Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.5.1.3 (dihydrofolate reductase)
 5,819 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A number of antifolate drugs, which inhibit the key enzymes in the 'thymidylate cycle', dihydrofolate reductase (DHFR) and thymidylate synthase (TS), have been developed as part of the search for analogues with superior antitumor efficacy to a 'classical' antifolate, methotrexate (MTX), and those which are active against the MTX-resistant tumor cells. Recent development of newer classes of antifolate drugs is based on the extensive understanding of the relationship between chemical structures and biological properties and of analogue interactions with target enzymes, transport proteins and folate metabolizing enzyme, folylpolyglutamate synthetase (FPGS). Tumor cells may develop resistance to an antifolate drug by virtue of, (1) amplified activity in its target enzyme, (2) impaired function of drug transport protein, e.g. reduced folate carrier (RFC), (3) induction of mutated target enzyme with low affinity for antifolate(s), and (4) defective polyglutamation of drug(s) in the cells. Recent studies have elucidated in part the molecular events involved in the resistance to antifolates. These include amplification and/or mutation of the gene encoding a target enzyme, reduced or altered gene expression of the RFC, and mutated expression of the FPGS gene. To overcome or circumvent the resistance mechanisms, new antifolates with diverse structures and different biological properties have been designed and developed for clinical use. Trimetrexate (TMQ), a lipophilic DHFR inhibitor which is not a substrate for RFC and FPGS, could overcome the MTX-resistance through impaired RFC and diminished polyglutamation, and partially through amplified DHFR. Selective inhibitors of TS with a folate structure such as raltitrexed could circumvent the resistance by virtue of DHFR overproduction, and this class of compounds which have higher substrate activities for FPGS than MTX may be of value for the treatment of myeloid leukemias in addition to lymphocytic malignancies resistant to conventional chemotherapy. Several strategies to overcome antifolate resistance by using gene therapy are currently under investigation.
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PMID:Cellular and molecular mechanisms of resistance to antifolate drugs: new analogues and approaches to overcome the resistance. 947 73

Extensive biochemical and pharmacological evidence indicates that LY231514 is a novel antifolate antimetabolite. LY231514 is transported into cells mainly through the reduced folate carrier system and extensively metabolized to polyglutamated forms. The polyglutamates of LY231514 inhibit at least three key folate enzymes: TS, DHFR, and GARFT, and to a lesser extent AICARFT and C1-tetrahydrofolate synthase. The combined effects of the inhibition exerted by LY231514 at each target give rise to an unusual end-product reversal pattern at the cellular level that is distinct from those of other inhibitors such as methotrexate and the quinazoline antifolates. The metabolic effects exerted by LY231514 on the folate and nucleotide pools are also quite distinct from those of MTX and LY309887. The efficient polyglutamation, longer cellular retention and the multiple folate enzyme inhibition mechanism may all have contributed directly to the exciting antitumor responses now observed in Phase I and II studies. The multitargeted inhibition mechanism of LY231514 is particularly intriguing. This new level of mechanistic insight, which has evolved from the study of LY231514, challenges the traditional concept and paradigm of antifolate drug discovery and development which focused on developing very potent and selective inhibitors of single folate enzyme targets, such as DHFR, TS or one of the enzymes along the de novo purine biosynthetic pathway. Given the complex nature of folate metabolism and the critical role of folates in maintaining the physiological functions of living systems, it is completely reasonable to suspect that agents which can interfere at multiple sites in the folate pathway may trigger and cause more biochemical imbalance in the cellular DNA and RNA synthesis of malignant cells than agents that act on a single point (Fig. 5). In conclusion, LY231514 (MTA) is a new generation antifolate antimetabolite demonstrating inhibitory activity against multiple folate enzymes including TS, DHFR and GARFT. In current phase II studies, MTA is broadly active as a single agent and is showing very encouraging antitumor activity in multiple solid tumors including colorectal, breast and non-small cell lung cancers (38-43). The every three week dosing schedule has proven to be convenient and easy to administer and the clinical toxicities of LY231514 seem to be well tolerated. More advanced and extensive clinical trials of LY231514 are currently in progress.
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PMID:Multiple folate enzyme inhibition: mechanism of a novel pyrrolopyrimidine-based antifolate LY231514 (MTA). 976 51

