Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:1.5.1.3 (dihydrofolate reductase)
5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The ionization state of aspartate 26 in Lactobacillus casei dihydrofolate reductase has been investigated by selectively labeling the enzyme with [13Cgamma] aspartic acid and measuring the 13C chemical shifts in the apo, folate-enzyme, and dihydrofolate-enzyme complexes. Our results indicate that no aspartate residue has a pKa greater than approximately 4.8 in any of the three complexes studied. The resonance of aspartate 26 in the dihydrofolate-enzyme complex has been assigned by site-directed mutagenesis; aspartate 26 is found to have a pKa value of less than 4 in this complex. Such a low pKa value makes it most unlikely that the ionization of this residue is responsible for the observed pH profile of hydride ion transfer [apparent pKa = 6.0; Andrews, J., Fierke, C. A., Birdsall, B., Ostler, G., Feeney, J., Roberts, G. C. K., and Benkovic, S. J. (1989) Biochemistry 28, 5743-5750]. Furthermore, the downfield chemical shift of the Asp 26 (13)Cgamma resonance in the dihydrofolate-enzyme complex provides experimental evidence that the pteridine ring of dihydrofolate is polarized when bound to the enzyme. We propose that this polarization of dihydrofolate acts as the driving force for protonation of the electron-rich O4 atom which occurs in the presence of NADPH. After this protonation of the substrate, a network of hydrogen bonds between O4, N5 and a bound water molecule facilitates transfer of the proton to N5 and transfer of a hydride ion from NADPH to the C6 atom to complete the reduction process.
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PMID:Direct measurement of the pKa of aspartic acid 26 in Lactobacillus casei dihydrofolate reductase: implications for the catalytic mechanism. 1038 48

Changes in the activity and conformation of Chinese hamster dihydrofolate reductase (ch-DHFR) were studied in reverse micelles of cetyltrimethylammonium bromide (CTAB) and dodecylammonium butyrate (DAB) at various water contents and denaturant concentrations. The ch-DHFR entrapped in CTAB and DAB reverse micelles shows very low activity at a lower ratio of water to surfactant (omega(0)). The activity was enhanced in the presence of low concentrations of guanidine hydrochloride. Emission fluorescence spectra of ch-DHFR in aqueous medium and in reverse micelles in the presence of low concentrations of denaturants were compared. Only a slight change in emission intensity of ch-DHFR accompanies enzyme activation in the presence of low concentrations of guanidine hydrochloride in CTAB and DAB reverse micelles. There was no detectable change in the average diameters of CTAB and DAB reverse micelles in the presence of low concentrations of denaturants measured by laser light scattering, indicating that the enzyme activation in the presence of denaturant is not due to a size change in the reverse micelles. Our results suggest that the reduced activity of ch-DHFR in reverse micelles at low omega(0) is due to the restrictions in enzyme conformation caused by an environment with low water content. The reduction in enzyme activity was restored by the presence of low concentrations of denaturant or increased water content, indicating that conformation flexibility is important for full expression of enzyme activity.
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PMID:Activity and conformation changes of Chinese hamster dihydrofolate reductase in reverse micelles. 1041 12

Isolates from 25 (13 sporadic and 12 outbreak) cryptosporidiosis cases, 24 of which were from British Columbia, Canada, were characterized using nested polymerase chain reaction amplification of the polymorphic internal transcribed spacer 1 locus. Two predominant Cryptosporidium parvum genotypes were found. Twelve (8 sporadic and 4 outbreak) isolates amplified with the cry7/cry21 primer pair and 12 (5 sporadic and 7 outbreak) isolates amplified with the cry7/cryITS1 primer pair. Multi-locus gene analysis using sequence polymorphisms on 3 other loci, i.e., the thrombospondin-related adhesion protein gene, the dihydrofolate reductase gene, and the 18S rRNA gene on 8 (4 outbreak and 4 sporadic) isolates showed non-random association among the human and animal alleles of the 4 different C. parvum gene loci. Associations between these 2 parasite genotypes and different routes of cryptosporidiosis transmission such as zoonotic, anthroponotic, and waterborne transmission were studied using municipal population and agricultural information, as well as detection of C. parvum oocysts in municipal drinking water specimens of the residential communities of sporadic and outbreak cases.
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PMID:Molecular epidemiology of cryptosporidiosis outbreaks and transmission in British Columbia, Canada. 1043 58

