Action of cyclic adenosine monophosphate on the spleen antibody--forming cells of rabbits immunized with Escherichia coli]

Cyclic adenosine monophosphate (cAMP) parenterally injected to rabbits (immunized intraperitoneally with thymus-independent antigen of killed E. coli 0127/545) during January--April inhibited production of antibody-forming cells (AFC) in the spleen of these animals, and during May--June it increased the AFC count. Both the stimulating and inhibitory effect of cAMP was associated with the administration of the same doses of 25--250 microgram/kg. The nature of the cAMP effect on the production of the AFC depends on the initial immune response level. At the maximum immune response and in the absence of the dose-effect dependence cAMP inhibited the antibody formation, but when the immunological reaction was below the maximal level and in the presence of the dose-effect relationship cAMP increased the AFC production.     

Influence of colchicine and vinblastine on the intracellular migration of secretory and membrane glycoproteins: III. Inhibition of intracellular migration of membrane glycoproteins in rat intestinal columnar cells and hepatocytes as visualized by light and electron-microscope radioautography after 3H-fucose injection

In the first paper of this series (Bennett et al., 1984), light-microscope radioautographic studies showed that colchicine or vinblastine inhibited intracellular migration of glycoproteins out of the Golgi region in a variety of cell types. In the present work, the effects of these drugs on migration of membrane glycoproteins have been examined at the ultrastructural level in duodenal villous columnar cells and hepatocytes. Young (40 gm) rats were given a single intravenous injection of colchicine (4.0 mg) or vinblastine (2.0 mg). At 10 min after colchicine and 30 min after vinblastine administration, the rats were injected with 3H-fucose. Control rats received 3H-fucose only. All rats were sacrificed 90 min after 3H-fucose injection and their tissues processed for radioautography. In duodenal villous columnar cells, 3H-fucose labeling of the apical plasma membrane was reduced by 51% after colchicine and by 67% after vinblastine treatment; but there was little change in labeling of the lateral plasma membrane. Labeling of the Golgi apparatus increased. This suggests that labeled glycoproteins destined for the apical plasma membrane were inhibited from leaving the Golgi region, while migration to the lateral plasma membrane was not impaired. In hepatocytes, labeling of the sinusoidal plasma membrane was reduced by 83% after colchicine and by 85% after vinblastine treatment. Labeling of the lateral plasma membrane also decreased, although not so dramatically. Labeling of the Golgi apparatus and neighboring secretory vesicles increased. This indicates that the drugs inhibited migration of membrane glycoproteins from the Golgi region to the various portions of the plasma membrane. Accumulation of secretory vesicles at the sinusoidal front suggests that exocytosis may also have been partially inhibited. In both cell types, microtubules almost completely disappeared after drug treatment. Microtubules may, therefore, be necessary for intracellular transport of membrane glycoproteins, although the possibility of a direct action of these drugs on Golgi or plasma membranes must also be considered.     

The immunity indices of rats after the long-term action of tritium oxide or gamma irradiation

In experiments with Wistar rats, a study was made of the content of antibody-forming cells and cytotoxic activity of normal killers after long-term administration of tritium oxide (3HOH) (370 kBq.g-1 of body mass daily, cumulative dose, 8.1 Gy, and dose rate, 8.5 cGy/day), and after gamma irradiation with corresponding doses. The long-term radiation effect caused a decrease in the immunity indices: the impairment of the immune reactions was more pronounced after the effect of 3HOH than after gamma irradiation. Damages to the immune system of mice and rats after irradiation with similar doses were compared.     

DOES COLCHICINE AFFECT AGGREGATION OF NORMAL AND TRANSFORMED BHK CELLS DIFFERENTLY?

The effect of colchicine and vinblastine on cell aggregation was studied, using BHK cells and their transformed derivatives (pyBHK cells). When cells were dissociated with EDTA and the assay was made in a Ca²⁺-containing medium, the aggregation of transformed cells was prevented by colchicine and vinblastine, whereas the aggregation of normal cells was unaffected. When a Ca²⁺-free medium was used for aggregation, neither type of cell was influenced by these drugs. BHK and pyBHK cells, dissociated by trypsin in the presence of Ca²⁺, can aggregate only in the Ca²⁺-containing medium and the aggregation of both cell types was equally prevented by colchicine and vinblastine. Based on these results, it was concluded that colchicine and vinblastine inhibited the Ca²⁺-dependent mechanism of cell adhesion, but not the Ca²⁺-independent one which occurs in the Ca²⁺-free aggregation medium.     

