Bacterial L-asparaginases are amidohydrolases (EC 3.5.1.1) capable of deaminating L-asparagine and, with reduced efficiency, L-glutamine. Interest in the study of L-asparaginases is driven by their use as biodrugs for the treatment of acute lymphoblastic leukemia. Here, we report for the first time the description of the molecular structure of type II asparaginase from in complex with its secondary product, L-glutamate. To obtain high-quality crystals, we took advantage of the N24S variant, which has structural and functional features similar to the wild-type enzyme, but improved stability, and which yields more ordered crystals. Analysis of the structure of the N24S-L-glutamate complex (N24S-GLU) and comparison with its apo and L-aspartate-bound form confirmed that the enzyme-reduced catalytic efficiency in the presence of L-glutamine is due to L-glutamine misfitting into the enzyme-binding pocket, which causes a local change in the catalytic center geometry. Moreover, a tight interaction between the two protomers that form the enzyme active site limits the capability of L-glutamine to fit into (and to exit from) the binding pocket of L-asparaginase, explaining why the enzyme has lower glutaminolytic activity compared to other enzymes of the same family, in particular the one.
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| http://dx.doi.org/10.3390/ijms23115942 | DOI Listing |
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Article Synopsis
- L-asparaginases are enzymes that convert L-asparagine into L-aspartic acid and ammonia, and they are important in the pharmaceutical industry, particularly for cancer treatments.
- Scientists are exploring yeast-derived L-asparaginases as an alternative to bacterial ones, which can cause adverse immune responses.
- The study focuses on a specific yeast enzyme, Lachancea thermotolerans, demonstrating that a mutant form of this enzyme shows increased activity and significant antileukemic potential compared to commercial bacterial versions.
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