The purpose of this study was to investigate the medium-term effects of methotrexate (MTX) and indomethacin on the growth of young rats. Four equal groups of Sprague-Dawley male rats (four animals in each group; mean+/-S.D. body weight, 183+/-13 g, in their rapid growth phase) were subjected to the following drug treatment: one group was given MTX (0.2 mg kg(-1) body weight) subcutaneously on every fourth day, another received indomethacin (2.5 mg kg(-1) body weight) subcutaneously daily and the third group was given both of these drugs (MTX on every fourth day and indomethacin daily). The fourth group was injected subcutaneously with physiological saline every day to serve as a control group. Total body weight, food and water consumption by animals in each group were monitored every second day for a period of 10 weeks. After this period, liver, spleen and kidneys were excised, weighed and analysed for MTX and dihydrofolate reductase activity. Compared with the groups, which received MTX alone, indomethacin alone, or physiological saline, mean increase (17+/-11 g) in body weight of rats was minimal in the group receiving both MTX and indomethacin. The difference was statistically significant (p=0.001) when the values of mean increase in body weight of rats in different treatment groups after a 10-week treatment were compared. The mean weights of liver and spleen in this group receiving both MTX and indomethacin were also found to be significantly less than the weights of these organs in the control group (p<0.01). There also appears to be a decline in food consumption in this group (p<0.05). This negative effect on growth of animals in this group appears to be not only due to decreased food consumption but also due to increased inhibition of de novo pathway of DNA synthesis. This is supported by increased accumulation of MTX and decreased dihydrofolate reductase activity in this group receiving both MTX and indomethacin, as compared with the group receiving MTX alone. The data indicate an additive effect of MTX and indomethacin on the suppression of growth in young rats, alluding to the notion that patients suffering from juvenile rheumatoid arthritis or acute lymphoblastic leukaemia receiving these two drugs concomitantly over a long period of time might be at a risk of experiencing short-term suppression of growth.
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PMID:Additive effect of indomethacin and methotrexate on suppression of growth in rats. 1087 96

The three-dimensional structure of the human dihydrofolate reductase (DHFR), methotrexate tetrazole, and NADPH ternary complex was used to model the corresponding ternary complexes with methotrexate tetrazole replaced by methotrexate, methotrexate-polyglutamate with three glutamyl residues, and 5,10-deazaaminopterin, respectively. Each complex was solvated in a 60-angstrom cube of explicit water and subjected to structural minimization followed by interaction energy analyses. Interaction energy calculations were performed for the antifolate interaction with water, NADPH, the DHFR binding site residues, the entire DHFR protein, and the solvated NADPH:DHFR complex. These studies revealed that methotrexate-polyglutamate exhibited the most stable interactions and that approximately one half of antifolate:DHFR stability could be accounted for by the interaction of the antifolate with the binding site residues. The antifolate structures were also subdivided into heterocyclic, phenyl, and glutamyl substructural regions. Interaction energies were subsequently calculated for the interactions of the subregions with water, NADPH, the DHFR binding site residues, the DHFR protein, and the solvated NADPH:DHFR complex. The glutamyl substructural region showed the greatest contribution to overall antifolate binding stability due to its interaction with the DHFR protein. The heterocyclic and phenyl substructural regions generally showed much less stable interactions. These results suggest that the primary stabilizing factor of the antifolate interaction is the interaction of glutamyl with the DHFR protein. Additionally, interaction energy analyses were performed for specific groups of atoms within the substructural regions. These studies indicated that the stability of the glutamyl interaction is due to the interaction of glutamyl oxygen atoms with the DHFR protein. In the case of the methotrexate tetrazole complex, the tetrazole nitrogens also contribute significantly to the stability of the glutamyl interaction. The carbon atoms of the heterocyclic and phenyl groups both showed more stable interactions with NADPH than with water, while the nitrogen atoms showed more stable interactions with water than with NADPH. Collectively, these results indicate that the glutamyl region is the most important in antifolate binding stability.
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PMID:Interaction energy analyses of folate analog binding to human dihydrofolate reductase: contribution of the antifolate substructural regions to complex stability. 1096 43

