Syuichi Doi

Plasmodium chabaudi: in vivo effects of Ca2+ antagonists on chloroquine-resistant and chloroquine-sensitive parasites.

The effects of Ca2+ antagonists, verapamil, nicardipine, and diltiazem, on susceptibility to chloroquine were examined in mice infected with chloroquine-sensitive and chloroquine-resistant lines of Plasmodium chabaudi. In mice that received no chloroquine, daily injections of 50 mg/kg of verapamil, nicardipine, or diltiazem did not affect the growth of both sensitive and resistant parasites. When mice were injected daily with verapamil plus 2 to 3 mg/kg chloroquine, the chloroquine-sensitive parasite became more susceptible to chloroquine than the parasite in mice given chloroquine alone. On the other hand, in mice infected with chloroquine-resistant parasites, verapamil severely suppressed the growth of the parasite when accompanied by daily injections of 2 to 3 mg/kg of chloroquine, at which doses resistant parasites grew steadily in the absence of verapamil, indicating reversal of chloroquine resistance. This reversal was dose-dependent between 5 and 50 mg/kg of verapamil. Daily injections of nicardipine or diltiazem at 50 mg/kg also reversed resistance to chloroquine in resistant parasites. These results indicate that Ca2+ antagonists increase the susceptibility to chloroquine in a sensitive line of P. chabaudi and reverse chloroquine resistance in a resistant line.

Transport processes of 2-deoxy-D-glucose in erythrocytes infected with Plasmodium yoelii, a rodent malaria parasite.

The transport processes of D-glucose in Plasmodium yoelii-infected mouse erythrocytes were investigated using 2-deoxy-D-glucose (2DOG), a non-metabolizable analogue of D-glucose. Infected cells showed an increase in the uptake of 2DOG compared to uninfected controls, and an effect which was more prominent in cells with mature-stage parasites. Kinetic studies measuring the initial rates of 2DOG uptake revealed two components in infected cells with late trophozoite and schizont-stage parasites: a simple diffusion system and a carrier (transporter)-mediated system. The transporter was common for D-glucose and 2DOG and had a kinetic constant indicating a high affinity for 2DOG (the Km = 0.18 mM and the Vmax = 0.61 mmol/10(10) cells/min), as compared to the constant of the mouse erythrocyte carrier (the Km = 10 mM and the Vmax = 1.8 mmol/10(10) cells/min). Determination of the distribution of [3H]2DOG in infected cells and experiments with metabolic inhibitors indicated that the simple diffusion system localizes in the membrane of host cells and the transporter in the parasite plasma membrane. The parasite glucose transporter was much less sensitive to cytochalasin B than that of the host cells and the uptake of 2DOG via the transporter was dependent on energy. Based on these findings, the following features emerge: D-glucose first gains access to the cytosol of infected erythrocytes via the simple diffusion system, which appears after infection by the parasite, and an active uptake against the concentration gradient takes place at the parasite plasma membrane via the parasite glucose transporter in an energy dependent manner.(ABSTRACT TRUNCATED AT 250 WORDS)

Temperature-dependent conversion of sexual agglutinability in Saccharomyces cerevisiae

SummaryTemperature dependency of sexual agglutinability in Saccharomyces cerevisiae was found. In almost all strains tested that were derived from several different sources, the agglutinability was constitutive when grown at 25° C but inducible when grown at 36° C, suggesting that the temperature-dependent conversion of sexual agglutinability is general nature in Saccharomyces. Cycloheximide and 8-hydroxyquinoline inhibited completely both cell division and the conversion of the agglutinability from constitutive to inducible type. N-Hydroxyurea and 5-fluorouracil which allowed cell growth to some extent inhibited the conversion slightly. Hence, the conversion of the agglutinability from constitutive to inducible type may be achieved in cells newly born after temperature shift. The reverse conversion of the agglutinability was gradual in comparison with the conversion from constitutive to inducible type. This conversion of the agglutinability was regulated by a single gene closely linked to mating type locus, which is recognizable by using a temperature-independent constitutive strain.

Temperature-sensitive loss of sexual agglutinability in Saccharomyces cerevisiae.

Temperature dependency of sexual agglutination in Saccharomyces cerevisiae was found. Of 31 strains tested, which showed normal agglutination when cultured at 25°C, 29 strains lost their sexual agglutinability when they were grown at 37°C.

