Characterization of nucleoside uptake and transport in Entamoeba histolytica.

The uptake and transportation of purine and pyrimidine based nucleosides by trophozoites of axenically grown Entamoeba histolytica (HMI-IMSS) were studied. The trophozoites transported adenosine and its analog tubercidin (1 microM) at a significant rate but poor transportation was observed in case of uridine (about 10% relative rate), inosine (3%), thymidine (2%) and formycin B (1%). The Km for adenosine was 160 +/- 42 microM. Unlabeled nucleosides (100 microM) inhibited adenosine and tubercidin transport. Adenosine related compounds 5'-deoxyadenosine and nebularin inhibited adenosine and tubercidine transport by 50% or more. However, inosine related compounds guanosine, 3'-deoxyinosine and formycin B were less inhibitory. The pyrimidine nucleosides uridine, thymidine and cytidine were poorly inhibitory. 6-[(4 nitrobenzyl)-mercapto] purine ribonucleoside, an inhibitor of mammalian nucleoside transporter, inhibited adenosine or tubercidin transport in E. histolytica variably between 0-30% at 10 microM, but dilazep, a known inhibitor, was inactive upto 10 microM. Increase in temperature from 22 degrees C to 33 degrees C enhanced the rate of transport of adenosine 4.5 fold, tubercidin 7.3 fold and of inosine 4 fold. These findings along with the structure activity figures suggested that transport was mediated and not passive.

Quantitative estimation of potentiation and antagonism by dose ratios corrected for slopes of dose-response curves deviating from one.

A shift of dose-response curves of a receptor agonist A by a receptor antagonist B to the right is frequently expressed or quantitated by calculating the dose ratio (DR) from the ED50 values obtained in the absence and presence of B. A comparison of ED50 values or a DR is also used in a more general way to express the effects of other antagonists or of potentiators. For this situation, where B is not competing with A for a binding site, slope-values may often deviate from one. Because the slope of shifted dose-response curves (deviating from one) affects the magnitude of enhancement or diminution at a given DR, we have to take it into account. For example, the same changes in effects are associated with DR = 10 at curves with slope = 1, but with DR = 2.15 in case of slope = 3. Enhancement and diminution expressed by dose ratios is more or less underestimated in case of curves with slope > 1. We therefore propose to quantitate potentiation and antagonism by a corrected DR (DRcorr), which can simply be calculated from the uncorrected DR at a given slope. Consequently, a DRcorr reflects a true measure of enhancement or diminution for curves with slope = 1, equivalent to that which would have been observed for curves with slope = 1. The practical value of this modification is exemplified and illustrated by analysis of experimental data.

Pentamidine does not interfere with nitrite formation in activated RAW 264.7 macrophages but inhibits constitutive brain nitric oxide synthase.

Pentamidine effects on the interferon-gamma- or interferon-gamma plus bacterial lipopolysaccharide-induction of nitric oxide synthase in the macrophage cell line RAW 264.7, determined by measuring nitrite release into culture supernatants, were investigated. At concentrations above 10 microM, pentamidine caused visible toxic effects including cell lysis which also was assessed by measuring lactic dehydrogenase release. A progressive inhibitory effect of pentamidine could not be clearly dissociated from these toxic and lytic effects which were extensive at 100 microM. At 1 microM pentamidine, the dose response dependence of nitrite formation on interferon-gamma was not affected. Tumor necrosis factor-alpha caused some enhancement of interferon-gamma-induced nitrite release only at high doses of 100 and 10,000 unit/ml. Pentamidine had no effect on isolated inducible nitric oxide synthase from RAW 264.7 cells but inhibited the constitutive enzyme from pork cerebellum non-competitively. The lack of any stimulatory effect of pentamidine on nitrite production in RAW 264.7 cells suggests that NOS induction and NO production by macrophages is not the mechanism of the antimicrobial effects of this drug.

De novo purine biosynthesis in a free living protozoan parasite, Acanthamoeba polyphaga [correction of polypha].

