大肠杆菌对氨基苯甲酰谷氨酸水解酶与假单胞菌羧肽酶G底物特异性的比较

Cassandra M. Larimer, Dejan Slavnic, L. Pitstick, Jacalyn M. Green
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引用次数: 8

摘要

还原叶酸衍生物支持细菌以及包括人类在内的真核生物的DNA、RNA和氨基酸的生物合成。虽然细菌叶酸合成的基因和步骤是已知的,但与叶酸分解代谢有关的基因和步骤还不是很清楚。在人类和细菌中发现的叶酸分解代谢物是对氨基苯甲酰谷氨酸(PABA-GLU)。对氨基苯甲酰谷氨酸水解酶(PGH)分解PABA-GLU,是大肠杆菌中一个明显的操纵子,abg区域的一部分。PGH的亚基与假单胞菌的羧基肽酶具有序列和催化相似性。比较PGH的亚基序列和活性,相对于羧基肽酶,可能有助于更好地理解细菌生理学和途径进化。我们首先比较了假单胞菌RS-16中AbgA、AbgB和羧肽酶G2的氨基酸序列。然后,我们比较了大肠杆菌PGH和市售假单胞菌羧肽酶G的酶活性,采用分光光度法测定PABA-GLU、叶酸、氨蝶呤、甲氨蝶呤、5-甲酰基四氢叶酸和5-甲基四氢叶酸的裂解。PGH的叶酸和抗叶酸底物的Km和Vmax值无法测定,因为仪器在酶饱和之前就达到了极限。因此,将PGH的活性与CPG的活性进行比较,或归一化为PABA-GLU (nmol /min/µg)。相对于其对10µM PABA-GLU的活性(100%),PGH从甲氨蝶呤(48%)、氨蝶呤(45%)和叶酸(9%)中裂解谷氨酸。还原性叶酸亚叶酸素(5-甲酰基四氢叶酸)和5-甲基四氢叶酸不被PGH切割。我们的数据表明,大肠杆菌PGH对PABA-GLU具有特异性,因为它对天然叶酸(叶酸、5-甲基四氢叶酸和亚叶酸钙)的活性非常低。然而,它确实具有一定的裂解抗叶酸盐的能力,这可能在治疗化疗过量方面有临床应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of Substrate Specificity of Escherichia Coli p-Aminobenzoyl-Glutamate Hydrolase with Pseudomonas Carboxypeptidase G
Reduced folic acid derivatives support biosynthesis of DNA, RNA and amino acids in bacteria as well as in eukaryotes, including humans. While the genes and steps for bacterial folic acid synthesis are known, those associated with folic acid catabolism are not well understood. A folate catabolite found in both humans and bacteria is p-aminobenzoyl-glutamate (PABA-GLU). The enzyme p-aminobenzoyl-glutamate hydrolase (PGH) breaks down PABA-GLU and is part of an apparent operon, the abg region, in E. coli. The subunits of PGH possess sequence and catalytic similarities to carboxypeptidase enzymes from Pseudomonas species. A comparison of the subunit sequences and activity of PGH, relative to carboxypeptidase enzymes, may lead to a better understanding of bacterial physiology and pathway evolution. We first compared the amino acid sequences of AbgA, AbgB and carboxypeptidase G2 from Pseudomonas sp. RS-16, which has been crystallized. Then we compared the enzyme activities of E. coli PGH and commercially available Pseudomonas carboxypeptidase G using spectrophotometric assays measuring cleavage of PABA-GLU, folate, aminopterin, methotrexate, 5-formyltetrahydrofolate, and 5-methyltetrahydrofolate. The Km and Vmax values for the folate and anti-folate substrates of PGH could not be determined, because the instrument reached its limit before the enzyme was saturated. Therefore, activity of PGH was compared to the activity of CPG, or normalized to PABA-GLU (nmole/min/µg). Relative to its activity with 10 µM PABA-GLU (100%), PGH cleaved glutamate from methotrexate (48%), aminopterin (45%) and folate (9%). Reduced folates leucovorin (5-formyltetrahydrofolate) and 5-methyltetrahydrofolate were not cleaved by PGH. Our data suggest that E. coli PGH is specific for PABA-GLU as its activity with natural folates (folate, 5-methyltetrahydrofolate, and leucovorin) was very poor. It does, however, have some ability to cleave anti-folates which may have clinical applications in treatment of chemotherapy overdose.
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