The crystal and molecular structure of methotrexate has been determined by X-ray diffraction from a highly hydrated triclinic crystal form in which the asymmetric unit contains two independent methotrexate molecules with their glutamate carboxyl groups coordinated to two strontium ions. The two methotrexates exhibit differing conformations: They are almost related to one another by a pseudocenter of symmetry. This places the C(9)-N(10) bond vectors on opposite sides of the planes of the pteridine rings. The 2,4-diaminopteridines form 2-fold symmetry-related hydrogen-bonded dimers as well as hydrogen bonds to benzoyl carbonyl oxygens and lattice water molecules. This structure provides experimental proof of the existence of pteridine conformers through rotation about the C(6)-C(9) bond. Comparison of these conformers with other free and enzyme-bound methotrexate conformations shows them all to be different and illustrates the ability of the molecule to adapt to its chemical environment. The results from this crystal structure determination are experimental proof that methotrexate has not one preferred molecular conformation but may freely rotate about several bonds. They also suggest that the dihydrofolate reductase-bound methotrexate conformation is greatly influenced by the specific binding site environment of the enzyme.
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PMID:Crystal structure of the hydrated strontium salt of methotrexate: two independent molecules with different conformations. 1117 Jun 37

Cryptosporidium, an enteric parasite of humans and a wide range of other mammals, presents numerous challenges to the supply of safe drinking water. We performed a wildlife survey, focusing on white-tailed deer and small mammals, to assess whether they may serve as environmental sources of Cryptosporidium. A PCR-based approach that permitted genetic characterization via sequence analysis was applied to wildlife fecal samples (n = 111) collected from September 1996 to July 1998 from three areas in lower New York State. Southern analysis revealed 22 fecal samples containing Cryptosporidium small-subunit (SSU) ribosomal DNA; these included 10 of 91 white-tailed deer (Odocoileus virginianus) samples, 3 of 5 chipmunk (Tamias striatus) samples, 1 of 2 white-footed mouse (Peromyscus leucopus) samples, 1 of 2 striped skunk (Mephitis mephitis) samples, 1 of 5 racoon (Procyon lotor) samples, and 6 of 6 muskrat (Ondatra zibethicus) samples. All of the 15 SSU PCR products sequenced were characterized as Cryptosporidium parvum; two were identical to genotype 2 (bovine), whereas the remainder belonged to two novel SSU sequence groups, designated genotypes 3 and 4. Genotype 3 comprised four deer-derived sequences, whereas genotype 4 included nine sequences from deer, mouse, chipmunk, and muskrat samples. PCR analysis was performed on the SSU-positive fecal samples for three other Cryptosporidium loci (dihydrofolate reductase, polythreonine-rich protein, and beta-tubulin), and 8 of 10 cloned PCR products were consistent with C. parvum genotype 2. These data provide evidence that there is sylvatic transmission of C. parvum involving deer and other small mammals. This study affirmed the importance of wildlife as potential sources of Cryptosporidium in the catchments of public water supplies.
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PMID:Cryptosporidium parvum infection involving novel genotypes in wildlife from lower New York State. 1122 5

A non-covalent interaction force field model derived from the partition coefficient of 1-octanol/water solubility is described. This model, HINT for Hydropathic INTeractions, is shown to include, in very empirical and approximate terms, all components of biomolecular associations, including hydrogen bonding, Coulombic interactions, hydrophobic interactions, entropy and solvation/desolvation. Particular emphasis is placed on: (1) demonstrating the relationship between the total empirical HINT score and free energy of association, deltaGinteraction; (2) showing that the HINT hydrophobic-polar interaction sub-score represents the energy cost of desolvation upon binding for interacting biomolecules; and (3) a new methodology for treating constrained water molecules as discrete independent small ligands. An example calculation is reported for dihydrofolate reductase (DHFR) bound with methotrexate (MTX). In that case the observed very tight binding, deltaGinteraction < or = -13.6 kcal mol(-1), is largely due to ten hydrogen bonds between the ligand and enzyme with estimated strength ranging between -0.4 and -2.3 kcal mol(-1). Four water molecules bridging between DHFR and MTX contribute an additional -1.7 kcal mol(-1) stability to the complex. The HINT estimate of the cost of desolvation is +13.9 kcal mol(-1).
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PMID:Very empirical treatment of solvation and entropy: a force field derived from log Po/w. 1134 19

