Very low birth weight (VLBW) infants can be subjected to oxidative stress in the course of intensive care. We measured 8-hydroxydeoxyguanosine (8-OHdG), a biomarker of oxidative stress, and estimated the degree of oxidative stress in such infants. We also examined if the administered oxygen was related to oxidative stress. Urine samples of 50 Japanese VLBW infants [birth weights: 956.3+/-277.6g, and gestational ages: 28.0+/-2.6 weeks (mean +/- SD)] were collected on various postnatal days and 8-OHdG levels were determined using an ELISA kit. Sixteen term infants served as normal controls. As body weights at sampling increased, the average levels of urinary 8-OHdG decreased. 8-Hydroxydeoxyguanosine levels were: infants under 1000g, 29.5+/-16.4 micromol/mol creatinine (n = 24); 1000-1500g, 23.8+/-14.9 (n = 12); over 1500g, 16.1+/-8.5 (n = 14); and control, 10.9+/-7.2 (n = 16). Significant differences were found between <1000g group and > or = 1500g group (p = 0.0030), <1000g group and control (p < 0.0001), and 1000-1500g group and control (p = 0.0108). Also as postconceptional age at sampling increased, the average levels of 8-OHdG decreased. 8-Hydroxydeoxyguanosine levels were: infants before 252 days (36 weeks) of postconception: 27.4+/-15.5 micromol/mol creatinine (n = 34); after 252 days, 18.2+/-12.5 (n = 16). Differences between <252 days group and control (p < 0.0001), and <252 days group and > or = 252 days groups (p = 0.0253) were statistically significant. Among the three groups based on ambient oxygen concentration (21%, 22-29%, and > or = 30%) there was no significant difference (p = 0.417). The more premature the infants were, the more intense was the oxidative stress, hence, it is the prematurity rather than the administered oxygen which causes oxidative stress in VLBW infants. Drury et al. ["Urinary 8-hydroxydeoxyguanosine in infants and children" Free Radic. Res. 28 (1998) 423-4281 measured urinary 8-OHdG of 28 infants (24-40 weeks gestation) and found no gestation or birthweight related differences. This discrepancy seemed to be because of difference in birth weights and sampling period of the subjects.
The functions and expression pattern of urea cycle enzymes have undergone considerable changes during the course of evolution. Sequence analyses shows that urea cycle enzymes from mammals are homologous to microbial enzymes of the arginine-metabolic pathway. Recently, an unexpected relationship was found between argininosuccinate lyase (EC 4.3.2.1), the fourth enzyme of the cycle, and delta-crystallin, a lens structural protein of birds and reptiles.
Argininosuccinate lyase (EC 4.3.2.1) is an enzyme of arginine biosynthesis and is also involved in the urea cycle in the liver of ureotelic animals. A comparison of cDNA-derived amino acid sequences revealed that argininosuccinate lyase is highly homologous with chicken 6-crystallin, a major structural protein of the eye lens. The gene for the rat argininosuccinate lyase was cloned and its structure was determined. This gene is a single-copy gene about 14 kilobases long and is split into 16 exons. A comparison with chicken 8-crystallin genes revealed that all introns interrupt the protein-coding regions at homologous positions. This close similarity in structural organization provides strong evidence for
Argininosuccinate lyase [EC 4.3.2.1] is an enzyme of the urea cycle in the liver of ureotelic animals. The enzymes of the urea cycle, including argininosuccinate lyase, are regulated developmentally and in response to dietary and hormonal changes, in a coordinated manner. The nucleotide sequence of rat argininosuccinate lyase cDNA, which was isolated previously (Amaya, Y., Kawamoto, S., Oda, T., Kuzumi, T., Saheki, T., Kimula, S., & Mori, M. (1986) Biochem. Int. 13, 433-438), was determined. The cDNA clone contained an open reading frame encoding a polypeptide of 461 amino acid residues (predicted Mr = 51,549), a 5'-untranslated sequence of 150 bp, and a 3'-untranslated sequence of 41 bp. The amino acid composition of rat liver argininosuccinate lyase predicted from the cDNA sequence is in close agreement with that determined on the purified enzyme. The predicted amino acid sequences of the human and yeast enzymes along the entire sequences (94 and 39%, respectively), except for a region of 66 residues of the human enzyme near the COOH terminus. However, the sequence of this region of the human enzyme predicted from another reading frame of the human enzyme cDNA is homologous with the corresponding sequences of the rat and yeast enzymes. Therefore, the human sequence should be re-examined. Lysine-51, the putative binding site for argininosuccinate, and the flanking sequences are highly conserved among the rat, steer, human, and yeast enzymes.
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