Effects of T-lymphocytes and interferon-γ on different stages of development of multicellular tumor spheroids in vitro

The effect of T lymphocytes and interferon-γ on the vital activity of breast cancer cell population and the formation of multicellular tumor spheroids was studied. The stages of multicellular tumor spheroid formation and the possible ways for realizing the antitumor effects of T lymphocytes and interferon-γ through changes in the expression of estrogen receptors were demonstrated. The results have shown a correlation between the type of humoral effects and the level of expression of estrogen receptor and epidermal growth factor receptor and the intensity of tumor microaggregate formation.     

Hofmeister salts and potential therapeutic compounds accelerate in vitro fibril formation of the N-terminal domain of PABPN1 containing a disease-causing alanine extension

The analysis of modulation of fibril formation helps to understand the mechanism of fibrillation processes besides opening routes for therapeutic intervention. Fibril formation was investigated with the N-terminal domain of the nuclear poly-A binding protein PABPN1, a protein in which mutation-based alanine extensions lead to the disease oculopharyngeal muscular dystrophy (OPMD). The disease is characterized by fibrillar inclusions consisting mainly of PABPN1. A systematic modulation of fibril formation kinetics was studied with trifluoroethanol, inorganic salts, low molecular weight organic substances, a poly-alanine peptide and anti-amyloidogenic compounds. Anions with salting out properties at high molar concentrations, poly-ethylene glycol and the poly-alanine peptide enhanced fibril formation rates. The effect of l-arginine on fibrillation rates depended on the counterion. Doxycycline and trehalose, compounds that have been found to mitigate OPMD symptoms in animal models, surprisingly accelerated fibril formation. Our results suggest that in the case of salts, primarily the salting out effects rather than electrostatic effects modulate fibril formation. The unexpected acceleration of fibril formation by trehalose and doxycycline questions the general view that these compounds per se impair fibril formation.     

Reversible inhibition of cAMP-induced axon formation in neuroblastoma cells by concanavalin a and vinblastine : Relationship to microtubules and cytotoxicity

The formation of axons induced by dibutyryl-adenosine 3′,5′-cyclic monophosphate (db-cAMP) in neuroblastoma cells was inhibited by concanavalin A (ConA) and vinblastine. These compounds also caused the retraction of existing axons. After removal of ConA or vinblastine, addition of db-cAMP again resulted in axon formation. The cytotoxicity of ConA and vinblastine for neuroblastoma cells was reduced when cell multiplication was inhibited by db-cAMP. Linearly growing normal fibroblasts were also more sensitive to the cytotoxic effect of ConA than confluent non-multiplying fibroblasts. The effects of ConA and vinblastine were additive both in their effects on axon formation and cytotoxicity. Wheat germ agglutinin (WGA) and lumicolchicine did not affect axon formation or reduce cell viability. It is suggested that ConA bound to the cell surface can interfere with the assembly of cytoplasmic microtubules involved in axon formation and cell division.     

Voltage-dependent formation of gramicidin channels in lipid bilayers.

The formation kinetics of gramicidin A channels in lipid bilayer membranes has been characterized as a function of voltage for different solution conditions and membrane composition. The frequency of channel events was measured during the application of voltage ramps and counted in given intervals, a procedure that eliminated the effects of drift in gramicidin concentration. The formation rate was found to increase strongly with voltages up to approximately 50 mV and then to level off slightly. The shape of the voltage dependence was independent of lipid solvent and ramp speed but differed for different ions and different solution concentrations. This suggested an ion occupancy effect on the formation rate that was further supported by the fact that the minimum of the formation rate was shifted toward the equilibrium potential in asymmetric solution concentrations. The effects are explained in terms of a model that contains two contributions to the voltage dependence, a voltage-dependent ion binding to the monomers and a polarization of monomers by the applied electric field and by the occupied ions. The theory is found to give a good fit to experimental data.     