A free living protozoon, Acanthamoeba polyphaga 435/89, was shown to utilize radiolabelled formate and glycine as precursors for purine biosynthesis and to grow in medium devoid of any source of preformed purine compounds. The organism also incorporated into its nucleic acids radiolabel derived from adenosine and guanosine indicating presence of purine salvage pathway. Thus, the presence in A. polyphaga 435/89 of active de novo purine biosynthesis in addition to a purine salvage pathway may be a general characteristics of free-living protozoan organisms since parasitic protozoans are devoid of de novo purine biosynthesis.

Nucleoside transporters in Leishmania major: diversity in adenosine transporter expression or function in different strains.

Cytotoxic nucleoside derivatives may become useful in the treatment of parasitic infections. As part of our drug development studies, the effect of a number of nucleosides (100 microM) on the cellular transport of 3H-adenosine and 3H-inosine (each at 1 microM) in promastigotes from four Leishmania major strains was investigated. When 3H-inosine was used as permeant, all strains exhibited essentially the same inhibition profile, with unlabeled inosine, guanosine, formycin B, and 3'-deoxyinosine being strongly inhibitory, and adenosine-related compounds such as 2'-deoxyadenosine and tubercidin being inactive. However, when 3H-adenosine was used as permeant, considerable differences in the inhibition profiles were noted among strains. Thus, both inosine transporter-selective nucleosides such as inosine and guanosine and adenosine transporter-selective nucleosides such as 2'-deoxyadenosine and tubercidin showed variable activity as inhibitors of 3H-adenosine transport in different strains. These observations indicated that an adenosine transporter was variably expressed in different strains, and that inhibition profiles for adenosine transport indicated cellular entry via both the inosine and adenosine transporters. The existence of different types of adenosine transporters as an alternative explanation could not be ruled out. The apparent uniform expression of an inosine transporter among different species and strains of Leishmania suggests that inosine derivatives may be useful as anti-leishmanial drugs.

Sodium-dependent nucleoside transport in mouse lymphocytes, human monocytes, and hamster macrophages and peritoneal exudate cells.

Mouse splenocytes and hamster peritoneal exudate cells (PEC), including macrophages, were shown to contain a predominantly Na(+)-dependent and inhibitor (6-[(4-nitrobenzyl)-mercapto]purine ribonucleoside, NBMPR)-resistant transport system for adenosine and other nucleosides. Adenosine (1 microM) was transported about equally in mouse thymocytes and human monocytes from peripheral blood by a Na(+)-dependent system and the NBMPR-sensitive facilitated diffusion system. Hamster PEC also transported inosine, tubercidin, formycin B, uridine, and thymidine in a NBMPR-insensitive manner. With the exception of formycin B, all nucleosides were phosphorylated intracellularly to varying degree, adenosine being almost fully phosphorylated. During the time course of routine experiments (30 s) formycin B was concentrated twofold over external medium levels (1 microM) without any drop-off in the transport rate. On the basis of metabolic studies it was estimated that uridine and tubercidin were also transported against a concentration gradient. Inosine, guanosine, 2'-deoxyadenosine, tubercidin, formycin B, and the pyrimidines uridine, thymidine, and cytidine (all 100 microM) inhibited transport of adenosine and inosine about 50-100%, while 3'-deoxyinosine showed weak inhibitory action. Transport of thymidine was strongly inhibited by nucleosides except by 3'-deoxyinosine. The Na(+)-dependent, active, and concentration transport system appears to be a feature of many immune-type cells, and its presence offers particular conceptual possibilities for the therapy of infections located in these cells.

New method for detachment and quantitation of Acanthamoeba trophozoites in culture.

Trophozoites of two Acanthamoeba polyphaga strains (RYD and 435) were readily detached from plastic culture flasks or multiwell plates by 5 min exposure to a detaching fluid containing 0.005% of Triton X-100 and 0.05% ammonium sulphate. This treatment also led to rounding of cells and thus permitted convenient and reproducible counting by either hemocytometer or electronic particle counter. The detaching fluid did not impair viability even after exposure up to 1 h.

