A functional model for feline P-glycoprotein.

P-gp (ABCB1) belongs to the group of export transporters that is expressed in various species at biological barriers. Inhibition of P-gp can lead to changes in pharmacokinetics of drugs (drug-drug interactions), which can lead to toxicity and adverse side effects. This study aimed to establish a functional assay to measure the inhibitory potential of veterinary drugs on feline P-gp by means of fluorescence-associated flow cytometry of feline lymphoma cells. In this model, PSC833 and ivermectin potently inhibited P-gp function; cyclosporine and verapamil moderately inhibited P-gp function, whereas ketoconazole, itraconazole, diazepam, and its metabolites had no effect on P-gp function. This model can be used for testing the inhibitory potency of (new) drugs on feline P-gp.

Assessment and characterisation of yeast-based products intended to mitigate ochratoxin exposure using in vitro and in vivo models.

The aim of this paper was to evaluate the capacity of several yeast-based products, derived from baker's and brewer's yeasts, to sequester the mycotoxin ochratoxin A (OTA) and to decrease its rate of absorption and DNA adduct formation in vivo. The experimental protocol included in vitro binding studies using isotherm models, in vivo chicken experiments, in which the serum and tissue concentrations of OTA were analysed in the absence and presence of the test compounds, and the profile of OTA-derived metabolites and their associated DNA adducts were determined. Additionally in vitro cell culture studies (HK2 cells) were applied to assess further the effects for yeast cell product enriched with glutathione (GSH) or selenium. Results of the in vitro binding assay in a buffer system indicated the ability of the yeast-based products, as sequester of OTA, albeit at a different level. In the in vitro experiments in chickens, decreased serum and tissue concentrations of treated animals confirmed that yeast-based products are able to prevent the absorption of OTA. A comparison of the binding affinity in a standard in vitro binding assay with the results obtained in an in vivo chicken experiment, however, showed a poor correlation and resulted in a different ranking of the products. More importantly, we could show that yeast-based products actively modulate the biotransformation of OTA in vivo as well as in vitro in a cell culture model. This effect seems to be attributable to residual enzymatic activities in the yeast-based products. An enrichment of yeast cell wall products with GSH or selenium further modulated the profile of the generated OTA metabolites and the associated pattern of OTA-induced DNA adducts by increasing the conversion of OTA into less toxic metabolites such as OTA, OTB and 4-OH-OTA. A reduced absorption and DNA adduct formation was particularly observed with GSH-enriched yeast, whereas selenium-enriched yeasts could counteract the OTA-induced decrease in cell viability, but at the same time increased the OTA-DNA adducts formation. These findings indicate the need for an in-depth characterisation of yeast-based products used as mycotoxin-mitigating feed additives, in in vivo models with target animal species taking into account not only their ability to sequester toxins in the gastrointestinal tract but also their potential effects on the biotransformation of mycotoxins.

A longitudinal study of ABC transporter expression in canine multicentric lymphoma.

Canine lymphoma is typically treated with a doxorubicin-based multidrug chemotherapy protocol. Although this is often initially successful, tumour recurrence is common and frequently refractory to treatment. Failure to respond to chemotherapy is thought to represent drug resistance and has been associated with active efflux of cytostatic drugs by transporter proteins of the ATP-binding cassette (ABC) family, including P-glycoprotein (ABCB1), MRP1 (ABCC1) and BCRP (ABCG2). In this study, ABC transporter mRNA expression was assessed in 63 dogs diagnosed with multicentric lymphoma that were treated with a doxorubicin-based chemotherapy protocol. Expression of ABCB1, ABCB5, ABCB8, ABCC1, ABCC3, ABCC5 and ABCG2 mRNA was quantified in tumour samples (n = 107) obtained at the time of diagnosis, at first tumour relapse and when the tumour was no longer responsive to cytostatic drugs while receiving chemotherapy. Expression data were related to patient demographics, staging, treatment response and drug resistance (absent, intrinsic, acquired). ABC transporter expression was independent of sex, weight, age, stage or substage, but T cell lymphoma and hypercalcaemia were associated with increased ABCB5 and ABCC5 expression, and decreased ABCC1 mRNA expression. Drug resistance occurred in 35/63 (55.6%) dogs and was associated with increased ABCB1 mRNA expression in a subset of dogs with B cell lymphoma, and with increased ABCG2 and decreased ABCB8, ABCC1 and ABCC3 mRNA expression in T cell lymphomas. ABC transporter expression in the pre-treatment sample was not predictive of the length of the first disease-free period or overall survival. Glucocorticoids had no effect on ABC transporter mRNA expression. In conclusion, drug resistance in canine multicentric lymphoma is an important cause of treatment failure and is associated with upregulation of ABCB1 and ABCG2 mRNA.

