2 and rattin in association with cell survival. In addition, siRNA-mediated downregulation of MAP-2 or rattin significantly increased the vulnerability of retinal neurons or the number of degenerating cells in the cultures, respectively, whereas exogenous humanin peptide, an analog of rattin, promoted cell survival in cultures under hydrogen peroxide attacks. These results suggest that tetramethylpyrazine protect retinal cells through multiple pathways and might be a potential therapeutic candidate for retinal protection in certain optic neuropathies.     

Characteristics of the splenic suppressor cell--target cell interaction in experimental African trypanosomiasis

We have examined further the relationship between immunosuppression and suppressor cell activity in experimental African trypanosomiasis. In the present study we describe the nature of the interaction between splenic suppressor macrophages from Trypanosoma rhodesiense-infected C57BL/6 mice and target effector cells in the primary in vitro PFC response to SRBC. Suppressor cell potential was expressed only when cell-cell contact of a noncytolytic nature was established between infected spleen cells and normal splenic responder cells. Isolation of suppressor cells from responder cells by a cell-impermeable membrane completely abrogated suppression. Similarly, supernatant fluids from infected spleen cell cultures could not passively transfer suppression. Suppressor cells did not act via prostaglandin synthesis in that indomethacin failed to restore responsiveness to infected spleen cells or to passively suppressed normal cultures. Inhibition of DNA synthesis by irradiation of mitomycin C treatment did not block suppressor cell function, but suppressor cell effects were inhibited by exposure of infected spleen cells to silica particles or to heat treatment. We conclude that suppressor cell effects in experimental African trypanosomiasis are consistent with a suppressor macrophage acting via a noncytolytic cell-cell interaction with responder target cells.     

Differential ability of human immunodeficiency virus isolates to productively infect human cells

Isolates of HIV showed distinct differences in the ability to replicate in continuous human hematopoietic cell lines. Moreover, although all PMC cultures obtained from healthy individuals could be infected with HIV, considerable variation in the amount of virus released from different PMC cultures was observed. These biological properties of HIV could not be correlated with clinical state, binding properties of the virus isolates to target cells, or differences in target cell CD4 antigen expression. Some isolates of HIV that could not directly infect the HUT-78 cell line showed productive infection when PMC infected with these viruses were added to this human T cell line. These observations emphasize the importance of cell to cell contact in the spread of virus. The results demonstrate for the first time the differences in the host range specificity of HIV isolates in several individual PMC cultures, and indicate that the optimal isolation of HIV is achieved with normal human PMC rather than established human cell lines.     

Suppression of interferon synthesis by the pesticide carbaryl as a mechanism for enhancement of goldfish virus-2 replication

Interferon production was demonstrated by the goldfish-derived CAR cell line in response to infection by goldfish virus-2. Supernatants of infected cultures provided antiviral protection to CAR cells and another cell line derived from goldfish, ABIII. The protective factor retained activity after ultracentrifugation, dialysis, freezing and thawing, acid treatment (pH 2), or heating to 56 degrees C but was sensitive to trypsin. Supernatants of infected cultures did not affect adsorption of virus. Previous studies have shown that replication of goldfish virus type 2 is enhanced by pretreatment of cultures with subcytotoxic concentrations of carbaryl. In the present study, pesticide-treated cultures were found to synthesize reduced levels of interferon.