Despite much experimental and computational study, key aspects of the mechanism of reduction of dihydrofolate (DHF) by dihydrofolate reductase (DHFR) remain unresolved, while the secondary DHFR-catalyzed reduction of folate has been little studied. Major differences between proposed DHF mechanisms are whether the carboxylate group of the conserved active-site Asp or Glu residue is protonated or ionized during the reaction, and whether there is direct protonation of N5 or a proton shuttle from an initially protonated carboxylate group via O4. We have addressed these questions for both reduction steps with a comprehensive set of ab initio quantum chemical calculations on active-site fragment complexes, including the carboxyl side chain and, progressively, all other polar active-site residue groups including conserved water molecules. Addition of two protons in two steps was considered. The polarization effects of the remainder of the enzyme system were approximated by a dielectric continuum self-consistent reaction field (SCRF) model using an effective dielectric constant (epsilon) of 2. Optimized geometries were calculated using the density functional (B3LYP) method and Onsager SCRF model with the 6-31G basis. Single-point energy calculations were then carried out at the B3LYP/6-311+G level with either the Onsager or dielectric polarizable continuum model. Additional checking calculations at MP2 and HF levels, or with other basis sets or values of epsilon, were also done. From the results, the conserved water molecule, corresponding to W206 in the E. coli DHFR complexes, that is H-bonded to both the OD2 oxygen atom of the carboxyl (Asp) side chain and O4 of the pterin/dihydropterin ring, appears critically important and may determine the protonation site for the enzyme-bound substrates. In the absence of W206, the most stable monoprotonated species are the neutral-pair 4-enol forms of substrates with the carboxyl group OD2 oxygen protonated and H-bonded to N3. If W206 is included, then the most stable forms are still the neutral-pair complexes but now for the N3-H keto forms with the protonated OD2 atom H-bonding with W206. A second proton addition to these complexes gives protonations at N8 (folate) or N5 (DHF). Calculated H-bond distances correlate well with those for the conserved W206 observed in many X-ray structures. For all structures with occluded M20 loop conformations (closed active site), OD2-N3 distances are less than OD2-NA2 distances, which is consistent with those calculated for protonated OD2 complexes. Thus, the results (B3LYP; epsilon = 2 calculations) support a mechanism for both folate and DHF reduction in which the OD2 carboxyl oxygen is first protonated, followed by a direct protonation at N8 (folate) and N5 (DHF) to obtain the active cation complexes, i.e., doubly protonated. The results do not support a proposed protonated carboxyl with DHF in the enol form for the Michaelis complex, nor an ionized carboxyl with protonated enol-DHF as a catalytic intermediate. However, as additional calculations for the monoprotonated complete complexes show a reduction in the energy differences between the neutral-pair keto and ion-pair keto (N8- or N5-protonated) forms, we are extending the treatment using combined quantum mechanics and molecular mechanics (QM/MM) and molecular dynamics simulation methods to refine the description of the protein/solvent environment and prediction of the relative stabilization free energies of the various (OD2, O4, N5, and N8) protonation sites.
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PMID:Energetically most likely substrate and active-site protonation sites and pathways in the catalytic mechanism of dihydrofolate reductase. 1147 12

The objective of this study was to investigate whether folinic acid supplementation would protect young mice against suppression of growth by methotrexate (MTX). Four equal groups of Balb/c young male mice (5 animals in each group; mean+/-SD body weight 9.64+/-0.85 g, in their rapid growth phase) were subjected to the following drug treatment: One group was given MTX (3.5 mg/kg body weight) intraperitoneally on every 2nd day, another received folinic acid (7.0 mg/kg body weight) intraperitoneally every 2nd day. The third group was given both of these drugs (MTX on every 2nd day and folinic acid 8 h post-MTX injection). The fourth group was injected with physiological saline every other day to serve as a control group. Total body weight, food and water consumption by animals in each group were monitored every second day for a period of 3 weeks. After this period mice were sacrificed and liver, spleen and kidneys were excised, weighed and analyzed for MTX and dihydrofolate reductase activity. A small segment of the proximal part of small intestine and small pieces of liver and kidney were also removed to study morphological changes. Compared to the groups, which received folinic acid alone, folinic acid plus MTX or physiological saline, mean increase in body weight (6.8+/-0.8 g) of mice over a period of 3 weeks was minimal in the group receiving MTX alone (one-way ANOVA p=0.0001). The mean weights of liver and kidney in this group receiving MTX alone were also found to be significantly less than the mean weights of these organs in the 3 groups (p<0.001). The negative effect on growth of animals appears not only due to malabsorption but inhibition of pathway of de novo DNA synthesis may also be involved. This is supported by loss of villous pattern in small intestine of mice treated with MTX alone and increased accumulation of free MTX and decreased dihydrofolate reductase in the liver of the group receiving MTX alone as compared with the group receiving MTX plus folinic acid. The data indicate that the administration of folinic acid protects mice against suppression of growth by MTX. On the basis of these observations it can be deduced that patients suffering from juvenile rheumatoid arthritis or acute lymphoblastic leukaemia receiving MTX over a long period of time might be at a risk of experiencing short-term suppression of growth, however they could benefit from supplementation with folinic acid.
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PMID:Folinic acid protects against suppression of growth by methotrexate in mice. 1174 19


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