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Disease
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Drug
Enzyme
Compound
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Target Concepts:
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Query: EC:3.5.1.1 (
asparaginase
)
2,695
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. The mouse Gardner lymphoma 6C3HED was grown in ascites fluid in a form sensitive to the action of
L-asparaginase
(line 1), in another form which was resistant to
L-asparaginase
(line 2) and in a third form with partial sensitivity to
L-asparaginase
(line 3). 2. The L-asparaginyl-tRNA synthetase activities of extracts of the tumour cells, cultured both in the mouse and in vitro, were determined. Two of the lines, 1 and 3, in early passage numbers, showed a derepression mechanism involving L-asparagine. Mutation occurred with these lines resulting in the L-asparaginyl-tRNA synthetase activity of all the tumour cell lines being the same. 3. Cells of line 1 had low L-asparagine synthetase activity, which was unchanged by altering the supply of L-asparagine in vitro. Cells of lines 2 and 3 exhibited L-asparagine synthetase activities, which changed with the supply of L-asparagine. 4. It is not certain that L-asparagine synthetase activity of
L-asparaginase
-sensitive cells is controlled by L-asparaginyl-
tRNA
acting as a corepressor.
...
PMID:L-asparaginyl-tRNA synthetase and L-asparagine synthetase activities of L-asparaginase-sensitive and -resistant forms of the mouse Gardner lymphoma 6C3HED. 3 36
The combined effects of amino acid antagonists with proven or potential inhibitory activities on aminoacyl-
tRNA
synthetases were investigated on the murine leukemic cell line P388 D1. As the best result a summation of the antiproliferative effects was observed. Combinations with established cytostatic agents like platinum complexes or other antitumor compounds also yielded partly additive effects. In experiments performed with
asparaginase
L-aspartic acid-beta-hydroxamate gave synergistic growth inhibition of P388 D1 cells in vitro, which was reflected by additive effects against murine leukemia P388 in vivo.
...
PMID:Investigations on the antiproliferative effects of amino acid antagonists targeting for aminoacyl-tRNA synthetases. Part III--Combination experiments. 185 50
Gln-
tRNA
(Gln) is synthesized from Glu-
tRNA
(Gln) in most microorganisms by a
tRNA
-dependent amidotransferase in a reaction requiring ATP and an amide donor such as glutamine. GatDE is a heterodimeric amidotransferase that is ubiquitous in Archaea. GatD resembles bacterial asparaginases and is expected to function in amide donor hydrolysis. We show here that Methanothermobacter thermautotrophicus GatD acts as a glutaminase but only in the presence of both Glu-
tRNA
(Gln) and the other subunit, GatE. The fact that only Glu-
tRNA
(Gln) but not
tRNA
(Gln) could activate the glutaminase activity of GatD suggests that glutamine hydrolysis is coupled tightly to transamidation. M. thermautotrophicus GatDE enzymes that were mutated in GatD at each of the four critical
asparaginase
-active site residues lost the ability to hydrolyze glutamine and were unable to convert Glu-
tRNA
(Gln) to Gln-
tRNA
(Gln) when glutamine was the amide donor. However, ammonium chloride rescued the activities of these mutants, suggesting that the integrity of the ATPase and the transferase activities in the mutant GatDE enzymes was maintained. In addition, pyroglutamyl-
tRNA
(Gln) accumulated during the reaction catalyzed by the glutaminase-deficient mutants or by GatE alone. The pyroglutamyl-
tRNA
is most likely a cyclized by-product derived from gamma-phosphoryl-Glu-
tRNA
(Gln), the proposed high energy intermediate in Glu-
tRNA
(Gln) transamidation. That GatE alone could form the intermediate indicates that GatE is a Glu-
tRNA
(Gln) kinase. The activation of Glu-
tRNA
(Gln) via gamma-phosphorylation bears a similarity to the mechanism used by glutamine synthetase, which may point to an ancient link between glutamine synthesized for metabolism and translation.
...
