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Query: EC:6.3.5.5 (
CPS
)
1,262
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A gene coding a novel isoform of
carbamyl phosphate synthetase I
(CPS1) was cloned from a human testicular library. As shown by cDNA microarray hybridization, this gene was expressed at a higher level in human adult testes than in fetal testes. The full length of its cDNA was 3831 bp, with a 3149 bp open reading frame, encoding a 1050-amino-acid protein. The cDNA sequence was deposited in the GenBank (AY317138). Sequence analysis showed that it was homologous to the human CPS1 gene. The putative protein contained functional domains composing the intact large subunit of
carbamoyl phosphate synthetase
, thus indicated it has the capability of arginine biosynthesis. A multiple tissue expression profile showed high expression of this gene in human testis, suggesting the novel alternative splicing form of CPS1 may be correlated with human spermatogenesis.
...
PMID:Molecular cloning, identification and characteristics of a novel isoform of carbamyl phosphate synthetase I in human testis. 1571 43
Temperature and medium composition were changed with the aim of increasing growth and erythropoietin (EPO) production in EPO-producing Chinese hamster ovary (CHO) cells. We used the CHO cell line, IBE, and its derivative, CO5, which over-expresses the first two enzymes of the urea cycle,
carbamoyl phosphate synthetase
I (
CPS I
) and ornithine transcarbamoylase (OTC). When supplements were added to the medium at 33 degrees C, the growth of IBE and CO5 cells increased by 27% and 26%, respectively and the maximum yield of EPO was increased by 40% in both cell lines. The absolute EPO concentration in the CO5 cells was always 55-60% higher than in the IBE cells. In addition, when the two cell lines were continuously cultured with supplements at 33 degrees C until their growth rates approached those at 37 degrees C, the growth rates of both IBE and CO5 cells increased by 54% and their maximum EPO levels increased by up to 73% and 56%, respectively. Therefore, the growth and EPO expression levels of CO5 cells increased 2.2-fold and 2.6-fold, respectively, compared to those of the IBE cells. These results indicate that adaptation to lower temperature as well as medium supplementation could be important for improving cell growth and EPO production.
...
PMID:Effect of low adapted temperature and medium composition on growth and erythropoietin (EPO) production by Chinese hamster ovary cells. 1578 55
The objectives of this study were (1) to determine the type of
carbamoyl phosphate synthetase
(
CPS
) present, and the compartmentalization of arginase, in the livers of the African lungfishes, Protopterus aethiopicus and Protopterus annectens, and (2) to elucidate if these two lungfishes were capable of increasing the rates of urea synthesis and capacities of the ornithine-urea cycle (OUC) during 6 days of aerial exposure without undergoing aestivation. Like another African lungfish, Protopterus dolloi, reported elsewhere, the
CPS
activities from the livers of P. aethiopicus and P. annectens had properties similar to that of the marine ray (Taeniura lymma), but dissimilar to that of the mouse (Mus musculus). Hence, they possessed
CPS
III, and not
CPS I
as reported previously.
CPS
III was present exclusively in the liver mitochondria of both lungfishes, but the majority of the arginase activities were present in the cytosolic fractions of their livers. Glutamine synthetase (GS) activity was also detected in the hepatic mitochondria of both specimens. Therefore, our results suggest that the evolution of
CPS
III to
CPS I
might not have occurred before the evolution of extant lungfishes as suggested previously, prompting an examination of the current view on the evolution of
CPS
and OUC in vertebrates. Aerial exposure led to significant decreases in rates of ammonia excretion in P. aethiopicus and P. annectens, but there were no accumulations of ammonia in their tissues. However, urea contents in their tissues increased significantly after 6 days of aerial exposure. The estimated rates of urea synthesis in P. aethiopicus and P. annectens increased 1.2- and 1.47-fold, respectively, which were smaller than that in P. dolloi (8.6-fold) reported elsewhere. In addition, unlike P. dolloi, 6 days of aerial exposure had no significant effects on the hepatic
CPS
III activities of P. aethiopicus and P. annectens. In contrast, aerial exposure induced relatively greater degrees of reductions in ammonia production in P. aethiopicus (34%) and P. annectens (37%) than P. dolloi (28%) as previously reported. Thus, our results suggest that various species of African lungfishes respond to aerial exposure differently with respect to nitrogen metabolism and excretion, and it can be concluded that P. aethiopicus and P. annectens depended more on reductions in ammonia production than on increases in urea synthesis to ameliorate ammonia toxicity when exposed to terrestrial conditions.