Cyclic AMP and Ca2+ as regulators of zygote formation in the cellular slime mold Dictyostelium mucoroides

To analyze the mechanism of the sexual process (macrocyst formation) in the cellular slime mold Dictyostelium mucoroides-7 (Dm7), the effects of 3',5'-cyclic adenosine monophosphate (cAMP), conditioned medium (CM) factors, and various ions including Ca2+ on zygote formation were examined. The application of cAMP was found to inhibit the sexual cell fusion. In addition, the activity of fusion inhibitor(s) contained in CM was heat stable and lost by phosphodiesterase (PDE)-treatment, thus indicating that cAMP is the inhibitor, being in contrast to ethylene as a fusion activator. Pulse experiments using two cAMP analogues, 2'-deoxy-cAMP and 8-bromo-cAMP suggested that the signal transduction system through the cell surface cAMP receptor is of particular importance for regulation of the sexual fusion process. Among several ions having effects on zygote formation, Ca2+ seemed to be necessary both for the acquisition of fusion competence and for cell fusion itself. In the presence of Ca2+, K+ and Na+ had the opposite effects on zygote formation; K+ was stimulative, while Na+ inhibitory. The significance of these findings is discussed in relation to the regulatory mechanism of zygote formation.     

Effects of neutral salts on the conformational state of glycogen, interacting with iodine

The effects of salts on helix formation of linear (outer) chains of branched alpha-glucane, muscle glycogen, was judged upon by the state of polyiodine chromophore of the iodine reaction surrounded by a polysaccharide asymmetric helix and recorded by the circular dichroism method. It was demonstrated that apart from the known changes in the absorption of the iodine-glycogen complex the salts induce changes in the ellipticity by affecting the helix formation of the linear chains of the polysaccharide. The nature of these effects depends on the type and concentration of the salt used. Monovalent metal salts produce a more favourable effect on helix formation than the divalent metal salts. Among divalent metal salts transient metal salts produce a weaker effect. The action of neutral salts on helix formation is of dual nature: helix formation and helix destruction. The helix formation is largely impaired by high concentrations of LiCl (greater than 6 M) or CaCl2 (greater than 2M). It was shown that a certain role in the mechanism of neutral salt action on helix formation belongs both to electrostatic and lyotropic effects. The latter determine the effects of salts on helix formation at concentrations above the monomolar one, when the specific effect of a salt is especially well-pronounced. The salts which enhance the orderliness of H2O structure produce a favourable effect on helix formation of the linear polysaccharide chains and, consequently, on the iodine reaction. In terms of molar efficiency of their action on the iodine reaction the salts correspond to the Hofmeister lyotropic sequence.     

The effect of inhibitors on the formation of phosphoenolpyruvate by rat liver mitochondria

1. Rat liver mitochondria oxidizing malate produce PEP (phosphoenolpyruvate) without the addition of ATP or other nucleotides. 2. The addition of oligomycin in the presence of 2,4-dinitrophenol did not abolish PEP formation and in some instances stimulated its formation. 3. Formation of PEP was inhibited by arsenate. 4. Arsenite decreased PEP formation and caused accumulation of pyruvate. 5. Added GTP and ITP had no effect on PEP formation. 6. PEP formed from malate in the presence of GTP and labelled P(i) had a specific radioactivity approximately the same as the P(i) with no contribution from the phosphate of the added GTP. 7. There was no parallelism between the effects of inhibitors on PEP formation from malate and their effects on the assayed activity of PEP carboxykinase. 8. In a direct comparison it was shown that the PEP carboxykinase content of mitochondria was insufficient to account for the PEP formation from malate. 9. Consideration of the kinetic characteristics of PEP carboxykinase and mitochondrial content of oxaloacetate and GTP show that this enzyme cannot account for the PEP formed from malate by mitochondria.     

Enhancement of radiation effects by mercury in early postimplantation mouse embryos in vitro

Summary Two-cell mouse embryos were X-irradiated (1 Gy) and immediately thereafter exposed to mercuric chloride (3 µM) up to the blastocyst stage. When combined treatment started shortly (about 1 to 2 h) before mitosis to the four-cell stage, blastocyst formation, hatching of blastocysts, trophoblast outgrowth and ICM formation were impaired stronger than expected from the addition of the single effects. The enhancement of risk was maximal for hatching of blastocysts and no further increase was observed for trophoblast outgrowth and ICM formation. When exposure of embryos to X-rays and mercury began about 5 to 6 h before mitosis to the four-cell stage, only additive effects were obtained for the endpoints mentioned above.     