Multi-drug resistance in a canine lymphoid cell line due to increased P-glycoprotein expression, a potential model for drug-resistant canine lymphoma.

Canine lymphoma is routinely treated with a doxorubicin-based multidrug chemotherapy protocol, and although treatment is initially successful, tumor recurrence is common and associated with therapy resistance. Active efflux of chemotherapeutic agents by transporter proteins of the ATP-Binding Cassette superfamily forms an effective cellular defense mechanism and a high expression of these transporters is frequently observed in chemotherapy-resistant tumors in both humans and dogs. In this study we describe the ABC-transporter expression in a canine lymphoid cell line and a sub-cell line with acquired drug resistance following prolonged exposure to doxorubicin. This sub-cell line was more resistant to doxorubicin and vincristine, but not to prednisolone, and had a highly increased P-glycoprotein (P-gp/abcb1) expression and transport capacity for the P-gp model-substrate rhodamine123. Both resistance to doxorubicin and vincristine, and rhodamine123 transport capacity were fully reversed by the P-gp inhibitor PSC833. No changes were observed in the expression and function of the ABC-transporters MRP-1 and BCRP. It is concluded that GL-40 cells represent a useful model for studying P-gp dependent drug resistance in canine lymphoid neoplasia, and that this model can be used for screening substances as potential P-gp substrates and their capacity to modulate P-gp mediated drug resistance.

Inhibition of P-glycoprotein by psychotherapeutic drugs in a canine cell model.

Drug-drug interactions related to long-term therapies are of increasing concern. Psychotherapeutic drugs, licensed for the use in dogs for the management of separation anxiety and other behavioural disorders, are examples of drugs used in long-term therapies. In an in vitro system with canine P-glycoprotein (P-gp) expressing cell lines, three psychotherapeutic drugs with a different mode of action were tested for their ability to inhibit the canine multidrug transporter P-gp. At 10 µm, the selective serotonin reuptake inhibitor fluoxetine and the tricyclic antidepressant clomipramine inhibited P-gp for 41% and 59%, respectively. In contrast, selegeline did not inhibit the function of the canine P-gp.

Comparing the glucuronidation capacity of the feline liver with substrate-specific glucuronidation in dogs.

This study aimed to assess the overall glucuronidation capacity of cats, using prototypic substrates identified for human UDP-glucuronosyltransferases (UGTs). To this end, Michaelis-Menten kinetics were established for the substrates using feline hepatic microsomal fractions, and results were compared with similar experiments carried out with dog liver microsomes. Cats are known for their low capacity of glucuronide formation, and UGT1A6 was found to be a pseudogene. However, functional studies with typical substrates were not performed and knowledge of the enzymology and genetics of other glucuronidation enzymes in felidae is lacking. The results of this study showed extremely low formation of naphthol-1-glucuronide (1.7 ± 0.4 nmol/mg protein/min), estradiol-17-glucuronide (<0.7 nmol/mg protein/min), and morphine-3-glucuronide (0.2 ± 0.03 nmol/mg protein/min), suggesting a lack of functional UGT1A6 and UGT2B7 homologues in the cat's liver. Dog liver microsomes were producing these glucuronides in much higher amounts. Glucuronide capacity was present for the substrates 17ß-estradiol (estradiol-3-glucuronide, 2.9 ± 0.2 nmol/mg protein/min) and 4-methylumbelliferone (31.3 ± 3.3 nmol/mg protein/min), assuming that cats have functional homologue enzymes to at least the human UGT1A1 and probably other UGT1A isozymes. This implies that for new drugs, glucuronidation capacity has to be investigated on a substance-to-substance base. Knowledge of the glucuronidation rate of a drug provides the basis for pharmacokinetic modeling and as a result proper dosage regimens can be established to avoid undesirable drug toxicity in cats.

Masitinib reverses doxorubicin resistance in canine lymphoid cells by inhibiting the function of P-glycoprotein.

