The Effect of Nisin and Monensin on Ruminal Fermentations In Vitro

When mixed ruminal bacteria and alfalfa were incubated in vitro, monensin and nisin both inhibited methane production so long as the concentrations were greater than 1 μM. Monensin- and nisin-dependent methane depressions caused a decrease in the acetate to propionate ratio (4.5 to 3.0). Total volatile fatty acid production was decreased by both monensin and nisin addition at concentrations greater than 2 μM. Starch-digesting ruminal bacteria were initially inhibited by monensin and nisin, but this effect disappeared after two to four transfers. Nisin always inhibited cellulolytic bacteria, but the nisin-dependent inhibition of cellulose digestion was no greater than the inhibition caused by monensin. Monensin and nisin also inhibited amino acid degradation, and nisin was more effective than monensin in controlling the growth of Clostridium aminophilum, an obligate amino acid-fermenting ruminal bacterium that can tolerate low concentrations of monensin. Because nisin was as potent as monensin, bacteriocins such as nisin may have potential as feed additives. Received: 2 December 1996 / Accepted: 10 February 1997     

The Effect of Monensin on Pure and Mixed Cultures of Rumen Bacteria

The antibiotic monensin was added to pure cultures of Bacteroides ruminicola, Selenomonas ruminantium, Anaerovibrio lipolytica and Megasphaera elsdenii. These organisms, representing succinate- and propionate-producing rumen bacteria, were not affected by monensin up to 10 μg/ml. Methanobacterium ruminantium was slightly inhibited by monensin, Butyrivibrio fibrisolvens, Ruminococcus albus and Streptococcus bovis were inhibited to differing extents by monensin at concentrations between 0.1 and 10 μg/ml. Bacteroides succinogenes was inhibited at first by monensin at >0.5 μg/ml but after a prolonged lag phase adapted to grow in the presence of monensin at concentrations below 5 μg/ml.
Monensin (1 μg/ml) almost completely stopped the digestion of chopped straw and dewaxed cotton fibres by rumen contents incubated in vitro. The digestion of grass and powdered filter paper was not significantly reduced under these conditions, but when the concentration of monensin was increased to between 3 and 5 μg/ml, the digestion of these substrates was reduced.     

Liquid chromatography-electrospray tandem mass spectrometric method for quantification of monensin in plasma and edible tissues of chicken used in pharmacokinetic studies: applying a total error approach

A liquid chromatography-tandem mass spectrometric (LC-MS/MS) method was developed and validated for use in pharmacokinetic studies in order to determine the concentrations of monensin in plasma and edible tissues of chicken. Two sample preparations were performed, one for determining monensin concentrations in plasma using acetonitrile for protein precipitation and another one for determining monensin concentrations in muscle, liver, and fat using methanol-water followed by a clean up on a solid-phase extraction cartridge. Sample extracts were injected into the LC-MS/MS system, and a gradient elution was performed on a C18 column. Narasin was used as internal standard. The LC-MS/MS method was validated using an approach based on accuracy profiles, and applicability of the method was demonstrated for the determination of monensin in chicken plasma, muscle, liver, and fat in a pharmacokinetic study.     

Stimulation of the release of lysosomal and nonlysosomal granular enzymes from macrophages treated with monensin

Mouse peritoneal macrophages that had been treated with a monovalent carboxylic ionophore, monensin, selectively secreted lysosomal and nonlysosomal granular enzymes into the medium. When macrophages were incubated with 1 to 10 microM monensin, the release of beta-glucuronidase, beta-hexosaminidase and beta-galactosidase was stimulated time and does dependently. Neither the beta-glucosidase nor acid phosphatase, enzymes bound to the lysosomal membranes, however, were released by monensin. Neutral alpha-glucosidase, shown recently to be localized in nonlysosomal granules of macrophages (15), was released by monensin at concentrations lower than those required for lysosomal enzyme release. Increased release of lysosomal enzymes also took place in a manner similar to that seen with monensin-treated macrophages after treatment of macrophages with weak bases, chloroquine and ammonium chloride. Neutral alpha-glucosidase, however, was not released when chloroquine was present in concentrations that stimulated the release of lysosomal enzymes. The UDP-galactosyltransferase activity of the Golgi apparatus in the macrophages markedly decreased after treatment with low concentration of monensin.     