Relation of the formation of producers of antigen-dependent nonspecific immunoglobulins to the dose of T-dependent and T-independent antigens

The dependence of the production of antibody-forming cells (AFC) and non-specific immunoglobulin-forming cells (nIFC) on the doses of T-dependent (sheep red blood cells, SRBC) and T-independent (polyvinylpyrrolidone, PVP and pneumococcal polysaccharide SSS III) antigens was investigated. The immunization of BALB/c mice with immunogenic or subimmunogenic doses of SRBC and PVP induced a marked increase in the number of antigen-dependent nIFC. In contrast, the injection of any SSS III doses did not influence the amount of nIFC, although a specific immune response to SSS III was quite obvious. Thus, two T-independent antigens, type II, differ in their ability to induce non-specific immune reactions. The experiments on simultaneous administration of monoclonal anti-Thy-1.2 antibodies and PVP or SSS III to mice have demonstrated that these differences were not related to T-suppressor activity. The possible role of T helpers in the immune response to T-independent antigens is discussed.     

Effect of colchicine, vinblastine, and cytochalasin B on cell surface anionic sites of Tritrichomonas foetus

Drugs that interact with microtubules (colchicine and vinblastine) and microfilaments (cytochalasin B) partially inhibited cell growth and motility of Tritrichomonas foetus. Parasites incubated with these substances became rounded and cell division was blocked. Neither colchicine nor vinblastine disrupted the microtubules that form the peltar-axostylar system. Any one of these drugs interfered with the net negative surface charge of T. foetus as evaluated by determination of the cellular electrophoretic mobility (EPM). The decrease in the EPM of cytochalasin B-treated cells was caused by dimethylsulfoxide, which was used as solvent. Untreated cells as well as cytochalasin B-treated cells showed a uniform distribution of anionic sites on the plasma membrane as seen with cationized ferritin particles. In cells treated with colchicine or vinblastine the anionic sites were distributed in patches. These results are discussed in terms of participation of labile cytoplasmic microtubules and microfilaments in the control of the distribution of anionic site-containing macromolecules located on the cell surface of T. foetus.     

Effects of antimicrotubular agents in cAMP production and in steroidogenic response of isolated rat Leydig cells

In dispersed rat Leydig cells, colchicine was found to stimulate basal cAMP production and testosterone secretion in a dose and time-dependent manner, but to a lesser extent than LH. However, these drugs are unable to stimulate adenylate cyclase activity in plasma membranes isolated from these cells. The amount of testosterone secreted at 150 min under the influence of colchicine and LH added simultaneously was not different from the amount produced during stimulation by LH alone. It is only after exposure of the cells for 1 hr to colchicine that the accumulation of cAMP in response to LH was inhibited; furthermore, both intracellular and medium testosterone accumulation in response to the hormone were reduced. Similar effects were observed with two other alkaloids, vinblastine and podophyllotoxin. The three drugs also inhibited the stimulation of testosterone secretion by 8-Br-cAMP or choleratoxin. These studies suggest that the state of microtubule polymerization and/or tubulin can influence the process of steroidogenesis in rat Leydig cells.     

Influence of colchicine and vinblastine on the intracellular migration of secretory and membrane glycoproteins: II. Inhibition of secretion of thyroglobulin in rat thyroid follicular cells as visualized by radioautography after 3H-fucose injection