The Osaka University Aged Twin Registry: Epigenetics and Identical Twins Discordant for Aging-Dependent Diseases

The Osaka University Aged Twin Registry (OUATR) is the largest adult twin registry in Japan. Since its establishment in 1974, the OUATR has conducted a number of studies with particular focus on the environmental contribution to physical-cognitive-mental aging, longevity and aging-dependent diseases in later adulthood. The registry consists of 12,000 pairs of Japanese twins born between 1900 and 1935. Two hundred and fifty pairs of twins have undergone comprehensive medical examination to date. Follow-up questionnaires have been mailed out on a regular basis, for the purpose of checking current vital statuses, health conditions, and so forth. The main objective of this longitudinal twin study is to contribute to the prevention of lifestyle-related diseases and the promotion of successful aging.

Plasminogen phenotypes in a Japanese population. Four new variants including one with a functional defect.

Human plasminogen (PLG) phenotypes were investigated by polyacrylamide gel isoelectric focusing followed by immunoblotting. In 5,735 plasma samples from unrelated, healthy Japanese individuals, four new variants were detected and tentatively designated PLG AOsaka, PLG BOsaka, PLG MOsaka and PLG ANara. The plasminogen concentrations and activities of the PLG phenotypes were studied. In agreement with previous studies PLG M5 was found to have a decreased activity. The new variant PLG MOsaka had a very low activity and appears to be an abnormal plasminogen with a functional defect similar to that of PLG M5.

Chloroquine, a lysosomotropic agent, inhibits zygote formation in yeast

Haploid cells of opposite mating type of Saccharomyces cerevisiae conjugate to form zygote. During the conjugation process, the degradation or reorganization of the cell wall and the fusion of the two plasma membranes take place. Since chloroquine inhibits cellular events associated with the reorganization of the plasma membrane, the effect of the drug on conjugation was studied. Chloroquine at a concentration, at which cell growth was not retarded, inhibited zygote formation, while it did not affect other mating functions, such as sexual agglutination, production of and response to mating pheromone. Cells in a mating culture containing chloroquine formed no “prezygote” suggesting that they were not prepared for entering into fusion process. The inhibitory effect of chloroquine was reversible as cells formed zygote when they were washed after treatment with chloroquine. Zygote formation was unaffected in cells possessing chlorquine within vacuoles after incubation with the drug in complete medium (YPD) at pH 7.5, followed by washing. This suggests that chloroquine inhibits zygote formaton by adsorbing to the plasma membrane of S. cerevisiae.

Induction of sexual cell agglutinability of a mating type cells by α-factor in Saccharomycescerevisiae

Abstract Mating hormone, α-factor, which inhibits DNA synthesis and causes characteristic changes in cell morphology in a mating type cells, was also responsible for induction of sexual cell agglutinability of a mating type cells.

Salicylic acid resistance is conferred by a novel YRR1 mutation in Saccharomyces cerevisiae.

Yeast cells can extrude intracellular drugs through membrane-associated efflux pumps, such as ATP-binding cassette (ABC) transporters and members of the major facilitator superfamily. Gene expression of drug efflux pumps is regulated by several transcription factors involved in pleiotropic drug resistance (PDR). Salicylic acid (SA) possesses weak antifungal activity. Although the excretion mechanisms of some antifungal drugs have been revealed, the mechanism of SA extrusion remains unclear. To elucidate the mechanism of SA excretion, we screened SA-resistant mutants from random mutagenized Saccharomyces cerevisiae BY4741 cells. We successfully isolated 60 SA-resistant clones (KinSal001-060). KinSal052, one of the strongest SA-resistant clones, also exhibited resistance to 4-nitroquinoline-1-oxide and cycloheximide, indicating that it acquired the PDR phenotype. We identified a novel mutation in YRR1 conferring SA resistance to KinSal052. YRR1 encodes a Zn(II)2Cys6-type zinc-finger transcription factor that reportedly activates gene expression involved in PDR. Yeast cells carrying the yrr1 allele (yrr1-52) activated expression of several efflux pump-encoding genes, including YOR1, SNQ2, AZR1, and FLR1. These results suggested that SA resistance in KinSal052 is conferred by the overexpression of efflux pumps constitutively activated by the mutant form of Yrr1p.

Rapid clearance of Plasmodium yoelii-infected erythrocytes after exposure to the ionophore A23187

1. The effects of Ca2+ and the calcium ionophore A23187 on the intraerythrocytic development of the asexual forms of Plasmodium yoelii were examined. 2. Erythrocyte-free parasites obtained by saponin lysis of infected cells remained viable after exposure to 1 mM Ca2+. 3. A23187 inhibited the growth of P. yoelii and the inhibition was augmented by Ca2+ in cells infected with parasites at young stage of development. 4. A23187-treated infected cells disappeared from the circulation shortly after intravenous injection and this disappearance was profound in infected cells treated with the ionophore in the presence of Ca2+.