In an effort to develop a gene-dependent enzyme/prodrug therapy (GDEPT) for tumor-specific delivery of methotrexate (MTX) we have chosen to construct mutant forms of carboxypeptidase A1 (CPA) that circumvent the requirement for trypsin-dependent activation. The basis of this strategy is that methotrexate-alpha-peptides are inefficient substrates for the reduced folate carrier (RFC) and hence cannot be internalized by cells. However, the blocking amino acid can be cleaved by CPA to liberate MTX, which is then internalized by the RFC, resulting in inhibition of dihydrofolate reductase and cytotoxicity. A battery of mutant CPAs was generated, in which the putative trypsin cleavage sites in the propeptide were mutated to the consensus recognition sequence for mammalian subtilisin-like propeptidases. These mutant forms of CPA were evaluated for expression, activation, and catalytic activity by transiently transfecting them into COS-1 cells both in the absence and in the presence of cotransfected propeptidases. CPA95 was identified as the most efficiently cleaved mutant, and further studies of this mutant indicated that the endogenously activated enzyme had kinetic parameters identical to those of the trypsin-activated wild-type protein. In addition, endogenously activated CPA95 could effectively sensitize cells to MTX-Phe in culture, decreasing the IC50 of MTX-Phe from 25- to 250-fold in squamous cell carcinoma cells expressing active CPA as compared with the parental lines.
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PMID:Toward an enzyme/prodrug strategy for cancer gene therapy: endogenous activation of carboxypeptidase A mutants by the PACE/Furin family of propeptidases. 1002 48

High-dose methotrexate is a major component of current protocols for the treatment of osteosarcoma, but some tumors seem to be resistant. Potential mechanisms of resistance include decreased transport through the reduced folate carrier (RFC) and increased expression of dihydrofolate reductase (DHFR). To investigate methotrexate resistance, tumors were obtained from 42 patients with high-grade osteosarcoma. RFC and DHFR mRNA expression were studied by semiquantitative reverse transcription-PCR. The RFC and DHFR genes were studied for deletions and amplification by Southern blot. Thirteen of 20 (65%) osteosarcoma samples were found to have decreased RFC expression at the time of initial biopsy. At definitive surgery and relapse, 10 of 22 (45%) were found to have decreased RFC expression. Seventeen of 26 (65%) samples with a poor response to chemotherapy had decreased RFC expression, whereas 5 of 14 (36%) samples with a good response had a decrease (P = 0.03). None of the samples had an RFC gene deletion. Two of 20 samples (10%) showed increased DHFR expression at initial biopsy. The frequency of increased DHFR expression was significantly higher in metastatic or recurrent tumors (62%, P = 0.014). None of the samples showed evidence of DHFR gene amplification. The high frequency of decreased RFC expression in the biopsy material suggests that impaired transport of methotrexate is a common mechanism of intrinsic resistance in osteosarcoma. Increased DHFR expression in the pulmonary metastases may be a mechanism of acquired methotrexate resistance or a difference between primary and metastatic lesions.
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PMID:Mechanisms of methotrexate resistance in osteosarcoma. 1010 Jul 15

Nonpolyglutamatable antifolates are potentially of therapeutic interest for the treatment of tumors that are inherently refractory, or have become resistant, to classical antifolates as a result of decreased expression of the enzyme folylpolyglutamate synthetase. An interesting class of water-soluble nonpolyglutamatable analogs of aminopterin (AMT) have been developed, which are much more cytotoxic because they bind more tightly to dihydrofolate reductase (DHFR) and also utilize the reduced folate carrier (RFC) pathway more efficiently for influx into the cell. This review summarizes the in vitro and in vivo preclinical data on the initial lead compound, Nalpha-(4-amino-4-deoxypteroyl)-Ndelta- hemiphthaloyl-L-ornithine (PT523). In addition, the synthesis and in vitro biochemical and biological properties of several types of second-generation analogs are discussed. Analogs modified in the B-ring of the pteridine moiety have been found to be of particular interest because their affinity for DHFR and their influx rate into cells via the RFC pathway are even greater than those of PT523. The hemiphthaloylornithine moiety, which is larger and more hydrophobic than the glutamate side chain of classical antifolates, appears to be chiefly responsible for the exceptionally high biological potency of PT523 and its B-ring analogs.
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PMID:PT523 and other aminopterin analogs with a hemiphthaloyl-L-ornithine side chain: exceptionally tight-binding inhibitors of dihydrofolate reductase which are transported by the reduced folate carrier but cannot form polyglutamates. 1010 Dec 16