Young (40 gm) rats were given a single intravenous injection of colchicine (4.0 mg) or vinblastine (2.0 mg). At 10 min after colchicine and 30 min after vinblastine administration, the rats were injected with 3H-fucose. Control rats received 3H-fucose only. All rats were sacrificed 90 min after 3H-fucose injection and their tissues processed for radioautography. In thyroid follicular cells of control animals, at this time interval, 57% of the total label was associated with colloid and secretory vesicles in the apical cytoplasm while 27% was localized in the Golgi apparatus and neighboring vesicles. In experimental animals, the proportion of label in colloid and apical vesicles was reduced by more than 69% after colchicine and more than 83% after vinblastine treatment. The proportion of label in the Golgi region, on the other hand, increased by more than 125% after colchicine and more than 179% after vinblastine treatment. Within the Golgi region, the great majority of the label was associated with secretory vesicles which accumulated adjacent to the trans face of the Golgi stacks. It is concluded that the drugs do not interfere with passage of newly synthesized thyroglobulin from the Golgi saccules to nearby secretory vesicles, but do inhibit intracellular migration of these vesicles to the cell apex. In most cells the number of vesicles in the apical cytoplasm diminished, but this was not always the case, suggesting that exocytosis may also be partially inhibited. The loss of microtubules in drug-treated cells suggests that the microtubules may be necessary for intracellular transport of thyroglobulin.     

Inhibition of delayed hypersensitivity reactions in mice by colchicine. I. Mechanism of inhibition of contact sensitivity in vivo

Colchicine has been recently shown to inhibit delayed hypersensitivity reactions (DHR). In the present study we investigated the effects of colchicine on contact sensitivity (CS) to dinitrofluorobenzene. Colchicine, at a dosage level of 15 micrograms/mouse, inhibited the elicitation of the contact response only when given on the day of ear challenge. Administration of the drug during the induction phase did not have any effect on the CS reaction. By using adoptive transfer experiments, we could demonstrate that CS was suppressed only when colchicine was given to the recipient mice, while treating the donors of immune lymph node cells (I-LNC) did not affect their ability to transfer a significant DHR. These findings were observed also when I-LNC were directly injected into the ears, a result which indicated that there was no effect of the drug on the ability of effector cells to migrate to the site of antigen challenge. Neither was there any effect on the distribution of T cell subsets in peripheral lymph nodes. The proliferative response of LNC to antigenic or mitogenic stimulation in vivo or in vitro was also not affected by colchicine pretreatment. These findings raise major questions about the mechanism of action of colchicine in vivo and suggest that more experimentation is required to probe the mechanism of colchicine-induced suppression of DHR.     

Transport properties of P-glycoprotein in plasma membrane vesicles from multidrug-resistant Chinese hamster ovary cells.

Multidrug resistant (MDR) cells overexpress a 170-180 kDa membrane glycoprotein, the P-glycoprotein, which is believed to export drugs in an ATP-dependent manner. Plasma membrane vesicles from the MDR CHRC5 cell line, but not the AuxB1 drug-sensitive parent, showed uptake of [3H]colchicine and [3H]vinblastine that was stimulated by the presence of ATP and an ATP-regenerating system. Steady-state uptake of drugs was achieved by 10 min and was stable for greater than 30 min. Non-hydrolysable ATP analogues were unable to support drug uptake, indicating that ATP hydrolysis is essential for transport. ATP-stimulated drug uptake appeared to result from drug transport into inside-out vesicles, since uptake was osmotically sensitive and could be prevented by detergent permeabilization. Steady-state uptake was half-maximal at 100 microM colchicine and 200 nM vinblastine and was inhibited by a 10-100-fold excess of MDR drugs and chemosensitizers, in the order vinblastine greater than verapamil greater than daunomycin greater than colchicine. In addition to being vanadate-sensitive, drug uptake was inhibited by 10-200 microM concentrations of several sulfhydryl-modifying reagents, suggesting that cysteine residues play an important role in drug transport. Vesicular colchicine was rapidly exchanged by an excess of unlabelled drug, demonstrating that drug association is the net result of opposing colchicine fluxes across the membrane.     

Tumor cell killing by macrophages activated in vitro with lymphocyte mediators. III. Inhibition by cytochalasins, colchicine, and vinblastine.

