Home  About us  Contact
 

Urea Cycle (urea + cycle)

Distribution by Scientific Domains
Life Sciences66%

Selected Abstracts

Rat hepatocyte spheroids formed by rocked technique maintain differentiated hepatocyte gene expression and function,

HEPATOLOGY, Issue 2 2009
Colleen M. Brophy
The culture of primary hepatocytes as spheroids creates an efficient three-dimensional tissue construct for hepatic studies in vitro. Spheroids possess structural polarity and functional bile canaliculi with normal differentiated function. Thus, hepatocyte spheroids have been proposed as the cell source in a variety of diagnostic, discovery, and therapeutic applications, such as a bioartificial liver. Using a novel rocking technique to induce spheroid formation, kinetics of spheroid formation, cell-cell adhesion, gene expression, and biochemical activities of rat hepatocyte spheroids were tested over 14 days of culture. Evidence was provided that the formation of spheroids occurred faster and with fewer nonadherent hepatocytes in rocked suspension culture compared to a traditional rotational system. Hepatocyte spheroids in rocked culture showed stable expression of more than 80% of 242 liver-related genes including those of albumin synthesis, urea cycle, phase I and II metabolic enzymes, and clotting factors. Biochemical activity of rocked spheroid hepatocytes was superior to monolayer culture of hepatocytes on tissue culture plastic and collagen. Conclusion: Spheroid formation by rocker technique was more rapid and more efficient than by rotational technique. Rocker-formed spheroids appear suitable for application in a bioartificial liver or as an in vitro liver tissue construct. (HEPATOLOGY 2009.) [source]

Distribution of carbon-14 labeled C60 ([14C]C60) in the pregnant and in the lactating dam and the effect of C60 exposure on the biochemical profile of urine

JOURNAL OF APPLIED TOXICOLOGY, Issue 4 2010
Susan C. J. Sumner
Abstract This study was conducted to determine the distribution of [14C]C60 in the pregnant rat and fetuses, and in the lactating rat and offspring. Pregnant rats were dosed on gestation day (gd) 15 and lactating rats were dosed on postnatal day (pnd) 8 via tail vein injection with a suspension of ,0.3,mg [14C]C60,kg,1 body weight prepared in polyvinylpyrrolidone (PVP), or with PVP alone. Tissues were collected at 24 and 48 h after dosing. The largest portion of the administered dose was detected in the liver (,43%, pregnant dam; ,35%, lactating dam) and lung (,25%, lactating dam). Radioactivity (,6%) was distributed to the reproductive tract, placenta and fetuses of the pregnant dam. Lactating rats had radioactivity distributed to the milk (3140,dpm,g,1 tissue, 24,h; 1620,dpm,g,1 tissue, 48,h), and to the pups' GI tract (2.8%, 24,h; 4.4% 48,h) and liver (<1%). Blood radioactivity was significant at 24,h (14,19%) and at 48,h (7%) after dosing; largely accounted for in the plasma fraction. Less that 4% of the dose was recovered in the maternal spleen, heart, brain, urine or feces. Metabolomics analysis of urine indicated that dams exposed to [14C]C60 had decreased metabolites derived from the Krebs cycle and increased metabolites derived from the urea cycle or glycolysis, as well as alterations in the levels of some sulfur-containing amino acids and purine/pyrimidine metabolites. This study demonstrated that [14C]C60 crosses the placenta and is transmitted to offspring via the dam's milk and subsequently systemically absorbed. Copyright © 2009 John Wiley & Sons, Ltd. [source]