Overexpression of ABC-transporters including Pgp, MRP1, and BCRP has been associated with multidrug resistance (MDR) in both human and canine oncology. Therapeutic interventions to reverse MDR are limited, but include multidrug protocols and the temporary concomitant use of inhibitors of ABC-transporters. Recently, the use of tyrosine kinase inhibitors has been proposed to overcome MDR in human oncology. One of the tyrosine kinase inhibitors, masitinib, is licensed for veterinary use in the treatment of canine mast cell tumors. Therefore, this study aimed to assess the potential of masitinib to revert MDR in canine malignant lymphoma using an in vitro model with canine lymphoid cell lines. Masitinib had a mild antiproliferative effect on lymphoid cells, inhibited Pgp function at concentrations equal to or exceeding 1 µm and was able to reverse doxorubicin resistance. The current findings provide the rationale for a combined use of masitinib with doxorubicin in the treatment of dogs with doxorubicin-resistant malignant lymphoma but await confirmation in clinical trials.

Expression of drug efflux transporters in poultry tissues.

Multidrug resistance 1 (MDR1) and multidrug resistance-associated protein 2 (MRP2) are two prominent members of the super-family of ATP-binding cassette (ABC) transporters that carry a wide range of substrates across biological membranes, using ATP as energy source. The level of expression of these efflux transporters in different tissues has hitherto been studied mainly in mammals, and only P-glycoprotein (P-gp), the product of the MDR1 gene, has been described in chickens as of yet. The aim of this study was to describe the levels of expression of MDR1 and MRP2 mRNAs in different tissues of chickens, as these transporters play an important role in the absorption, distribution and excretion of drugs and toxins. In the gastro-intestinal tract, the highest levels of MDR1 mRNA expression were found in the small intestines, followed by the colon, whereas lower levels were found in the crop, proventriculus and the caeca. High MDR1 expression was also measured in the excretory organs such as liver, kidney and lungs. In contrast to rodents and humans, relatively low levels were found in the adrenals and in the immature sex organs such as testicles and ovaries. MRP2 mRNA expression was high in the liver, kidneys, duodenum and the jejunum, but expression was low in the ileum as well as in the lungs. No MRP2 expression could be detected in the other organs tested. Comparing the findings in chickens with previously published data, in particular those from humans and rodents, an unexpected high degree of similarity in the expression pattern of MDR1 and MRP2 mRNAs was apparent.

Expression of MDR1, MRP2 and BCRP mRNA in tissues of turkeys.

MDR1, MRP2 and BCRP are members of the superfamily of ABC membrane transporters that export a large variety of structurally diverse substances out of the cell, hence being an integral part of various biological barriers. Here we report for the first time the tissue distribution of these ABC efflux transporters in the gastrointestinal tract (crop, proventriculus, duodenum, proximal and distal jejunum, ileum, caecum, colon) as well as in liver, kidney, lung, brain, adrenal gland, ovaries, oviduct and testes in BUT9 turkeys. MDR1 and BCRP mRNA expression was detected in all tissue samples, and the highest levels were measured in the small intestines. The tissue distribution of MRP2 mRNA was less consistent and some tissues seemed to lack any significant expression. Moreover, in consideration of previous findings suggesting that fluoroquinolones are substrates and modulators of ABC transporters, the effect of orally administered danofloxacin mesylate on the levels of MDR1, MRP2 and BCRP mRNA expression was investigated. Danofloxacin treatment resulted in a significant up-regulation of the measured transporters at the transcriptional level in the upper part of gastro-intestinal tract, liver and kidneys as well as in barrier-protected organs, such as the brain. However, despite this significant increase in the transcription levels, the pharmacokinetic parameters after repeated application of danofloxacin mesylate were not significantly altered.

Danofloxacin-mesylate is a substrate for ATP-dependent efflux transporters.