The effect of cytochalasin A and B, colchicine and vinblastine on tumor cell killing by macrophages activated in vitro with lymphocyte mediators was examined. Both cytochalasins reversibly inhibited the killing of tumor cells by activated macrophages. Kinetic studies with cytochalasin B suggested that this drug exerts its effect on an early step of the cytotoxic process. Additional studies revealed that the drug inhibited the binding of tumor cells by activated macrophages.Colchicine inhibited both the binding and the killing of tumor cells by activated macrophages, whereas its structural analogue, lumicolchicine, had no effect on either macrophage function.Vinblastine also inhibited the binding and killing of tumor cells. However, this drug no longer inhibited tumor cell binding at low concentrations (<10^?6M) that still inhibited tumor cell killing. Further, vinblastine inhibited tumor cell killing when added late to an ongoing cytolytic reaction.These results suggest that the cytochalasins, colchicine and vinblastine inhibit macrophage mediated cytotoxicity by preventing intimate contact between the effector macrophages and their targets. In addition, vinblastine also appears to inhibit a later step of the cytolytic process, possibly the secretion of a cytotoxic macrophage product.     

Evidence for involvement of microtubules in the action of vasopressin in toad urinary bladder

Colchicine, podophyllotoxin and vinblastine have been found to inhibit the action of vasopressin on water movement in the toad urinary bladder. Tubulin is the major colchicine binding component of toad bladder epithelial cells, accounting for approximately 3.3% of the total cell protein. More than 99% of the tubulin is found in the soluble fraction after sonication, the remainder is in the particulate fraction. Similar to the characteristics of the binding of colchicine to tubulins from other sources, the binding of colchicine to toad bladder tubulin is temperature- and time-dependent, is inhibited competitively by podophyllotoxin (Ki= 5.5 x 10(-7)m), and has a binding constant of 1 X 10(6) liters/mole at 37 degrees. Binding activity decays according to first-order kinetics and is stabilized by vinblastine. The characteristics of the interactions of colchicine and podophyllotoxin with epithelial cell tubulin in vitro closely parallel the ability of these drugs to inhibit the response to vasopressin in vivo. These results, coupled with those of functional and morphological studies, support the view that the ability of these drugs to affect vasopressin-induced water movement across toad bladder epithelial cells is related to the depolymerization of cytoplasmic microtubules.     

Effect of Colchicine,Vinblastine, and Cytochalasin B on Cell Surface Anionic Sites of Tritrichomonas foetus1

ABSTRACT. Drugs that interact with microtubules (colchicine and vinblastine) and microfilaments (cytochalasin B) partially inhibited cell growth and motility of Tritrichomonas foetus. Parasites incubated with these substances became rounded and cell division was blocked. Neither colchicine nor vinblastine disrupted the microtubules that form the peltar-axostylar system. Any one of these drugs interfered with the net negative surface charge of T. foetus as evaluated by determination of the cellular electrophoretic mobility (EPM). The decrease in the EPM of cytochalasin B-treated cells was caused by dimethylsulfoxide, which was used as solvent. Untreated cells as well as cytochalasin B-treated cells showed a uniform distribution of anionic sites on the plasma membrane as seen with cationized ferritin particles. In cells treated with colchicine or vinblastine the anionic sites were distributed in patches. These results are discussed in terms of participation of labile cytoplasmic microtubules and microfilaments in the control of the distribution of anionic sitecontaining macromolecules located on the cell surface of T. foetus.     

Effects of colchicine, vinblastine and nocodazole on polarity, motility, chemotaxis and cAMP levels of human polymorphonuclear leukocytes

We present evidence for intrinsic polymorphonuclear leukocyte (PMN) polarity manifested in presence of microtubule-disrupting drugs. Polarization in response to colchicine correlated with the known dose-dependent effects of this drug on microtubule disassembly. The response to 10(-5) M colchicine, 10(-5) M vinblastine and 10(-6) M nocodazole was associated with stimulated motility and random locomotion. Responses elicited by microtubule-disrupting drugs differed from f-Met-Leu-Phe (fMLP)-induced polarization by functional and morphological criteria. Polarization, motility and orthokinesis responses were much weaker. Furthermore, ruffling was almost absent in PMNs polarized in response to colchicine, vinblastine or nocodazole. The response was inhibited by cytochalasin B, indicating that it is microfilament-dependent. We suggest that microtubule-disrupting drugs induce motility via structural changes in the cytoskeleton which act as signals for the motor apparatus. The intrinsic polarity manifested in the presence of microtubule-disrupting drugs could be reversed by an extracellular chemotactic gradient. Stimulated locomotion and motility in response to microtubule-disrupting drugs was only observed with initially spherical PMNs but not with initially motile cells. The findings provide an explanation for the numerous conflicting statements on the chemokinetic activities of these drugs. The role of cAMP in stimulated polarization and motility has been studied. Colchicine, vinblastine and nocodazole elicited a transient elevation of cAMP levels within 1 min of stimulation. cAMP elevation and stimulated motility were not quantitatively correlated.     

