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  • Title: Transport and metabolism of folates by bacteria.
    Author: Shane B, Stokstad EL.
    Journal: J Biol Chem; 1975 Mar 25; 250(6):2243-53. PubMed ID: 234963.
    Abstract:
    Transport of labeled folic acid (PteGlu), pteroylpolyglutamates (PteGlu3-5), 5-methyl-tetrahydrofolate (5-methyl-H4PteGlu), and methotrexate in late-log phase cells of Lactobacillus casei was active, and subject to inhibition by unlabeled pteroylmonoglutamates, pteroylpolyglutamates, and iodoacetate, but not glutamate or glutamate dipeptides. Pteroylpolyglutamates were transported without prior hydrolysis and shared a common uptake system with pteroylmonoglutamates. The affinity and maximum velocity of PteGlun uptake decreased with increasing glutamate chin length (Km:PteGlu1, 0.03 mum; PteGlu3, 0.32 mum; PteGlu4, 1.9 mum; PteGlu5, 3.7 mum) and comparisons with growth response curves suggested that polyglutamates were more effectively utilized by L. casei, once transported, than monoglutamate. No concentration of 5-methyl-H4PteGlu3-8 inside the cells was observed. The major folate metabolites found in L. casei preloaded with high levels of [3H]PteGlu (0.5 mum) were 10-formyl-H4PteGlu2 and 10-formyl-PteGlu. Both compounds were released, the monoglutamate more rapidly. Pteroyltriglutamate formation appeared to be a rate-limiting step in intracellular metabolism. No 10-formyl-Pte-Glu was found in iodoacetate-treated cells and efflux was inhibited. Cells preloaded with low levels of [3H]PteGlu (7 nm) metabolized the vitamin to polyglutamate forms, the major derivatives being H4PteGlun. First order exit rates of labeled folate from preloaded L. casei indicated an inhibition of PteGlu uptake with time. Exit rates dropped from 0.05 min-1 to greater than 0.002 min-1 as intracellular folate was metabolized from monoglutamate to polyglutamate derivatives (n larger than or equal to 3). In the latter case, materials lost by efflux were breakdown products and no folate of glutamate chain length greater than two was released. Pediococcus cerevisiae actively transported 5-methyl-H4PteGlu but did not take up to 5-methyl-H4PTeGlu3-8. No active accumulation of 5-methyl-H4PteGlu was observed in Streptococcus faecalis.
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