BACKGROUND AND PURPOSE: Next to its broad antimicrobial spectrum, the therapeutic advantages of the fluoroquinolone antimicrobial drug Danofloxacin-Mesylate (DM) are attributed to its rapid distribution to the major target tissues such as lungs, intestines and the mammary gland in animals. Previous analyses revealed that effective drug concentrations are achieved also in luminal compartments of these organs, suggesting that active transport proteins facilitate excretion into the luminal space. Members of the ATP-Binding Cassette (ABC) superfamily, including P-gp, BCRP and MRP2 are known to be expressed in many tissue barriers and in cell-membranes facing luminal compartments. Hence we hypothesized that DM is a substrate for one of these efflux-transporters. EXPERIMENTAL APPROACH: Confluent monolayers of Caco-2 cells, grown on microporous membranes in two-chamber devices were used. DM concentrations were measured by fluorimetric assay after HPLC of the culture media. KEY RESULTS: DM transport across Caco-2 cells was asymmetric, with a rate of secretion exceeding that of absorption. The P-gp inhibitors PSC833 and GF120918 and the MRP-inhibitor MK571 partially decreased the secretion of DM and increased its absorption rate. The BCRP inhibitor, Ko143, decreased secretion only at a concentration of 1 microM. When DM was applied together with ciprofloxacin, secretion as well as absorption of DM decreased. CONCLUSIONS AND IMPLICATIONS: DM is a substrate for the efflux transporters P-gp and MRP2, whereas the specific role of BCRP in DM transport needs further evaluation. These findings provide a mechanistic basis for the understanding of the pharmacokinetics of DM in healthy and diseased individuals.

P-glycoprotein-mediated transport of oxytetracycline in the Caco-2 cell model.

ATP-dependent drug transporters such as P-glycoprotein (P-gp), multi-drug resistance associated protein (MRP2) and breast cancer resistant protein (BCRP) are expressed at the brush border membrane of enterocytes. These efflux transporters excrete their substrates, among other various classes of antibiotics, into the lumen thus reducing net absorption as indicated by a low bioavailability after oral administration. Oxytetracycline (OTC) has been used for decennia in veterinary medicine for its extensive spectrum of antimicrobial activity. A major limitation has been, and still remains, its low bioavailability following oral administration. The present study aimed to investigate to what extent this low bioavailability is attributable to the fact that OTC is a substrate for one or more efflux transporters. As an experimental model to study the transmembrane transport of OTC, differentiated Caco-2 cells grown as monolayers on permeable supports were used. With this model it was shown that the secretion of OTC is slightly higher than its absorption. PSC833, a potent inhibitor of P-gp, decreased the secretion of OTC without affecting its absorption, while the MRP-inhibitor MK571 did not exert any effect. These data indicate that OTC is a substrate for P-gp. The affinity of OTC to these transporters seems to be rather low, as suggested by the low efflux ratio of 1:1.3. In competition experiments, OTC decreased the effluxes of other P-gp substrates such as Rhodamine123 and ivermectin. These findings are of clinical relevance, as they clearly indicate potential drug-drug interactions at the level of P-gp-mediated drug transport.

Organic acid production by Aspergillus niger in recycling culture analyzed by capillary electrophoresis.

Wild-type Aspergillus niger N402 and glucoamylase++ overproducing transformant A. niger N402[pAB6-10]B1 have grown in maltodextrin- and xylose-limited recycling culture at pH 4.5 on mineral medium. The only products formed were organic acids and proteins, among which glucoamylase. The production of organic acids by the fungus has been analyzed qualitatively and quantitatively using capillary electrophoresis. The only organic acids produced in these cultures were substantial amounts of citric acid. This is the first demonstration of abundant oxalic acid production and a very low citric acid production by submerged cultures of A. niger. In the maltodextrin-limited culture the oxalic acid production rate increased during the first 80 h of cultivation and decreased after that time. In xylose-limited recycling culture the oxalic acid production rate always increased in time and highest values were found in the last samples taken from the culture after about 140 h of cultivation. Oxalic acid production rates were highest by the wild-type strain grown on xylose as carbon source, i.e., when the lowest glucoamylase production rates were observed. A clear negative correlation was found between the oxalic acid production rate and the respiration quotient (RQ). An increase in the oxygen consumption rate, due to the production of strongly oxidized oxalic acid, caused the RQ to be lowest at those stages of recycling cultivation when highest oxalic acid production rates were observed.

Growth behaviour and glucoamylase production by Aspergillus niger N402 and a glucoamylase overproducing transformant in recycling culture without a nitrogen source.

When wild-type Aspergillus niger N402 and a glucoamylase-overproducing transformant were grown in recycling culture without a nitrogen source, hyphal tip extension and glucoamylase production still occurred, but overproduction of glucoamylase by the transformant strain stopped. The mycelium retained a low metabolic activity. Light micrographs of mycelial samples showed that some hyphae were broken at their tip and partially empty, while after continuing recycling fermentation for more than 500 h many small and empty pieces of broken mycelium could be found. A model has been developed to calculate the mycelial growth and death rates. The mycelial death rate just exceeded the mycelial growth rate and as a consequence the amount of biomass in the fermentor vessel slightly decreased. It is concluded that the cytoplasmic contents of broken mycelial threads were released into the medium and acted as a nitrogen source for the growing parts of the mycelium.