PMID:Gln-tRNAGln formation from Glu-tRNAGln requires cooperation of an asparaginase and a Glu-tRNAGln kinase. 1561 Nov 11
To investigate the effect of l-
asparaginase
on acute lymphoblastic leukemia (ALL), we used cDNA microarrays to obtain a genome-wide view of gene expression both at baseline and after in vitro exposure to l-
asparaginase
in cell lines and pediatric ALL samples. In 16 cell lines, a baseline gene expression pattern distinguished l-
asparaginase
sensitivity from resistance. However, for 28 pediatric ALL samples, no consistent baseline expression pattern was associated with sensitivity to l-
asparaginase
. In particular, baseline expression of asparagine synthetase (ASNS) was not predictive of response to l-
asparaginase
. After exposure to l-
asparaginase
, 5 cell lines and 10 clinical samples exhibited very similar changes in the expression of a large number of genes. However, the gene expression changes occurred more slowly in the clinical samples. These changes included a consistent increase in expression of
tRNA
synthetases and solute transporters and activating transcription factor and CCAAT/enhancer binding protein family members, a response similar to that observed with amino acid starvation. There was also a consistent decrease in many genes associated with proliferation. Taken together, the changes seem to reflect a consistent coordinated response to asparagine starvation in both cell lines and clinical samples. Importantly, in the clinical samples, increased expression of ASNS after l-
asparaginase
exposure was not associated with in vitro resistance to l-
asparaginase
, indicating that ASNS-independent mechanisms of in vitro l-
asparaginase
resistance are common in ALL. These results suggest that targeting particular genes involved in the response to amino acid starvation in ALL cells may provide a novel way to overcome l-
asparaginase
resistance.
...
PMID:A genome-wide view of the in vitro response to l-asparaginase in acute lymphoblastic leukemia. 1566 6
Besides direct charging of tRNAs by aminoacyl-
tRNA
synthetases, indirect routes also ensure attachment of some amino acids onto
tRNA
. Such routes may explain how new amino acids entered into protein synthesis. In archaea and in most bacteria,
tRNA
(Gln) is first misaminoacylated by glutamyl-tRNA synthetase. Glu-
tRNA
(Gln) is then matured into Gln-
tRNA
(Gln) by a
tRNA
-dependent amidotransferase. We report the structure of a
tRNA
-dependent amidotransferase-that of GatDE from Pyrococcus abyssi. The 3.0 A resolution crystal structure shows a tetramer with two GatD molecules as the core and two GatE molecules at the periphery. The fold of GatE cannot be related to that of any
tRNA
binding enzyme. The ammonium donor site on GatD and the
tRNA
site on GatE are markedly distant. Comparison of GatD and
L-asparaginase
structures shows how the motion of a beta hairpin region containing a crucial catalytic threonine may control the overall reaction cycle of GatDE.
...
PMID:Structural basis for tRNA-dependent amidotransferase function. 1621 68
Aminoacyl-tRNAs (aa-tRNAs) are the essential substrates for translation. Most aa-tRNAs are formed by direct aminoacylation of
tRNA
catalyzed by aminoacyl-
tRNA
synthetases. However, a smaller number of aa-tRNAs (Asn-tRNA, Gln-tRNA, Cys-tRNA and Sec-tRNA) are made by synthesizing the amino acid on the
tRNA
by first attaching a non-cognate amino acid to the
tRNA
, which is then converted to the cognate one catalyzed by
tRNA
-dependent modifying enzymes. Asn-
tRNA
or Gln-
tRNA
formation in most prokaryotes requires amidation of Asp-
tRNA
or Glu-
tRNA
by amidotransferases that couple an amidase or an
asparaginase
to liberate ammonia with a
tRNA
-dependent kinase. Both archaeal and eukaryotic Sec-
tRNA
biosynthesis and Cys-
tRNA
synthesis in methanogens require O-phosophoseryl-
tRNA
formation. For
tRNA
-dependent Cys biosynthesis, O-phosphoseryl-tRNA synthetase directly attaches the amino acid to the
tRNA
which is then converted to Cys by Sep-
tRNA
: Cys-
tRNA
synthase. In Sec-
tRNA
synthesis, O-phosphoseryl-tRNA kinase phosphorylates Ser-
tRNA
to form the intermediate which is then modified to Sec-
tRNA
by Sep-tRNA:Sec-tRNA synthase. Complex formation between enzymes in the same pathway may protect the fidelity of protein synthesis. How these
tRNA
-dependent amino acid biosynthetic routes are integrated into overall metabolism may explain why they are still retained in so many organisms.
...
PMID:From one amino acid to another: tRNA-dependent amino acid biosynthesis. 1825 69