Some growth and metabolic characteristics of monensin-sensitive and monensin-resistant strains of Prevotella (Bacteroides) ruminicola.

New strains with enhanced resistance to monensin were developed from Prevotella (Bacteroides) ruminicola subsp. ruminicola 23 and P. ruminicola subsp. brevis GA33 by stepwise exposure to increasing concentrations of monensin. The resulting resistant strains (23MR2 and GA33MR) could initiate growth in concentrations of monensin which were 4 to 40 times greater than those which inhibited the parental strains. Resistant strains also showed enhanced resistance to nigericin and combinations of monensin and nigericin but retained sensitivity to lasalocid. Glucose utilization in cultures of the monensin-sensitive strains (23 and GA33) and one monensin-resistant strain (23MR2) was retarded but not completely inhibited when logarithmic cultures were challenged with monensin (10 mg/liter). Monensin challenge of cultures of the two monensin-sensitive strains (23 and GA33) was characterized by 78 and 51% decreases in protein yield (milligrams of protein per mole of glucose utilized), respectively. Protein yields in cultures of resistant strain 23MR2 were decreased by only 21% following monensin challenge. Cell yields and rates of glucose utilization by resistant strains GA33MR were not decreased by challenge with 10 mg of monensin per liter. Resistant strains produced greater relative proportions of propionate and less acetate than the corresponding sensitive strains. The relative amounts of succinate produced were greater in cultures of strains 23, GA33, and 23MR2 following monensin challenge. However, only minor changes in end product formation were associate with monensin challenge of resistant strain GA33MR. These results suggest that monensin has significant effects on both the growth characteristics and metabolic activities of these predominant, gram-negative ruminal bacteria.     

Undersulfated proteoglycans are secreted by cultured chondrocytes in the presence of the ionophore monensin

The monovalent ionophore, monensin, inhibits secretion of many different proteins from a wide variety of cells. The site of blockage is at the golgi complex. We have exposed chick embryo chondrocytes in suspension culture to monensin, at concentrations ranging from 10(-8) to 10(-6) M. At the higher concentrations, between 10(-7) and 10(-6) M, monensin inhibited secretion of type II procollagen, which accumulated in the chondrocytes. At these concentrations of the ionophore, proteoglycan synthesis was inhibited, as measured by radioactive serine incorporation into core proteins and by radioactive glucosamine or SO4 incorporation into glycosaminoglycans. However, at a monensin concentration of 3 x 10(-8) M, the incorporations of serine and glucosamine were close to normal while SO4 incorporation was at 30% of control values. The ratio of glucosamine to serine in pronase-released glycosaminoglycans from culture media was unaffected by 3 x 10(-8) M monensin but the sulfate to serine ratio decreased to 29% of control values. Examination of the glycosaminoglycans by gel filtration showed a progressive increase in Kav values as sulfation decreased. Undersulfation was demonstrated by radiochromatographic analysis of the digestion products following incubation with chondroitinase ABC. The composite results show that monensin interferes with sulfation of newly synthesized proteoglycans.     

Propionate and the production of monensins inStreptomyces cinnamonensis

Variants resistant to propionate were prepared from a mutant strain of Streptomyces cinnamonensis producing predominantly monensin A. Using selected resistants the production of monensins (in media with higher concentrations of propionate) was examined. Stimulation of monensin synthesis by propionate was observed with 70% of the resistants studied. Propionate did not influence the ratio between monensin A and B production.     

Some growth and metabolic characteristics of monensin-sensitive and monensin-resistant strains of Prevotella (Bacteroides) ruminicola.