A model for exploring afferent signals from the immune system to the nervous system

Mechanisms of information transmission from the immune system to the nervous system have been studied. The results of the studies support the assumption that these signals can be transmitted by oligopeptides (the products of limited proteolysis) which are the fragments found in the active sites of many regulatory peptides of the nervous and immune systems. The testing of a synthesized tripeptide (Ser-Lys-Asp) has shown that it inhibits the antibody-forming cells in intact mice only in response to the administration of large antigen doses and exerts a protective effect against viral infection. When added to the culture of the incubated leukocytes from the peripheral blood of the oncological patients, the tripeptide lowers an increased or normal functional activity of natural killers. In rabbits, tripeptide administration brings about a complex long-lasting reorganization of bioelectrical activity in subcortical structures of the brain.     

Microtubule inhibitors alter the secretion of beta-glucuronidase by human blood platelets: involvement of microtubules in release reaction II

The effects of the antimicrotubular drugs colchicine and vinblastine on the blood platelet release reaction were studied by measuring release of ¹⁴C-5-hydroxytryptamine (¹⁴C-5-HT, release I) and β-glucuronidase (release II) from gel-filtered human platelets. β-glucuronidase release induced by thrombin was significantly inhibited by colchicine (0.01-1 mM) or vinblastine (0.05–0.1 mM). Release of ¹⁴C-5-HT, however, was unaffected at low concentrations of colchicine and only slightly inhibited at higher concentrations. Inhibition of β-glucuronidase release depended on colchicine or vinblastine concentrations and decreased with longer time intervals (1′, 5′, 20′) after thrombin stimulation. Levels of the cytoplasmic enzyme, lactic acid dehydrogenase, in supernatants of colchicine treated platelets were not significantly different from controls. Colchicine also inhibited β-glucuronidse release, but not ¹⁴C-5-HT release, induced by trypsin and sodium arachidonate. Binding of ¹⁴C-colchicine by platelets was measured and it was found that platelet aggregation and release of 5-HT induced by adenosine diphosphate, epinephrine and collagen proceeded without any alteration in colchicine binding. However, significant increases in the rate and degree of colchicine binding were observed when platelets were stimulated by thrombin, trypsin and arachidonic acid which induced aggregation, release of both 5-HT and β-glucuronidase. The results suggest that an alteration in platelet microtubules is correlated with the physiologic response resulting in release II and that the cellular mechanisms effecting release I and II by platelets differ qualitatively in that the microtubules may facilitate release II.     

Role of P-Glycoprotein in the Blood-Brain Transport of Colchicine and Vinblastine

Abstract: Classically, drug penetration through the blood-brain barrier depends on the lipid solubility of the substance, except for some highly lipophilic drugs, like colchicine and vinblastine, both substrates of P-glycoprotein, a drug efflux pump present at the luminal surface of the brain capillary endothelial cells. Colchicine and vinblastine uptake into the brain was studied in the rat using the in situ brain perfusion technique and two inhibitors of P-glycoprotein, verapamil and SDZ PSC-833. When rats were pretreated with PSC-833 (10 mg/kg, intravenous bolus), colchicine and vinblastine uptake was enhanced 8.42- and 9.08-fold, respectively, in all the gray areas of the rat brain studied. The mean colchicine distribution volume was increased from 0.67 ± 0.41 to 5.64 ± 0.70 µl/g and vinblastine distribution volume from 2.74 ± 1.15 to 24.88 ± 4.03 µl/g. When rats were pretreated with verapamil (1 mg/kg, intravenous bolus), colchicine distribution volume was increased 3.70-fold. The increase in colchicine and vinblastine did not differ between the eight brain gray areas. PSC-833 and verapamil pretreatment had no influence on the distribution volume of either drug in the choroid plexus. Nevertheless, distribution volumes remained small, considering the highly lipophilic nature of the substances. We suggest that P-glycoprotein is either only partially inhibited (difficulty of fully saturating P-glycoprotein, especially under in vivo conditions) or not the only barrier to these two drugs.     