...
PMID:Ornithine-urea cycle and urea synthesis in African lungfishes, Protopterus aethiopicus and Protopterus annectens, exposed to terrestrial conditions for six days. 1582 11
The objective of this study was to determine the effects of feeding on the excretory nitrogen (N) metabolism of the aquatic Chinese soft-shelled turtle, Pelodiscus sinensis, with a special emphasis on the role of urea synthesis in ammonia detoxification. P. sinensis is ureogenic and possesses a full complement of ornithine-urea cycle enzymes in its liver. It is primarily ureotelic in water, and the estimated rate of urea synthesis in unfed animals was equivalent to only 1.5% of the maximal capacity of
carbamoyl phosphate synthetase
I (
CPS I
) in its liver. Approximately 72 h was required for P. sinensis to completely digest a meal of prawn meat. During this period, there were significant increases in ammonia contents in the stomach at hour 24 and in the intestine between hours 12 and 36, which could be a result of bacterial activities in the intestinal tract. However, ammonia contents in the liver, muscle, brain and plasma remained unchanged throughout the 72-h post-feeding. In contrast, at hour 24, urea contents in the stomach, intestine, liver, muscle, brain and plasma increased significantly by 2.9-, 3.5-, 2.6-, 2.9-, 3.4 and 3.0-fold, respectively. In addition, there was a 3.3- to 8.0-fold increase in the urea excretion rate between hours 0 and 36 post-feeding, which preceded the increase in ammonia excretion between hours 12 and 48. By hour 48, 68% of the assimilated N from the feed was excreted, 54% of which was excreted as urea-N. The rate of urea synthesis apparently increased sevenfold during the initial 24 h after feeding, which demanded only 10% of the maximal
CPS I
capacity in P. sinensis. The postprandial detoxification of ammonia to urea in P. sinensis effectively prevented postprandial surges in ammonia contents in the plasma and other tissues, as observed in other animals, during the 72-h period post-feeding. In addition, postprandial ammonia toxicity was ameliorated by increased transamination and synthesis of certain amino acids in the liver and muscle of P. sinensis. After feeding, a slight but significant increase in the glutamine content occurred in the brain at hour 24, indicating that the brain might experience a transient increase in ammonia and ammonia was detoxified to glutamine.
...
PMID:Postprandial increases in nitrogenous excretion and urea synthesis in the Chinese soft-shelled turtle, Pelodiscus sinensis. 1683 33
Tissue plasminogen activator (tPA) was produced in ornithine transcarbamoylase (OTC) cells by introducing the tPA gene into OTC cells. OTC cells were originally derived from Chinese hamster ovary (CHO) cells and express the first two enzymes of the urea cycle,
carbamoyl phosphate synthetase
I (
CPS I
) and OTC. To investigate glycosylation variants, tPA variants produced in serum-supplemented culture medium of OTC-tPA cells were separated by lysine-Sepharose 4B chromatography. Unlike in previous studies that used lysine-Sepharose chromatography, two peaks were identified to correspond to eluted glycosylation variants type I and II and type II and the percentages of the type I and type II variants were found to be 23% and 77%, respectively. The biological activities of the type I and II and type II variants were twofold that of the Third International tPA Standard (98/714) produced in the CHO cell line, and the activity of type II variant was 12.6% higher than that of the type I and II variants. These results demonstrate that tPA produced in urea-cycle-enzyme-producing OTC cells have a very high biological activity and the percentage of type II variant which is very valuable for the biopharmaceutical industry is higher than that of any report using CHO cells.
...