Nutritional factors determining sclerotial formation of Polyporus umbellatus

Aims:  To find out which nutritional condition is the determining factor for sclerotial formation of Polyporus umbellatus .
Methods and Results:  The nutritional requirements of 15 carbohydrates, ten nitrogen compounds, eight vitamins and eight mineral elements were studied for their effects on mycelial growth and sclerotial formation of Polyporus umbellatus using the one-factor-at-a-time method. Only fructose could induce sclerotial formation of P. umbellatus . An additional test indicated that nitrogen source categories influenced sclerotial formation significantly and that peptone was found to be the best for sclerotial production. Through an orthogonal matrix test, the effects of carbon/nitrogen factors on sclerotial formation were found be in the order: fructose > interaction between fructose and peptone > peptone. The optimal concentration for sclerotial formation was determined to be 50·0 g l⁻¹ fructose and 4·0 g l⁻¹ peptone.
Conclusions:  Carbon source is the factor determining sclerotial formation of Polyporus umbellatus . Nitrogen source can influence such a morphological transformation significantly. The categories of vitamin and mineral element do not have relationship with the sclerotial formation.
Significance and Impact of the Study:  This study provides the preparatory knowledge for the completely artificial culture of Polyporus umbellatus for its sclerotium.     

Biofilm-defective mutants of Bacillus subtilis

Many bacteria can adopt organized, sessile, communal lifestyles. The gram-positive bacterium, Bacillus subtilis,forms biofilms on solid surfaces and at air-liquid interfaces, and biofilm development is dependent on environmental conditions. We demonstrate that biofilm formation by B. subtilis strain JH642 can be either activated or repressed by glucose, depending on the growth medium used, and that these glucose effects are at least in part mediated by the catabolite control protein, CcpA. Starting with a chromosomal Tn917-LTV3 insertional library, we isolated mutants that are defective for biofilm formation. The biofilm defects of these mutants were observable in both rich and minimal media, and both on polyvinylchloride abiotic surfaces and in borosilicate tubes. Two mutants were defective in flagellar synthesis. Chemotaxis was shown to be less important for biofilm formation than was flagellar-driven motility. Although motility is known to be required for biofilm formation in other bacteria, this had not previously been demonstrated for B. subtilis. In addition, our study suggests roles for glutamate synthase, GltAB, and an aminopeptidase, AmpS. The loss of these enzymes did not decrease growth or cellular motility but had dramatic effects on biofilm formation under all conditions assayed. The effect of the gltAB defect on biofilm formation could not be due to a decrease in poly-gamma-glutamate synthesis since this polymer proved to be nonessential for robust biofilm formation. High exogenous concentrations of glutamate, aspartate, glutamine or proline did not override the glutamate synthase requirement. This is the first report showing that glutamate synthase and a cytoplasmic aminopeptidase play roles in bacterial biofilm formation. Possible mechanistic implications and potential roles of biofilm formation in other developmental processes are discussed.     

Nuclear genes affecting albinism in wheat (Triticum aestivum L.) anther culture

Summary Inheritance of the ability to respond in wheat anther culture was studied from 6×2 reciprocal crosses between six varieties with high and two varieties with low capacity for green plant formation and their parents, replicated in two environments. Effects of genotypes dominated embryo formation and percentages of green plants, accounting for 78.4% and 85.4% of total variation, respectively, while smaller genetic effects were indicated for regeneration. Nuclear genes could explain almost all the genotype effects in this material. Embryo formation showed heterosis over high parent for 5 of the 12 hybrids, while percentages of green plants from the hybrids were intermediate to the parents. General Combining Ability (GCA) could explain 78.8% of the variation for embryo formation among the hybrids, whereas differences in percentage of green plants were dominated by Specific Combining Ability (SCA), accounting for 67.9% of hybrid variation. A positive correlation (r=0.81^**) was observed between the genetic capacity for regeneration and green plant formation. Analysis of covariance indicated that effects causing GCA for green plant formation were mainly responsible for this correlation. A regression model with two parallel lines divided the six parent lines with high green plant formation into three groups with respect to their reactions with the two testers. The results are discussed with regard to possible involvement of two sets of nuclear genes affecting the percentage of green plants obtained in wheat anther culture: one set consisting of mainly additive effects affecting green plant percentage through an initial effect on regeneration ability, and another set of two or a few more major genes with dominance or epistatic effects uncorrelated with regeneration.     