The detrimental effect of chronic administration of carbamazepine (CBZ) on serum and erythrocyte folates of patients has been extensively analyzed. However, at present, no data have been reported on the effect of CBZ on the intracellular content and activity of antimetabolite cytotoxic agents that can be used together with CBZ in the treatment of cancer patients. To investigate this issue, we chronically exposed in vitro the human ovarian cancer cell line SKOV-3 (grown under physiological folate concentrations) to CBZ, thus selecting SKOV-CBZ clones (SKOV-CBZ-50-2, SKOV-CBZ-50-5 and SKOV-CBZ-100-2) able to grow in the continuous presence of the antiepileptic drug. All of the SKOV-CBZ clones were more resistant to methotrexate (MTX) than the parental cells. MTX resistance index, as determined by the ratio between MTX concentrations inhibiting cell growth by 50% (MTX IC(50)) in SKOV-CBZ clones and in the parental cells, ranged between 3- and 5-fold. This resistance was related to a reduced intracellular content of MTX. No alteration activity of the cellular enzymes directly involved in MTX cytotoxicity (dihydrofolate reductase, thymidylate synthase [TS] and folylpolyglutamate synthetase) was observed. SKOV-CBZ clones were cross-resistant to the TS inhibitors tomudex and CB3717, but not to the TS inhibitor 5-fluoro-deoxy uridine and other antineoplastic drugs (cisplatin, doxorubicin, vincristine and taxol), whose cellular uptake is derived from transmembrane transport mechanisms different from folate receptor alpha (FRalpha) or reduced folate carrier (RFC). FRalpha mRNA and protein levels were significantly lower in SKOV-CBZ clones than in the parental cells. The reduced level of FRalpha in SKOV-CBZ clones was associated with a decreased binding capacity of folic acid. No variation of mRNA RFC expression in the SKOV-CBZ clones as compared to the parental cells was observed. Thus, after chronic exposure to CBZ, SKOV-CBZ clones develop resistance towards MTX due to defective MTX uptake.
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PMID:Resistance to methotrexate in SKOV-3 cell lines after chronic exposure to carbamazepine is associated with a decreased expression of folate receptor. 1069 49

N(alpha)-(4-Amino-4-deoxypteroyl)-N(delta)-hemiphthaloyl-L-o rnithine (PT523) is an unusually tight-binding dihydrofolate reductase (DHFR) inhibitor and is efficiently taken up into cells via the reduced folate carrier (RFC). Unlike classical DHFR inhibitors with a glutamate side chain, such as methotrexate and aminopterin, PT523 cannot form polyglutamates. Thus, it resembles lipophilic antifolates such as trimetrexate in not requiring metabolic activation by folylpolyglutamate synthetase in order to produce its antifolate effect. However, in contrast to trimetrexate, PT523 retains growth inhibitory activity in cells with the multidrug resistance phenotype. As part of the preclinical development of this drug, we have performed systematic modification of several regions of the PT523 molecule, with the aim of defining the optimal structural features for DHFR binding, influx into cells via the RFC, and the ability to inhibit cell growth. The following structure-activity correlations have emerged from this ongoing investigation, and are discussed: (1) the hemiphthaloylornithine side chain has the optimal length; (2) the preferred location of the aromatic carboxyl group is the ortho position; and (3) replacement of the phenyl ring of the para-aminobenzoic acid moiety by naphthalene, of nitrogen at the 10-position of the bridge by carbon, and of nitrogen at the 5- and/or 8-position of the B-ring by carbon are all well tolerated. Several of the second generation analogs of PT523 are more potent DHFR inhibitors and better RFC substrates than PT523 itself, and are more potent inhibitors of tumor cell growth in culture.
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PMID:The effect of side-chain, para-aminobenzoyl region, and B-ring modifications on dihydrofolate reductase binding, influx via the reduced folate carrier, and cytotoxicity of the potent nonpolyglutamatable antifolate N(alpha)-(4-amino-4-deoxypteroyl)-N(delta)-hemiphthaloyl-L- ornithine. 1073 74

The potent nonpolyglutamatable dihydrofolate reductase inhibitor N(alpha)-(4-amino-4-deoxypteroyl)-N(delta)-hemiphthaloyl-L-o rnithine (PT523) and six of its B-ring (5-deaza, 8-deaza, and 5,8-dideaza) analogues were compared in terms of their ability to: (a) inhibit the growth of CCRF-CEM human leukemic lymphoblasts, and (b) utilize the reduced folate carrier (RFC) in these cells as measured in a competition assay of [(3)H]methotrexate ([(3)H]MTX) influx. The IC(50) values of the hemiphthaloylornithine derivatives against CCRF-CEM cells after 72 hr of drug exposure varied from 0.64 to 1.3 nM as compared with 14 nM for MTX and 4.4 nM for aminopterin (AMT). The K(i) values of these compounds in the [(3)H]MTX influx assay were in the 0.3 to 0.7 microM range as compared with a K(i) of 5.4 microM for AMT and a K(t) of 7.1 microM for MTX. As a group, the affinities of these compounds for the RFC were approximately 10-fold greater than those of their respective glutamate analogues. These results indicate that, in addition to their previously reported tight binding to dihydrofolate reductase, a property contributing to the high potency of PT523 and its B-ring analogs as inhibitors of tumor cell growth is their strong affinity for the RFC.
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PMID:Efficient utilization of the reduced folate carrier in CCRF-CEM human leukemic lymphoblasts by the potent antifolate N(alpha)-(4-amino-4-deoxypteroyl)-N(delta)-hemiphthaloyl-L- ornithine (PT523) and its B-ring analogues. 1080 43