New strains with enhanced resistance to monensin were developed from Prevotella (Bacteroides) ruminicola subsp. ruminicola 23 and P. ruminicola subsp. brevis GA33 by stepwise exposure to increasing concentrations of monensin. The resulting resistant strains (23MR2 and GA33MR) could initiate growth in concentrations of monensin which were 4 to 40 times greater than those which inhibited the parental strains. Resistant strains also showed enhanced resistance to nigericin and combinations of monensin and nigericin but retained sensitivity to lasalocid. Glucose utilization in cultures of the monensin-sensitive strains (23 and GA33) and one monensin-resistant strain (23MR2) was retarded but not completely inhibited when logarithmic cultures were challenged with monensin (10 mg/liter). Monensin challenge of cultures of the two monensin-sensitive strains (23 and GA33) was characterized by 78 and 51% decreases in protein yield (milligrams of protein per mole of glucose utilized), respectively. Protein yields in cultures of resistant strain 23MR2 were decreased by only 21% following monensin challenge. Cell yields and rates of glucose utilization by resistant strains GA33MR were not decreased by challenge with 10 mg of monensin per liter. Resistant strains produced greater relative proportions of propionate and less acetate than the corresponding sensitive strains. The relative amounts of succinate produced were greater in cultures of strains 23, GA33, and 23MR2 following monensin challenge. However, only minor changes in end product formation were associate with monensin challenge of resistant strain GA33MR. These results suggest that monensin has significant effects on both the growth characteristics and metabolic activities of these predominant, gram-negative ruminal bacteria.     

Actinomyces rimosus resistance to oxytetracycline

High frequency of spontaneous and UV-and acridine dye-induced variants susceptible to oxytetracycline (OTC) and deprived of the capacity for synthesizing this antibiotic was observed in strain LST-118 of Actinomyces rimosus. The cells of strain LST-118 of Act. rimosus contained extrachromosomal DNA not found in its OTC susceptible variant BS87, which provides evidence in favour of participation of the extrachromosomal genetic elements in control of OTC resistance of the cells of Act. rimosus, LST-118. The OTC resistance in strain LST-118 is of inducable character. The resistance level is increasing from the beginning of the antibiotic synthesis and initially the subinhibitory concentrations of OTC in the medium were the inductors triggering cellular mechanisms ensuring resistance of the cell to the increasing concentrations of OTC in the medium. The capacity for absorption of OTC in Act rimosus is 2--3 times lower than that in E. coli. The experiments with labeled tetracycline showed that the cells of the actinomycete absorbed OTC when it was present in the medium. The absorption of the main amount of the antibiotic was registered during the first 5 minutes. The difference in absorption of OTC by the cells of the antibiotic resistant and sensitive strains was insignificant.     

Enhancement of intracellular glutathione promotes lymphocyte activation by mitogen

We have examined the effect of chemically modulating intracellular glutathione (GSH) levels on murine lymphocyte activation. Lymphocyte activation was determined by the induction of polyamine synthesis (ornithine decarboxylase (ODC) induction) and DNA synthesis ([3H]thymidine([3H]Tdr) incorporation). Intracellular GSH levels were enhanced using L-2-oxothiazolidine-4-carboxylate (OTC), which delivers cysteine intracellularly, and suppressed by buthionine sulfoximine (BSO), which inhibits gamma-glutamylcysteine synthetase. In addition, the thiol 2-mercaptoethanol (2-ME) was tested for its ability to augment intracellular GSH levels. Our results indicate that both OTC and 2-ME enhance GSH concentrations and [3H]Tdr incorporation in resting and mitogen (concanavalin A)-stimulated cells. The induction of ODC by concanavalin A (Con A) was augmented by the addition of OTC or 2-ME. The GSH concentration of Con A-stimulated cells was reduced when compared to resting cells; however, it was markedly enhanced by OTC or 2-ME. The stimulatory effects of 2-ME on GSH concentrations, [3H]Tdr incorporation, and ODC induction in both resting and Con A-stimulated cells were much more potent than those of OTC. In contrast, BSO suppressed intracellular GSH and [3H]Tdr incorporation in resting and Con A-stimulated cells. BSO also inhibited the promotion of intracellular GSH concentrations and [3H]Tdr uptake by OTC or 2-ME. However, BSO did not affect the induction of ODC by Con A or its enhancement by OTC or 2-ME. We conclude that enhancement of intracellular GSH concentration results in an increased lymphocyte response to mitogen stimulation.     