Leishmania donovani: characteristics of adenosine and inosine transporters in promastigotes of two different strains.

The nucleoside transport characteristics of two strains of Leishmania donovani promastigotes were studied. Strain S1, growing in fully defined medium, and strain S2 (MHOM/ET/67/HA3) both transported adenosine and inosine, but only strain S1 transported uridine and thymidine. Competition studies in the presence of 100 microM of unlabeled adenosine, inosine, guanosine, 2'-deoxyadenosine, tubercidin, formycin B, 3'-deoxyinosine as well as uridine, thymidine and cytidine, with either 1 microM [3H]adenosine or [3H]inosine as permeant, were carried out. The inhibition profile with [3H]inosine as permeant was essentially identical in S1 and S2 promastigotes, indicating that the same inosine transporter was present in both strains. However, with [3H] adenosine as permeant, significant differences were noted between the two strains. Thus, only adenosine, 2'-deoxyadenosine, tubercidin, uridine, and thymidine were strongly inhibitory in S1 promastigotes, while essentially all nucleosides tested were effective in S2 promastigotes. This indicates that adenosine transport in S2 promastigotes seems to involve a transporter differing from that described for S1 promastigotes.

Inhibition of axenically grown Entamoeba histolytica by purine nucleoside analogs and actions of natural nucleosides.

The effects of the nucleoside analogs tubercidin, nebularin, formycin B and 3'-deoxyinosine on axenically grown Entamoeba histolytica were tested. Both tubercidin and nebularin showed pronounced inhibitory action, 50% of growth inhibition (IC50) being obtained at 0.14 and 0.82 microM, respectively. Formycin B and 3'-deoxyinosine were essentially inactive or weakly active at concentrations above 10 microM. Natural nucleosides, including adenosine, inosine, guanosine, thymidine, uridine and cytidine caused no significant effects at concentrations of 0.01-1 microM, however, significant inhibitory action was observed at or above 10 microM with cytidine and thymidine. The exploration of cytotoxic nucleosides as antiamebal drugs is of continued interest.

Protective and curative effects of rifampicin in Acanthamoeba meningitis of the mouse.

BALB/c mice inoculated nasally with Acanthamoeba culbertsoni, resulting in amebic encephalitis and death 3-7 days, were treated with rifampicin prophylactically (daily for 2 days with 75 and 100 mg/kg) and after infection (daily for 5 days with doses of 10-100 mg/kg). Prophylactic treatment resulted in full protection against infection, as assessed by absence of symptoms of central nervous system malfunction and negative brain culture 10 days after inoculation. Curative treatment was effective at the same doses; however, at doses of 10, 25, and 50 mg/kg, only two of six animals were free of symptoms and infection.

In vivo effectiveness of several nucleoside transport inhibitors in mice and hamsters.

The in vivo nucleoside transport inhibitory effects of 6-[(4-nitrobenzyl)-mercapto]purine ribonucleoside (NBMPR), used as its 5'-monophosphate derivative (NBMPR-P), dilazep, mioflazine and its derivatives soluflazine, R57974 and R75231, were investigated in BALB/c mice. The extent and duration of action were followed by assaying adenosine transport in blood cells sampled at time intervals following i.p. administration (ca. 20 mg/kg). Dilazep and R57974 were found to be short-acting inhibitors, while NBMPR-P and R75231 were similar in their action and caused essentially full inhibition of adenosine transport over a 4- to 5-h period. Mioflazine and soluflazine were rather ineffective, causing only partial inhibition. R75231 was also active after oral administration which, when repeated three times in 4-h intervals, resulted in essentially full transport inhibition up to 20 h following the initial dose. Effects of NBMPR-P, R57974 and dilazep on adenosine transport in blood cells were also measured in blood cells of hamsters after i.p. administration of the same doses. All three drugs caused full transport inhibition, but the action of dilazep and R75231 showed reversal within about 30 min and 2 h, respectively, while NBMPR-P caused full inhibition for at least 3-4 h. These results demonstrate the potential of the mioflazine derivative R75231 to be useful in vivo, possibly even after p.o. administration, for host protection against the actions of cytotoxic nucleosides used in experimental antiparasitic therapy or other studies requiring suppression of nucleoside transport.