MicroRNA regulation in Ames dwarf mouse liver may contribute to delayed aging

AGING CELL, Issue 1 2010
David J. Bates
Summary The Ames dwarf mouse is well known for its remarkable propensity to delay the onset of aging. Although significant advances have been made demonstrating that this aging phenotype results primarily from an endocrine imbalance, the post-transcriptional regulation of gene expression and its impact on longevity remains to be explored. Towards this end, we present the first comprehensive study by microRNA (miRNA) microarray screening to identify dwarf-specific lead miRNAs, and investigate their roles as pivotal molecular regulators directing the long-lived phenotype. Mapping the signature miRNAs to the inversely expressed putative target genes, followed by in situ immunohistochemical staining and in vitro correlation assays, reveals that dwarf mice post-transcriptionally regulate key proteins of intermediate metabolism, most importantly the biosynthetic pathway involving ornithine decarboxylase and spermidine synthase. Functional assays using 3,-untranslated region reporter constructs in co-transfection experiments confirm that miRNA-27a indeed suppresses the expression of both of these proteins, marking them as probable targets of this miRNA in vivo. Moreover, the putative repressed action of this miRNA on ornithine decarboxylase is identified in dwarf mouse liver as early as 2 months of age. Taken together, our results show that among the altered aspects of intermediate metabolism detected in the dwarf mouse liver , glutathione metabolism, the urea cycle and polyamine biosynthesis , miRNA-27a is a key post-transcriptional control. Furthermore, compared to its normal siblings, the dwarf mouse exhibits a head start in regulating these pathways to control their normality, which may ultimately contribute to its extended healthspan and longevity. [source]

Vitamins E and C prevent the impairment of retention of an inhibitory avoidance task caused by arginine administration

JOURNAL OF NEUROCHEMISTRY, Issue 2002
E. A. Reis
Hyperargininemia is an inherited metabolic disease of urea cycle caused by the deficiency of arginase I activity, resulting in tissue accumulation of arginine (Arg). Patients affected by this disease usually develop spasticity, epilepsy and mental retardation as principal symptoms. Previous studies from our laboratory have showed that acute administration of Arg impairs retention of the inhibitory avoidance task and that l -NAME (NOS inhibitor) prevents this effect. In the present study, we investigated the effect of chronic treatment with antioxidants (vitamins E and C) on the retrieval of the inhibitory avoidance task in adults rats subjected to experimental model of acute hyperargininemia in order to investigate the participation of oxidative stress on this phenomenon. Sixty-day-old-rats were treated for one week with i.p. injection of saline (0.9%) or vitamins E and C (vit E 40 mg/kg and vit C 100 mg/kg). Twelve hours after the last injection Arg (0.8 g/kg) or an equivalent volume of saline were administered 1 h before training, 1 h before testing or immediately after training sessions. Memory was significantly impaired in Arg-treated group, whereas the rats chronically treated with vitamins E and C had this effect prevented. Present data strongly indicate that Arg administration impairs memory, an effect probably mediated by oxidative stress since treatment with vitamins E and C prevented amnesia. Assuming the possibility that this might occur in the human condition, reported results may be relevant to explain, at least in part, neurologic dysfunction associated with hyperargininemia. [source]

Mutational Spectrum and Linkage Disequilibrium Patterns at the Ornithine Transcarbamylase Gene (OTC)

ANNALS OF HUMAN GENETICS, Issue 6 2006
L. Azevedo
Summary Ornithine transcarbamylase (OTC; EC 2.1.3.3) is a hepatic enzyme involved in ammonia elimination via the urea cycle. Since the sequence of the OTC gene was reported many types of mutations continue to be found in OTC deficiency patients, continuing to increase the already wide mutational spectrum known for this gene. In this study we present the clinical, biochemical and molecular features of thirteen late-onset OTC deficiency patients. Mutations were identified in all these patients, among which six were novel point substitutions (L59R, A137P, L148S, Y176L, L186P, and K210N) and one was a 2-bp deletion at exon 4 (341-342delAA). In addition, a de novo genomic deletion of maternal origin encompassing exons 1 to 5 was also identified by the analysis of LD patterns using intragenic polymorphic markers. This work exemplifies the potential value of population genetic studies for the detection of large deletions. [source]

The Wnt/,-catenin pathway: master regulator of liver zonation?

BIOESSAYS, Issue 11 2006
Zoë D. Burke
The liver contains two systems for the removal of ammonia,the urea cycle and the enzyme glutamine synthetase. These systems are expressed in a complementary fashion in two distinct populations of hepatocytes, referred to as periportal and perivenous cells. One of the unresolved problems in hepatology has been to elucidate the molecular mechanisms responsible for induction and maintenance of the cellular heterogeneity for ammonia detoxification. There is now a potential molecular explanation for the zonation of the urea cycle and glutamine synthetase based on the Wnt/,-catenin pathway. BioEssays 28: 1072,1077, 2006. © 2006 Wiley Periodicals, Inc. [source]