PMID:Glycosylation variant analysis of recombinant human tissue plasminogen activator produced in urea-cycle-enzyme-expressing Chinese hamster ovary (CHO) cell line. 1718 73
The sequence of
carbamoyl phosphate synthetase
I (
CPSase I
) cDNA and expression of the enzyme in liver of the toad Xenopus laevis are reported.
CPSase I
mRNA increases 6-fold when toads are exposed to high salinity for extended periods of time. The deduced 1,494-amino acid sequence of the
CPSase I
is homologous to other CPSases and reveals a domain structure and conserved amino acids common to other CPSases. A serine residue (S287) is present where there is a cysteine residue required for glutamine-dependent activity in CPSase Types III and II (Type I CPSases utilize only ammonia as nitrogen-donating substrate). A sequence of DNA 964 bases upstream from the ATG start codon for the
CPSase I
gene is also reported. Phylogenetic analysis for 30 CPSase isoforms, including X. laevis
CPSase I
, across a wide spectrum of phyla is reported and discussed. The results are consistent with the views that eukaryotic CPSase II as a multifunctional complex evolved from prokaryotic CPSase II and that
CPSase I
in terrestrial vertebrates and CPSase III in fishes arose from eukaryotic CPSase II by independent events after the divergence of plants in eukaryotic evolution.
...
PMID:Sequence, expression and evolutionary relationships of carbamoyl phosphate synthetase I in the toad Xenopus laevis. 1739 70
We assessed the possible upregulation of glutamine synthetase (GS) and typical 'fish type' carbamyl phosphate synthetase III (
CPS
III) in detoxification of ammonia in different tissues of the walking catfish (Clarias batrachus) during exposure to 25 mM NH(4)Cl for 7 days. Exogenous ammonia led to an increase in ammonia and urea concentrations in different tissues. The results revealed the presence of relatively high levels of GS activity in the brain, liver and kidney, unexpectedly, also in the muscle, and even higher levels in the intestine and stomach. Exposure to high external ammonia (HEA) caused significant increase of activities of GS,
CPS
III and
CPS I
-like enzymes, accompanied with the upregulation of GS and
CPS
III enzyme proteins in different tissues. Exposure to HEA also led to a sharp rise of plasma cortisol level, suggesting being one of the primary causes of upregulation of GS and
CPS
III enzymes activity. Liver perfusion experiments further revealed that exposure to HEA enhances the capacity of trapping ammonia to glutamine and urea by the liver of walking catfish. These results suggest that the upregulation of GS and
CPS
III activity in walking catfish during exposure to HEA plays critical roles to ameliorate the toxic ammonia to glutamine, and also to urea via the induced ornithine-urea cycle possibly through the involvement of cortisol.
...
PMID:Air-breathing catfish, Clarias batrachus upregulates glutamine synthetase and carbamyl phosphate synthetase III during exposure to high external ammonia. 1745 89
Hepatocytes are metabolically specialised cells displaying distinctive gene expression patterns within the liver lobule. Here, we investigate whether pre-cultured adult rat hepatocytes adopt periportal and pericentral enzyme expression following their transplantation into the regenerating rat liver. Isolated primary rat hepatocytes, representing a mixture of both periportal and pericentral origin, lost expression of
carbamoyl phosphate synthetase
I (
CPS I
) and cytochrome P450 subtype 2B1 (CYP2B1) in culture as shown by immunofluorescence and Western blot analysis. Accordingly, urea synthesis and CYP2B1 enzyme activity decreased. Hepatocytes from DPPIV (CD26) wild type rats were cultured for 4 and 7 days, and then transplanted into the livers of CD26 deficient rats following prior treatment with retrorsine and partial hepatectomy to drive selective donor cell proliferation. CD26 positive donor cells engrafted in the periportal regions and grew in clusters expanding into the parenchyma as time proceeded. Ten weeks after transplantation, cells derived from donors surrounding the portal veins expressed
CPS I
, but not CYP2B1. The reverse was true for CD26 positive cells in close proximity to the central veins displaying immunoreactivity to CYP2B1, but no longer to
CPS I
. Hepatocytes lose their specific marker enzyme expression in culture. After transplantation, donor hepatocytes proliferate in the host parenchyma whilst acquiring the position-specific enzyme expression of the surrounding periportal and pericentral host hepatocytes. These results indicate the high degree of plasticity of gene expression in hepatocytes subjected to a change in microenvironment.