Role of cAMP-dependent protein kinase in the regulation of platelet procoagulant activity

The membrane microparticle (MP) formation and phosphatidylserine (PS) exposure evoked by platelet activation provide catalytic surfaces for thrombin generation. Several reports have indicated the effects of cAMP-elevating agents on agonist-induced MP formation and PS exposure; however, the mechanism still remains unclear. Here we show that inhibition of basal cyclic AMP-dependent protein kinase (PKA) activity incurred platelet MP formation and PS exposure. Pretreatment of platelets with cAMP-elevating agent, forskolin, abolished thrombin plus collagen-induced MP formation and PS exposure, and obviously decreased calcium ionophore-evoked MP shedding. Moreover, the inhibitory effects of forskolin on agonists-induced MP formation and PS exposure were reversed by the PKA inhibitor H89. PKA inhibitor-induced MP formation was dose-dependently inhibited by calpain inhibitor MDL28170, and forskolin abrogated thrombin plus collagen-induced calpain activation. In conclusion, PKA plays key roles in the regulation of platelet MP formation and PS exposure. PKA-mediated MP shedding is dependent on calpain activation.     

Isomer-specific effects of conjugated linoleic acid on mineralized bone nodule formation from human osteoblast-like cells

Mixed isomers of conjugated linoleic acid (CLA) have been shown to have variable effects on bone formation and resorption in animals. The variable effects of CLA on bone physiology may be due to the different isomers present in common commercial preparations of CLA, and the effects of the predominant individual isomers (9cis,11trans and 10trans,12cis CLA) are not clear. The objective of this study was to determine the effects of individual and mixed isomers of CLA on mineralized bone nodule formation and alkaline phosphatase (ALP) activity in vitro using long-term cultures of SaOS-2 cells. Mineralized bone nodules were stained using the von Kossa method, and ALP activity in cell lysates was measured as a marker of early osteoblast differentiation. The 9cis,11trans isomer increased the number (~4- to 11-fold) and size (~2- to 5-fold) of mineralized bone nodules from 25 to 100 microM, but the 10trans,12cis isomer did not. The increase in mineralized bone nodule formation by 9cis,11trans CLA was accompanied by a variable increase in ALP activity. These results show that the 9cis,11trans isomer of CLA increases the formation of mineralized bone nodules using bone cells of human origin, and provide evidence for isomer-specific effects of CLA on bone health.     

Effect of zinc on superoxide-dependent hydroxyl radical production in vitro

Trace elements play an important role in oxygen metabolism and therefore in the formation of free radicals. Whereas iron and copper are usually the main enhancers of free radical formation, other trace elements, such as zinc and selenium, protect against the harmful effects of these radicals. To investigate the different protective mechanisms of zinc on radical formation, we examined the effects of added zinc and copper on superoxide dismutase activity. We also studied the effects of copper and iron on xanthine oxidase activity and on the Haber-Weiss cycle (iron, superoxide, and hydrogen peroxide), which generates hydroxyl radicals in vitro. The hypoxanthine/xanthine oxidase radical generating system contained a variety of different physiological ligands for binding the iron. This study confirmed the inhibitory effect of copper on xanthine oxidase activity. Moreover, it demonstrated that zinc inhibited hydroxyl radical formation when this formation was catalyzed by a citrate-iron complex in the hypoxanthine/xanthine oxidase reaction. Finally, human blood plasma inhibited citrate-iron-dependent hydroxyl radical formation under the same conditions. Although trace elements seemed responsible for this antioxidant activity of plasma, it is likely that zinc played no role as a plasma antioxidant. Indeed, calcium appeared to be responsible for most of this effect under our experimental conditions.     