Elevation of lung glutathione by oral supplementation of L-2-oxothiazolidine-4-carboxylate protects against oxygen toxicity in protein-energy malnourished rats.

The objectives of this study were to investigate whether oral supplementation of L-2-oxothiazolidine-4-carboxylate (OTC) is effective for increasing tissue glutathione (GSH) concentrations in rats fed a diet very low (0.5%) in protein-a model of wasting malnutrition-and to determine the efficacy of OTC for protection against pulmonary oxygen toxicity. Weanling rats, fed a 0.5 or 15% protein diet for 2 wk, were given an oral supplement of OTC, and tissue GSH concentrations were measured over a 24 h period. OTC supplementation to rats fed 0.5% protein significantly increased GSH concentrations in liver and lung, but not in kidney and blood, when compared with the 0.5% protein unsupplemented group. The liver GSH concentration in the 0.5% protein OTC-supplemented group was higher than the 15% control group. Daily supplementation of OTC protected rats from pulmonary oxygen toxicity during 4 days of 85% oxygen exposure as determined by lung-to-body weight ratios and in vivo proton magnetic resonance imaging. Although hyperoxia exposure increased lung GSH concentrations in all groups, OTC supplementation was effective for increasing lung GSH concentration in rats fed the 0.5% protein diet. This study demonstrated that oral administration of OTC to wasting malnourished rats is an effective procedure to increase GSH concentration rapidly in target organs such as lung, and that daily supplementation of a low dose of OTC has a sustained effect to protect against pulmonary oxygen toxicity during 4 days of hyperoxia exposure.     

The effects of monensin on secretion of very-low-density lipoprotein and metabolism of asialofetuin by cultured rat hepatocytes.

Primary cultures of rat hepatocytes were used to study secretion of very-low-density lipoproteins and metabolism of asialofetuin. The ionophore monensin inhibited both secretion of very-low-density lipoproteins and binding and degradation of asialofetuin in a concentration-dependent manner. Secretion as well as receptor binding were markedly decreased after 15 min treatment with monensin. The inhibitory effect of the ionophore was fully reversible, and no effect on protein synthesis was observed at concentrations up to 50 microM. The secretion of apoproteins (B-small, B-large and E) and that of albumin were inhibited to the same extent as was triacylglycerol secretion. Secretion of very-low-density lipoproteins was more sensitive to low concentrations of monensin than was the metabolism of asialofetuin. Maximum inhibition of very-low-density-lipoprotein secretion was obtained at 5-10 microM-monensin, whereas 25 microM was required to obtain maximum inhibition of binding and degradation of asialofetuin. The number of surface receptors for asialofetuin decreased to about half when the cells were exposed to 25 microM-monensin. It is possible that monensin inhibits endo- and exo-cytosis via a similar mechanism, e.g. by disturbing proton gradients. Since secretion of very-low-density lipoproteins was more sensitive to low concentrations of monensin, it is likely that monensin independently inhibits endocytic and secretory functions in cultured hepatocytes.     