Growth and product formation in chemostat and recycling cultures by Aspergillus niger N402 and a glucoamylase overproducing transformant, provided with multiple copies of the glaA gene.

Continuous and recycling cultures were carried out with Aspergillus niger N402 wild-type and a glucoamylase overproducing transformant to investigate growth and product formation characteristics. In shake flask cultures, the amount of glucoamylase produced by the transformant was about five times more than by the wild-type strain. In contrast with these results, a twofold overproduction was found in glucose-limited continuous cultures, while no overproduction was found under maltodextrin-limitation. Two regions of specific growth rates could be distinguished, one at specific growth rates lower (domain I) and one at specific growth rates higher than 0.12 h-1 (domain II). In domain I changes in mycelium morphology and conidia formation were observed. It has been concluded that maintenance requirements are dependent on the specific growth rate over the whole range of measured growth rates. The deviation in linearity in the linear equation of substrate utilization, caused by this phenomenon, should be considered when continuous cultures with filamentous fungi are performed. In recycling cultures, xylose as limiting carbon source repressed glucoamylase production very strongly. Under maltodextrin-limitation a fivefold overproduction was found. After about 150 h , the total amount of glucoamylase produced was still increasing, while total amount of product, measured as carbon, remained constant. After this time no increase in the amount of biomass formed was observed. These results suggest autolysis and cryptic growth taking place in a recycling fermenter and cell death rate equalling growth rate.

Glucoamylase overexpression in Aspergillus niger: molecular genetic analysis of strains containing multiple copies of the glaA gene.

A strategy, based on the usage of the amdS selection marker and a cosmid vector containing four copies of the glucoamylase gene (glaA), was developed to obtain glucoamylase (GLA)-overproducing A. niger strains. With this strategy, fungal strains carrying up to 200 copies of the glaA gene could be isolated at a relatively high frequency. In each transformant analysed, integration occurred in a single chromosome. A significant increase in the extracellular GLA production was observed in most of the transformants carrying multiple copies of the glaA gene. Further analysis showed that the amount of GLA that is produced was not proportional to the number of glaA copies in these transformants. However, the level of GLA production clearly correlated with the amount of glaA mRNA produced in these transformants. From these results it is concluded that GLA production is limited at the level of transcription.

Determination of the maximum product yield from glucoamylase-producing Aspergillus niger grown in the recycling fermentor.

Aspergillus niger has been grown in glucose- and maltose-limited recycling cultures to determine the maximum growth yield, the maximum product yield for glucoamylase production, and the maintenance requirements at very slow specific growth rates. Using the linear equation for substrate utilization, and using the experimental data from both recycling experiments, both the maximum growth yield, Yxsm, and the maximum product yield, Ypsm, could be determined. The values estimated were 157 g biomass per mol maltose for Yxsm and 100 g protein per mol maltose for Ypsm. Expressed on a C1-basis these values are 0.52 and 0.36 C-mole per C-mol for respectively Yxsm and Ypsm. The found value for Ypsm is half the value found for alkaline serine protease production in Bacillus licheniformis, and it can be concluded that formation of extracellular protein is more energy consuming in filamentous fungi than in prokaryotic organisms. Maintenance requirements are no significant factor during growth of Aspergillus niger, and reported maintenance requirements are most probably due to differentiation.

Isolation, purification and characterization of the ATPase complex from the thermophilic cyanobacterium Synechococcus 6716.

The ATPase complex is isolated and purified from membrane vesicles of the thermophilic cyanobacterium Synechococcus 6716 by octyl glucoside and cholic acid by a modification of the procedure for its extraction from spinach chloroplasts. The complex is purified by differential centrifugation and ammonium sulfate precipitation and by gel filtration on Sepharose 6B. The purified fraction, without any phycocyanin contamination, shows ATP hydrolysis activity and Pi/ATP exchange activity of 1564 and 350 nmol X min-1 X mg protein-1, respectively. N,N'-Dicyclohexylcarbodiimide inhibits the ATP hydrolysis activity of this purified fraction. On polyacrylamide gels most typical F1 ATPase polypeptides are identified, but the low-molecular weight polypeptides visible cannot be ascribed to the F0 part of the complex with certainty; non-identified bands around 30 kDa are also present.