Cancer cell lines in standard cell culture medium or in animal models are surrounded by an environment with relatively high folate (HF) levels, compared with folate levels in human plasma. In the present study we adapted 4 colon cancer (C26-A, C26-10, C26-G and WiDr) and 3 squamous cell carcinoma of the head and neck (HNSCC) cell lines (11B, 14C and 22B) to culture medium with low folate (LF) levels (2.5, 1.0 and 0.5 nM, respectively) and investigated whether folate depletion had an effect on sensitivity to antifolates and which mechanisms were involved. All LF cell lines showed a higher sensitivity to 5-fluorouracil (5-FU) alone or in combination with leucovorin (LV) (2-5-fold), to the thymidylate synthase (TS) inhibitors, AG337 (2-7-fold), ZD1694 (3-49-fold), ZD9331 (3-40-fold), LY231514 (2-21-fold) or GW1843U89 (4-29-fold) or to the dihydrofolate reductase (DHFR) inhibitor PT523 (2-50-fold) compared with their HF variants cultured in standard medium containing up to 8 microM folic acid. LV could only increase sensitivity to 5-FU in HNSCC cell lines 14C and 14C/F. The differences in sensitivity could partially be explained by a 2-7-fold increased transport activity of the reduced folate carrier (RFC) in LF cell lines, whereas no significant change in folylpolyglutamate synthetase (FPGS) activity was observed. Furthermore, the protein expression and catalytic activity of the target enzyme TS were up to 7-fold higher in HF colon cancer cells compared with the LF variants (p < 0.05). Although the TS protein expression in LF HNSCC cells was also lower than in HF variants, the TS catalytic activity and FdUMP binding sites were up to 3-fold higher (p < 0.05). Thus, changes in TS levels were associated with differences in sensitivity. These results indicate that folate depletion was associated with changes in TS and RFC levels which resulted in an increase in sensitivity to 5-FU and antifolates. The folate levels in LF medium used in this study are more representative for folate levels in human plasma and therefore these data could be more predictive for the activity of 5-FU and antifolates in a clinical setting than results obtained from cell lines cultured in HF medium or in animal models.
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PMID:Folate depletion increases sensitivity of solid tumor cell lines to 5-fluorouracil and antifolates. 1095 84

The glutamic acid moiety of N-[4-[3-(2,4-diamino-7H-pyrrolo[2,3-d]pyrimidin-5-yl)propyl]benzoyl]-L-g lutamic acid (1b, TNP-351) and the related compound (1a), was replaced with various N(omega)-acyl-, sulfonyl-, carbamoyl- and aryl-2,omega-diaminoalkanoic acids, and the inhibitory effects of the resulting products (9, 11, 14, 18, 21, 23, 25, 30, 36) on dihydrofolate reductase (DHFR), the growth of murine fibrosarcoma Meth A cells, and methotrexate-resistant human CCRF-CEM cells, were examined. Compounds (9a-f) acylated with a hemiphthaloyl group were efficiently synthesized by coupling pyrrolo[2,3-d]pyrimidine carboxylic acids (7a,b) and N(omega)-phthaloyl 2,omega-diaminoalkanoic acid methyl esters (6a-c) and subsequent hydrolysis. The other N(omega)-acyl- and sulfonyl-ornithine analogs (21, 23, 25) were synthesized by acylation of free amino intermediates (19a,b) derived from tert-butoxycarbonyl-ornithine analogs (17a,b). A free ornithine analog (18) did not strongly inhibit Meth A cell growth, whereas all N(omega)-acyl-, sulfonyl-, carbamoyl- and aryl-ornithine analogs (9, 11, 21, 23, 25, 30, 36) exhibited much more potent inhibitory activities against both DHFR and Meth A cell growth. In particular, compounds 9c, 21k and 36a also showed remarkable growth-inhibitory activities against methotrexate-resistant CCRF-CEM cells. These results demonstrate that the potent inhibitory activities of N(omega)-masked ornithine analogs against the growth of Meth A cells and methotrexate-resistant CCRF-CEM cells, results from effective uptake via reduced folate carrier and their potent DHFR inhibition.
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PMID:Non-glutamate type pyrrolo[2,3-d]pyrimidine antifolates. III. Synthesis and biological properties of N(omega)-masked ornithine analogs. 1099 24


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