Sodium-dependent and inhibitor-insensitive uptake of adenosine by mouse peritoneal exudate cells.

[8-3H]Adenosine uptake in mouse peritoneal exudate cells, harvested following i.p. challenge with Complete Freund's Adjuvant from BALB/c mice, was found to be insensitive to common nucleoside transport inhibitors such as dilazep or 6-[(4-nitrobenzyl)mercapto]purine ribonucleoside and to require sodium ion, being inactive when sodium was replaced by lithium or potassium. These findings also applied to the adherent (macrophages) and nonadherent (polymorphonuclear cells) cell fractions prepared from the peritoneal cell mixture. Uptake was inhibited by several nucleosides including deoxyadenosine, inosine, uridine, thymidine and, to a lesser extent, by the adenosine analog tubercidin, while adenine, fructose, glucose and ribose were without effect. Uptake [8-3H]adenosine was fully matched by rapid intracellular phosphorylation to AMP, ADP and ATP. Inosine was a substrate for the transporter, but tubercidin was not. The system clearly is distinct from carrier-mediated, nonconcentrative transport and has similarities to concentrative, sodium-dependent nucleoside transporters described in other cell types.

Potencies of mioflazine and its derivatives as inhibitors of adenosine transport in isolated erythrocytes from different species.

The potency of mioflazine and related drugs (Janssen Pharmaceutica, Belgium) as inhibitors of adenosine transport in isolated erythrocytes from several species were measured and compared with those of dilazep and 6-(4-nitrobenzylmercapto)purine ribonucleoside (NBMPR). [8-3H]Adenosine was used as the permeant at 1 microM and incubation times were 10 s, and assays were conducted in the presence and absence of varying doses of potential transport inhibitors. The species investigated included mouse, hamster, rabbit, baboon and man. Dilazep was the most potent compound throughout with an IC50 of about 2 nM. In the mouse and hamster mioflazine and its derivatives were considerably less potent (IC50 values greater than 200 nM) with the exception of R57974 with IC50 values of about 150 and 60 nM in mouse and hamster, respectively. In the man and baboon the derivatives had IC50 values in the same order of magnitude as NBMPR (less than 100 nM), and in the rabbit they had potencies close to that of NBMPR, ranging between 10-60 nM. Nucleoside transport inhibitors are of potential importance as host protectors during treatment of parasitic infections with cytotoxic nucleosides. Present data indicate that mioflazine and its derivatives are not very potent in some of the preferred animal models for parasitic infections (mouse, hamster) but are more effective in primates such as man and baboon.

Competition of nucleoside transport inhibitors with binding of 6-[(4-nitrobenzyl)-mercapto]purine ribonucleoside to intact erythrocytes and ghost membranes from different species.

The potency of nucleoside transport inhibitors, including 6-[(4-nitrobenzyl)-mercapto]purine ribonucleoside (NBMPR), dilazep, mioflazine and its derivatives soluflazine and R57974 as inhibitors of the binding of [3H(G)]NBMPR to intact erythrocytes and respective ghost membranes from human, mouse and hamster was determined. There was no close agreement between the IC50 profiles for the different inhibitors when comparing values obtained for intact cells and membranes from each species, and there was no consistent profile of differences when considering individual drugs and comparing their actions in the three species. Present data also were compared with potency values obtained previously with the same drugs directly in nucleoside transport inhibition studies with erythrocytes from the same species as well as with [3H(G)]NBMPR binding studies in isolated liver and lung membranes from hamster. The overall conclusion from this and previous studies is that the evaluation of relative potencies in screening of potential nucleoside transport inhibitors is best carried out at the level actual nucleoside transport studies in intact cells, since [3H(G)]NBMPR binding studies yield discrepant data.