...
PMID:Zonal expression of hepatocytic marker enzymes during liver repopulation. 1757 90
Wood frogs (Rana sylvatica) can accumulate substantial amounts of urea during fall and winter. In this study, maximal urea production capacity was examined in R. sylvatica collected at various times of the year and in response to experimental hyperuremia and dehydration. Activity and expression of
carbamoyl phosphate synthetase
I (
CPS I
), the hepatic regulatory enzyme of the urea cycle, were used as indicators of urea production capacity. The high levels of
CPS I
activity in summer frogs were maintained through much of winter, a time when many metabolic processes are downregulated, suggesting that urea production is important during hibernation. In laboratory experiments, hyperuremia in fully hydrated frogs caused
CPS I
activity to decrease by approximately 41%, suggesting that urea functions as a feedback inhibitor. In contrast,
CPS I
activity was maintained in hyperuremic, dehydrated frogs. The significance of this response is unclear, although perhaps urea functions to counteract inhibitory effects of concentrated salts. Generally, changes in
CPS I
activity were not reflected by corresponding changes in
CPS I
quantity, indicating that this enzyme is not primarily regulated through transcription and translation; rather, control may be achieved by posttranslational modifications and/or feedback inhibition. Our findings suggest that maintenance of urea production capacity in hibernating R. sylvatica facilitates accumulation of this osmolyte, which has important roles in the winter biology of this species.
...
PMID:Urea production capacity in the wood frog (Rana sylvatica) varies with season and experimentally induced hyperuremia. 1861 77
The first part of this review is concerned with the balance between N input and output as urinary urea. I start with some observations on classical biochemical studies of the operation of the urea cycle. According to Krebs, the cycle is instantaneous and automatic, as a result of the irreversibility of the first enzyme,
carbamoyl-phosphate synthetase 1
(
EC 6.3.5.5
;
CPS
-I), and it should be able to handle many times the normal input to the cycle. It is now generally agreed that acetyl glutamate is a necessary co-factor for
CPS
-1, but not a regulator. There is abundant evidence that changes in dietary protein supply induce coordinated changes in the amounts of all five urea-cycle enzymes. How this coordination is achieved, and why it should be necessary in view of the properties of the cycle mentioned above, is unknown. At the physiological level it is not clear how a change in protein intake is translated into a change of urea cycle activity. It is very unlikely that the signal is an alteration in the plasma concentration either of total amino-N or of any single amino acid. The immediate substrates of the urea cycle are NH3 and aspartate, but there have been no measurements of their concentration in the liver in relation to urea production. Measurements of urea kinetics have shown that in many cases urea production exceeds N intake, and it is only through transfer of some of the urea produced to the colon, where it is hydrolysed to NH3, that it is possible to achieve N balance. It is beginning to look as if this process is regulated, possibly through the operation of recently discovered urea transporters in the kidney and colon. The second part of the review deals with the synthesis and breakdown of protein. The evidence on whole-body protein turnover under a variety of conditions strongly suggests that the components of turnover, including amino acid oxidation, are influenced and perhaps regulated by amino acid supply or amino acid concentration, with insulin playing an important but secondary role. Molecular biology has provided a great deal of information about the complex processes of protein synthesis and breakdown, but so far has nothing to say about how they are coordinated so that in the steady state they are equal. A simple hypothesis is proposed to fill this gap, based on the self-evident fact that for two processes to be coordinated they must have some factor in common. This common factor is the amino acid pool, which provides the substrates for synthesis and represents the products of breakdown. The review concludes that although the achievement and maintenance of N balance is a fact of life that we tend to take for granted, there are many features of it that are not understood, principally the control of urea production and excretion to match the intake, and the coordination of protein synthesis and breakdown to maintain a relatively constant lean body mass.
...
PMID:The mysteries of nitrogen balance. 1908 45
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