Prevention of the in vitro myelosuppressive effects of glucocorticosteroids by interleukin 1 (IL 1)

We investigated the effects of dexamethasone on the formation of granulocyte/macrophage colonies by murine bone marrow cells cultured with colony-stimulatory factors (CSF) in semisolid agar. Dexamethasone (10(-7) M) completely inhibited the formation of colonies in response to L929 CSF but had no effect on the response to CSF in the culture supernatants of the murine macrophage cell line, PU5-1.8. We postulated that a cofactor, interleukin 1, present in the PU5-1.8 supernatants was responsible for protecting colony formation against steroid suppression. Interleukin 1, isolated from culture supernatants of PU5-1.8 and from culture supernatants of human acute monocytic leukemia cells, blocked the inhabitory effects of dexamethasone on colony formation in response to L929 CSF. Moreover, dexamethasone inhibited colony formation in response to PU5-1.8 culture supernatants when interleukin 1 was absent. We also examined interleukin 2 for possible protective effects. Although crude interleukin 2 preparations (supernatants of spleen cells cultured with concanavalin A) blocked dexamethasone inhibition, purified interleukin 2 had no protective effects. These data indicate that interleukin 1 protects colony formation by a pathway that is independent of interleukin 2 and that supernatants of spleen cells activated with concanavalin A probably contain significant amount of interleukin 1.     

On the interaction site of serine acetyltransferase in the cysteine synthase complex from Escherichia coli

Cysteine synthase from Escherichia coli is a bienzyme complex comprised of serine acetyltransferase (SAT) and O-acetylserine sulfhydrylase A. The site of interaction of a SAT molecule was investigated by gel chromatography and surface plasmon technique using various mutant-type SATs, to better understand the mechanism involved in complex formation. The C-terminus of SAT, Ile 273, along with Glu 268 and Asp 271, was found to be essential for complex formation. The effects of O-acetyl-L-serine and sulfide on the affinity for the complex formation were also studied using a surface plasmon technique.     

Risk to preimplantation mouse embryos of combinations of heavy metals and radiation

The influence of arsenic, cadmium, lead or mercury on radiation risk to preimplantation mouse embryos in vitro was studied under various conditions. Morphological development, cell proliferation, and formation of micronuclei were used for assessment of risk after combined exposure to these metals and X-rays. No conditions were found under which arsenic altered radiation risk; the effects were merely additive. Cadmium acted similarly, though a few results indicated that morphological development might be impaired more strongly after combined exposure than expected from the addition of the single effects. Lead enhanced radiation risk with regard to micronucleus formation, but had an additive effect only in the case of morphological development and cell proliferation. Of all four metals, mercury had the greatest potential for enhancement of radiation risk, when morphological development and cell proliferation were studied. The observed combination effects exceeded even those effects which were calculated by taking into account the shape of the dose-effect curves (isobologram analysis, envelope of additivity). Mercury neither induced micronuclei nor enhanced their formation in combination experiments.     

Endocrine regulations of ovarian maturation in the cockroach Blaberus discoidalis

The first gonotrophic cycle of oocyte maturation was defined for virgin Blaberus discoidalis cockroaches. A high correlation was found between growth of the basal oocytes and increased ovarian protein content. Allatectomy blocked ovarian protein formation, whereas JH-III administration compensated for the loss of the corpora allata. Experiments involving neuro-endocrine surgery and hormone replacement therapy indicated that JH, alone, could stimulate ovarian protein formation; however, the addition of neuroendocrine extracts enhanced the JH effects. The data suggest that both JH and neurohormones stimulate aspects of ovarian protein formation in this insect.     

Néoformation caulinaire et radiculaire chez les fragments de feuille deBegonia rex Putz.: Action de divers facteurs régulateurs trophiques et d'environnement

The effects of several growth and trophic substances on bud and root neoformation on leaf fragments ofBegonia rex were studied in precisely defined environmental conditions. IAA, depending on the type of treatment, had different effects. In aseptic cultures, a notable stimulation of bud formation was observed at certain concentrations. However, non aseptic treatments of IAA had no visible effects except at very high concentrations.(10^?3 M) where bud formation was totally inhibited and root formation was favored. NAA, at 10^?6 M and 10^?5 M strongly stimulated root formation and inhibited shoot formation. All the cytokinins used stimulated bud formation and inhibited partially or totally root formation. Gibberellic acid inhibited bud and root formation. Glucose and sucrose clearly stimulated bud and root formation and sucrose, when applied simultaneously with other growth substances, modified the effects of these substances alone. The most favorable environmental conditions were at 24°C in a 24 h photoperiod but other temperatures (17 to 27°C) and photoperiods (9 or 16 h) did not prevent neoformation.