Binding of [G-3H]6-(4-nitrobenzylmercapto)purine ribonucleoside to isolated membranes. Inhibitory effect of mioflazine and its derivatives.

The binding of [G-3H]-6-(4-nitrobenzylmercapto)purine ribonucleoside [( G-3H]NBMPR) was investigated using a centrifugation assay with membrane preparations from hamster tissues including liver, lung, kidney and heart. Only liver and lung membranes showed high specific binding, with dissociation constants (Kd) values of 2.4 +/- 0.4 and 0.44 +/- 0.05 nM, and maximal binding (Bmax) of 3.7 +/- 0.4 and 1.04 +/- 0.01 pmol/mg, respectively. The binding of [G-3H]NBMPR was inhibited in a concentration dependent manner by unlabelled NBMPR, dilazep and a new group of chemically related nucleoside transport inhibitors, mioflazine, soluflazine and R57974, the latter being the most potent derivative. R57974 displaced bound [G-3H]NBMPR as effectively as unlabelled NBMPR suggesting a common binding site. The assay procedure used appears useful for the rapid screening of the effectiveness of nucleoside transport inhibitors which will be of value for the selection of inhibitors suitable for combination with cytotoxic nucleosides in the treatment of selected cancers or parasitic diseases.

A simple procedure for the isolation of schistosomules for biochemical studies or culture.

Incubation of cercariae of Schistosoma mansoni in a 1:1 mixture of Eagle's Minimal Essential Medium and rat serum at 42 degrees C for only 5 minutes, plus subsequent vortexing, resulted in at least 98% conversion of cercariae to schistosomules. Subsequent centrifugation before or after settling for 30 minutes in an ice bath, resulted in schistosomule preparations with about 20% or 10% contamination with tail segments, respectively.

Some pharmacological activities of novel adenine-related compounds isolated from a marine sponge Agelas mauritiana.

Agelasimine A and agelasimine B, two novel compounds related to adenine, have been isolated from the orange sponge, Agelas mauritiana, and have been tested for a variety of biological activities. Both compounds inhibited proliferation of cultured L1210 leukemia cells at nanomolar concentrations with accumulation in the G1 stage of the cell cycle. However, no prolongation of life was observed in mice bearing P388 leukemia treated with these compounds. In the rat isolated aorta, micromolar concentrations of agelasimines were very effective in inhibiting contractions elicited by potassium chloride but had little or no effect on responses for prostaglandin F2 alpha and had modest effects on the responses to noradrenaline and significant effects on 5-hydroxytryptamine. Agelsamines A and B appeared to be equipotent in causing relaxation in rabbit jejunum and bovine coronary artery, and they also inhibited nucleoside transport into rabbit erythrocytes in micromolar concentrations.

5'-Deoxy-5'-methylthioadenosine: a nucleoside which differentiates between adenosine receptor types.

The activities of an endogenous nucleoside, 5'-deoxy-5'-methylthioadenosine (MTA), on adenosine sensitive sites such as adenosine A1 and A2 receptors and the P-site, as well as on purine nucleoside transport, have been studied. This nucleoside competitively antagonized the A2 receptor-mediated stimulation of neuroblastoma adenylate cyclase, produced a GTP-dependent and 8-p-sulfophenyltheophylline-sensitive inhibition of adenylate cyclase activity in rat cerebellar membranes, and decreased the spontaneous contractile activity of isolated segments of rabbit jejunum. MTA was neither active at the P-site nor did it diminish the binding of [3H]nitrobenzylthioinosine, a nucleoside transport inhibitor. We conclude that (a) MTA is an agonist at the adenosine A1 receptor but an antagonist at the A2 receptor, and (b) the adenosine receptor which causes relaxation of rabbit jejunum is not a neuroblastoma-type A2 receptor which activates adenylate cyclase.