EFFECT OF VINBLASTINE AND COLCHICINE ON UPTAKE AND RELEASE OF PUTATIVE TRANSMITTERS BY SYNAPTOSOMES AND ON BRAIN ACTOMYOSIN-LIKE PROTEIN

Abstract— The effects of several inhibitors, including vinblastine and colchicine, on the accumulation of a number of putative transmitters by a rat brain synaptosomal preparation and their subsequent release by excess K⁺ was examined. In addition, the effect of the alkaloids on the ATPase activity of the actomyosin-like protein, neurostenin, isolated from the synaptosomal preparation, was studied. The uptakes of radioactive glutamate, GABA, dopamine and norepinephrine were energy-dependent, as evidenced by their susceptibility to 0.01 mM carbonyl cyanide m-chlorophenylhydrazone (Cl-CCP), 01 mM ouabain and temperature. The active accumulations of GABA, dopamine and norepinephrine were also greatly inhibited by 1 mM6-hydroxydopamine (6-OHDA), 01 mM mersalyl, 0.05–0.25mM vinblastine and 0.1–1.0 mM colchicine. Vinblastine was approximately 10-fold more potent (K₁, ?0.1 mM) than colchicine as an inhibitor. The release of actively accumulated dopamine or norepinephrine by excess K⁺ (increasing the [K⁺] from 5 to 30 mM) was inhibited somewhat when vinblastine was present during the entire incubation period. If the synaptosomes were preloaded with the radioactive compounds prior to addition of vinblastine, there was no discernible effect on the relative amount of material released by excess K⁺. However, the addition of inhibitor under the latter conditions caused a leakage of radioactivity into the medium even without excess K⁺ being present. Glutamate accumulation was somewhat different from that of GABA, dopamine or norepinephrine. Although it required energy for uptake, 6-OHDA, mersalyl, vinblastine or colchicine were not inhibitory. Studies of the oxidative metabolism of glutamate and GABA by this synaptosomal preparation indicated that the mechanisms of inhibition by vinblastine was not attributable to a metabolic effect. Both vinblastine and colchicine inhibited the Mg²⁺-stimulated, but not the Ca²⁺-activated ATPase of neurostenin. This effect was probably attributable to an interaction of the vinblastine with the neurin moiety of this actomyosin-like protein. We suggest that the inhibitory phenomena exhibited by vinblastine and colchicine in this synaptosomal preparation arose from the effect of these alkaloids on the neurin associated with the synaptic membrane.     

Comparative study of antibody formation in ontogenetically determined and experimentally shaped populations of cooperating mouse cells

When studying the levels of immune response to the sheep erythrocytes in the adoptive transfer system in a population of cooperating bone marrow and spleen cells of the intact mice formed under the effect of hydrocortisone, differences have been found in their capacity to produce antibody-forming cells. Unlike the population of spleen cells formed during ontogenesis, the population of cooperating bone marrow cells acquires the capacity to develop an intensive enough immune response only after twofold immunization of the recipient and remains insensitive to the priming treatment of the donors with the sheep erythrocytes. These behavioral peculiarities of the population of cooperating bone marrow cells are due to relative deficiency of mature T-B helpers; the primed spleen T-lymphocytes are not involved in the formation of the pool of the latter.     

Murine hematopoietic stem cells after acute and chronic administration of vincristine

The effects of vincristine on bone marrow hemopoietic stem cells were studied in mice. After the administration of a single dose of the drug there is a sharp decline in the content of CFUs. When the drug is given in small, weekly doses for 16 weeks, after an initial drop, the stem cell content rises at a normal level where it remains, although with wide oscillations. On the whole the effects of vincristine on b.m. CFUs are comparable with that observed after vinblastine administration.