Investigations on the role of Golgi-mediated, ligand-receptor processing in the activation of granulocytes by chemoattractants: differential effects of monensin

Human granulocytes were exposed to different concentrations of the ionophore monensin for 20 min at 37 degrees C. Subsequent exposure to 50 nM of the chemoattractant fMet-Leu-[3H]Phe for up to 30 min at 37 degrees C resulted in a receptor-mediated uptake that was inhibited 80% at a monensin concentration of 30 microM. 50% inhibition was observed at 1-10 microM monensin with no significant change in fMet-Leu-Phe dose dependency. Subcellular fractionation of cells treated with monensin, indicated that the low density UDP-galactosyltransferase activity associated with internalized receptor-fMet-Leu-Phe complexes in untreated cells was absent. The high density galactosyltransferase activity cosedimenting with specific granule markers, however, was unaffected. Monensin also inhibited chemotaxis toward fMet-Leu-Phe as measured by migration of granulocytes through millipore filters and fMet-Leu-Phe induction of polarized morphology. Incubation of cell suspensions with up to 30 microM monensin, both before and during measurement of fMet-Leu-Phe stimulated superoxide production, did not affect the magnitude, kinetics, or transiency of the radical generation. Monensin did, however, shift the dose dependency of superoxide production of fMet-Leu-Phe to higher concentrations. These differential effects of monensin suggest that endocytosis of complexes of the chemoattractant and receptor is not involved in the activation or termination of the fMet-Leu-Phe stimulated superoxide production. They also are consistent with a role for receptor modulation and processing in the chemotactic response.     

Influence of monensin on cation influx and glycolysis of Eimeria tenella sporozoites in vitro

Extracellular Eimeria tenella sporozoites exposed to 1.0 microgram/ml monensin at 40 C had an accelerated rate of sodium influx as well as an increased rubidium uptake that was inhibited by the cardiac glycoside, ouabain. These results suggested the presence of a functional (Na+-K+)-ATPase and its stimulation by monensin. Under the same conditions, sporozoite ATP concentrations declined, lactate production increased and the rate of amylopectin utilization was enhanced. Exposure to monensin also appeared to stimulate the rate of sporozoite glycolysis. The results of this study demonstrated that the cidal effect of monensin on extracellular sporozoites was caused by the capability of the ionophore to act as a transmembrane sodium carrier.     

Synergism between ouabain and monensin in neurogenic responses of guinea-pig vas deferens

Interrelations between ouabain, a Na+-K+ ATPase inhibitor, and monensin, a Na+ ionophore, on noradrenaline liberation and contractile activity were evaluated in the guinea-pig vas deferens. Monensin (1 microM) per se elicited a small contraction of the tissue. However, amplitude and time to the peak of large and sustained contractions evoked by 10 microM ouabain were potentiated and markedly shortened, respectively, by monensin. Contractions elicited by ouabain with or without monensin were prevented by 3 microM phentolamine or by pretreatment with reserpine. Contractions evoked by K+-free solution were augmented by monensin. In an HPLC study, noradrenaline outflow from the vas deferens was moderately and considerably increased by monensin (10 microM) and ouabain (100 microM), respectively. The ouabain-evoked output of noradrenaline was enhanced in the presence of monensin and the time course for maximum noradrenaline release was shortened, as was the contractile activity. This enhanced outflow after ouabain plus monensin was reserpine sensitive but not tetrodotoxin sensitive. Furthermore, this noradrenaline outflow was roughly halved in Na+-deficient medium, but was unaltered in Ca2+-free medium. These findings suggest that the synergistic effect of ouabain and monensin on noradrenaline liberation from the guinea-pig vas deferens may be due to an elevation of cytoplasmic Ca2+ concentrations, presumably resulting from a stimulation of intracellular Na+-Ca2+ exchange system, but not enhanced Ca2+ entry.     

Expression of amplified DNA sequences for ornithine transcarbamylase in HeLa cells: arginine residues may be required for mitochondrial import of enzyme precursor

