Judith C. Swan scite author profile

Piritrexim, a lipid-soluble antifolate, was evaluated for its activity against Pneumocystis carinii and Toxoplasma gondii. The concentration of piritrexim needed to inhibit 50% of the catalytic activity of P. carinii dihydrofolate reductase (DHFR) was 19.3 nM, and that for T. gondi DHFR was 17.0 nM, concentrations that were 40-to over 1,000-fold less than those needed for the inhibition of activity by trimethoprim and pyrimethamine, the antifolates conventionally used in treating these organisms. Piritrexim was able to inhibit replication of T. gondii in a mouse peritoneal macrophage model at concentrations of 0.1 to 1.0 ILM.Leucovorin, a reduced folate that can bypass the inhibition of DHFR by antifols in mammalian ceUs but not in protozoa, did not affect the ability of piritrexim to inhibit T. gondii replication. The addition of sulfadiazine, which alone was ineffective, to piritrexim allowed inhibition of T. gondii replication at lower concentrations of piritrexim than when piritrexim was used alone. These results suggest that piritrexim, alone or combined with a sulfonamide, may be a highly potent antitoxoplasma and antipneumocystis agent that could provide major pharmacologic and clinical advantages over available agents.

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Activity of antifolates against Pneumocystis carinii dihydrofolate reductase and identification of a potent new agent.

Allegra¹,

Kovacs²,

Drake³

et al. 1987

125

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The therapy of Pneumocystis carinii (PC) pneumonia is often unsuccessful, particularly in patients with acquired immune deficiency syndrome (AIDS). Because of difficulties in growing the organism in vitro or obtaining purified organisms, current treatment choices have been made with little information on the metabolic effects of therapeutic agents on PC. This report quantitates the effects of the commonly used antifolates as well as the classic antineoplastic antifolate methotrexate and a lipid-soluble analogue, trimetrexate, on the target enzyme, dihydrofolate reductase (DHFR), in the PC organisms. Trimethoprim and pyrimethamine were found to be weak inhibitors (ID50 = 39,600 and 2,800 nM, respectively), while methotrexate and trimetrexate were potent reductase inhibitors (ID50 = 1.4 and 26.1 nM, respectively). transport studies with radiolabeled compounds showed that compounds with the classic folate structure (methotrexate and leucovorin) were not taken up by the intact PC organisms. In contrast, trimetrexate exhibited rapid uptake. These results suggest a major therapeutic advantage may be gained by combining a potent, readily transported PC DHFR inhibitor such as trimetrexate with the reduced folate leucovorin to achieve a highly potent antiprotozoan effect while preventing toxicity to mammalian cells.

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Potent in vitro and in vivo antitoxoplasma activity of the lipid-soluble antifolate trimetrexate.

Allegra¹,

Kovacs²,

Drake³

et al. 1987

J. Clin. Invest.

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Trimetrexate, a highly lipid-soluble quinazoline antifolate now undergoing trials as an anticancer agent, was found to be a potent inhibitor of the dihydrofolate reductase (DHFR) isolated from Toxoplasma gondii. The concentration required for 50% inhibition of protozoal DHFR was 1.4 nM. As an inhibitor of this enzyme, trimetrexate was almost 600-fold (amount of antifolate required to inhibit catalytic reaction by 50%) and 750-fold (inhibition constant) more potent than pyrimethamine, the DHFR inhibitor currently used to treat toxoplasma infection. When the protozoan was incubated with 1 jiM trimetrexate, the drug rapidly reached high intracellular concentrations. Since toxoplasma organisms lack a transmembrane transport system for physiologic folates, host toxicity can be prevented by co-administration of the reduced folate, leucovorin, without reversing the antiprotozoal effect. The effectiveness of trimetrexate against toxoplasma was demonstrated both in vitro and in vivo. Proliferation of toxoplasma in murine macrophages in vitro was completely inhibited by exposure of these cells to i0' M trimetrexate for 18 h. When used alone, trimetrexate was able to extend the survival of T. gondii-infected mice.

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Monoclonal Antibodies to Pneumocystis carinii: Identification of Specific Antigens and Characterization of Antigenic Differences Between Rat and Human Isolates

Kovacs

Halpern²,

Lundgren

et al. 1989

Journal of Infectious Diseases

117

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To increase understanding of the antigenic structure of Pneumocystis carinii, we developed monoclonal antibodies to rat and human P. carinii. The specificity of the antibodies was demonstrated by immunofluorescence and immunoblot studies. Only one of five monoclonal antibodies to rat P. carinii reacted with human P. carinii, and none of four monoclonal antibodies to human P. carinii reacted with rat P. carinii. Two antibodies to human P. carinii reacted by immunofluorescence with only one human P. carinii isolate. Immunoblot studies identified major antigens of rat P. carinii with molecular masses of 40,000-100,000 daltons and of human P. carinii with molecular masses of 22,000-95,000 daltons. These studies document the existence of antigenic differences between rat and human P. carinii and are consistent with the suggestion that individual isolates of human P. carinii are also antigenically different. Further studies with these antibodies should increase understanding of the antigenic nature of P. carinii and of the interaction of P. carinii with its host.

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In Vitro Response of Blastocystis hominis to Antiprotozoal Drugs

Zierdt¹,

Swan²,

Hosseini³

1983

The Journal of Protozoology

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Ten antiprotozoal drugs were tested in vitro against four axenic strains of the intestinal parasite Blastocystis hominis. Inhibitory drugs in order of effectiveness were emetine, metronidazole, furazolidone, trimethoprim sulfamethoxazole, 5-chloro-8-hydroxy-7-iodo-quinoline (Entero-Vioform), and pentamidine. Moderately inhibitory were two quinolines other than iodochlorhydroxquin. These were chloroquine and 5,7-diiodo-8-hydroxy-quinoline (Floraquin). Diloxanide furoate was not inhibitory. Paromomycin and other antibiotics were not inhibitory. Entero-Vioform and metronidazole have been effective in human and higher primate diarrhea caused by B. hominis.

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Judith C. Swan

Potent antipneumocystis and antitoxoplasma activities of piritrexim, a lipid-soluble antifolate

Activity of antifolates against Pneumocystis carinii dihydrofolate reductase and identification of a potent new agent.

Potent in vitro and in vivo antitoxoplasma activity of the lipid-soluble antifolate trimetrexate.

Monoclonal Antibodies to Pneumocystis carinii: Identification of Specific Antigens and Characterization of Antigenic Differences Between Rat and Human Isolates

In Vitro Response of Blastocystis hominis to Antiprotozoal Drugs

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