Diaminopyrimidines selective toxicity

All of these compounds are inhibitors of dihydrofolate reductase in bacteria, plasmodia, and humans. Fortunately, they have a significantly high affinity for bacterial and protozoan dihydrofolate reductases. Pyrimethamine, for example, inhibits parasite dihydrofolate reductase at levels several hundred times lower than required to inhibit dihydrofolate reductase in humans. This is the basis of their selective toxicity. The selective toxicity can be increased upon supplying additional folic acid to the host organism, which the parasite cannot use. In fact, diaminopyrimidines (trimetoprim, pyrimethamine) were initially suggested as medicinal and preventative drugs against malarial infections. It was shown that all powerful inhibitors of dihydrofolate reductase can remove the malarial parasite with relatively minor consequences in the host. 

MECHANISMS OF ANTIMALARIAL ACTION AND RESISTANCE The 2,4-diaminopyrimidines inhibit dihydrofolate reductase of plasmodia at concentrations far lower than those required to inhibit the mammalian enzymes. The dihydrofolate reductase in malaria resides on the same polypeptide chain as thymidylate synthase and is not upregulated in the face of inhibition, which contributes to the selective toxicity of the antifolates. Synergism between pyrimethamine and the sulfonamides or sulfones has been attributed to inhibition of two steps in an essential metabolic pathway. 

It is evident, therefore, that the 2,4-diaminopyrimidines, like pyrimethamine and trimethoprim, the dihydrotriazines like proguanil (in its active metabolite form), the 2,4-diaminopteridines, and methotrexate, inhibit dihydrofolate reductase. Their selective toxicity to plasmodia may be due to a combination of greater binding to the parasite enzyme and to their selective uptake by parasitised erythrocytes. However, a new antifolic mode of action has recently been proposed for compounds like tetrahydrohomopteroic acid [288], which may inhibit folate metabolism by an action on the feedback... 

The sulfonamides are a group of organic compounds with chemotherapeutic activity they are antimicrobial agents and not antibiotics. They have a common chemical nucleus that is closely related to PABA, an essential component in the folic acid pathway of nucleic acid synthesis. The sulfonamides are synergistic with the diaminopyrim-idines, which inhibit an essential step further along the folate pathway. The combination of a sulfonamide and a diaminopyrimidine is advantageous because it is relatively non-toxic to mammalian cells (less sulfonamide is administered) and is less likely to select for resistant bacteria. Only these so-called potentiated sulfonamides are used in equine medicine. These drugs are formulated in a ratio of one part diaminopyrimidine to five parts sulfonamide, but the optimal antimicrobial ratio at the tissue level is 1 20, which is achieved because the diaminopyrimidines are excreted more rapidly than the sulfonamides. 

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See also in sourсe #XX -- [ , ]

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