Expression of ornithine transcarbamylase (OTC), a nuclear-coded mitochondrial enzyme, was programmed in HeLa cells by the use of a strategy of gene co-amplification. HeLa cells, ordinarily devoid of OTC activity, were transfected with a plasmid containing viral regulatory elements joined with two cDNA sequences, one encoding the human OTC precursor and a second encoding a mutant mouse dihydrofolate reductase. After transfection and selection in increasing concentrations of methotrexate, several hundred copies per cell of the sequence encoding OTC were detected by blot analysis. Immunoprecipitation of extracts of radiolabeled cells with anti-OTC antiserum revealed newly synthesized mature OTC subunits. Furthermore, OTC enzymatic activity in cell extracts was comparable to that of control human liver, and mitochondrial localization of OTC was demonstrated by immunofluorescence. When we incubated transfected HeLa cells with dinitrophenol, a known inhibitor of mitochondrial import, the only form of newly synthesized OTC detected was the precursor. We estimated the rate of import of precursor by performing an inhibitor-free chase; precursor was converted to mature subunit with a half-life of less than two minutes. When a HeLa transformant was incubated with the arginine analogue canavanine, the major form of newly synthesized OTC detected was a species migrating slightly more slowly than the normal precursor; little mature-sized subunit was recovered. This indicates that substitution of the analogue for arginine in the OTC precursor interferes with mitochondrial import and processing. Thus, arginine residues in the OTC precursor--most likely the four residues contained in its NH2-terminal leader sequence--probably play an important role in mitochondrial import and/or processing.     

Influence of monensin on cation influx and Na+ -K+ -ATPase activity of Eimeria tenella sporozoites in vitro

The experiments were conducted to determine intrasporozoite Na+/K+ concentrations (by AAS) and membrane-bound Na+ -K+ -ATPase activity (measured by UV-VIS with a Na+ -K+ -ATPase Detection Kit) of Eimeria tenella sporozoites of the sensitive line (i.e., the parent line, coded as OS) and 2 resistant lines, derived from the parent line (coded as OR125 and OR200), with and without in vitro exposure to monensin. These parameters for OR125 and OR200 were significantly lower than those for OS. In vitro exposure to monensin increased intrasporozoite Na+/K+ concentrations and Na+ -K+ -ATPase activity, but the stimulation on OS was significantly higher than those on OR125 and OR200, indicating that monensin had less effect on resistant parasites. The results of this study suggest that altered biochemical or physiological properties, or both, in the membranes of E. tenella might be related to a reduced sensitivity to monensin.     

Effect of monensin and progesterone priming on ram-induced reproductive performance of boutsiko mountain breed ewes

The effects of monensin and progesterone priming on reproductive performance (estrous response, lambing rate and prolificacy) of grazing Boutsiko mountain breed adult and 18-mo.-old ewes at the end of seasonal anestrus were investigated. In Experiment 1 the feed supplement with or without monensin was offered for 21 d after introduction of vasectomized rams (Day 0). Progesterone was administered to the ewes in the respective groups as a single injection at Day -3. Ewes of both age groups were assigned randomly to 1 of 4 treatments: C, C+P, C+M and C+M+P. In Experiment 2 the supplement C or M was offered from Day -26 to Day 21. The treatments consisted of C, C+P and C+M+P. Blood samples were taken 50 h after ram introduction for determination of plasma concentrations of P and insulin-like growth factor-I (IGF-I). There was a greater increase in estrous response at Days 17 to 19 and at Days 0 to 19 when supplementation was offered before rather than after ram introduction in both age groups. In the adult group ewes synchronization of estrus at Days 17 to 19 was significantly increased by administration of monensin (P<0.05) and progesterone (P<0.01) compared with the control group in the first but not the second experiment. The incidence of estrus at Days 17 to 19 or at Days 0 to 19 was highest in the adult groups treated with monensin and progesterone in both experiments. In 18-mo.-old ewes progesterone was effective in synchronizing estrus only in Experiment 2. Mean plasma IGF-I concentrations were increased by monensin treatment (P<0.05) in adult ewes that were at the periovulatory stage at blood sampling time. Correlation coefficients between IGF-I and progesterone concentrations in monensin plus progesterone group adults were -0.715 (P<0.02) and -0.516 (P<0.01), respectively across all treatments. The results suggest that monensin and progesterone priming improved reproductive performance, and the monensin-induced increase in plasma IGF-I levels at the periovulatory stage may be causally related to the ability of ovulatory follicles to develop into functional corpora lutea (CL).