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1,192 results on '"Carbamyl Phosphate"'

1. Conditional disruption of hepatic carbamoyl phosphate synthetase 1 in mice results in hyperammonemia without orotic aciduria and can be corrected by liver-directed gene therapy

Author

Khoja, Suhail, Nitzahn, Matt, Hermann, Kip, Truong, Brian, Borzone, Roberta, Willis, Brandon, Rudd, Mitchell, Palmer, Donna J, Ng, Philip, Brunetti-Pierri, Nicola, and Lipshutz, Gerald S

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Nutrition, Gene Therapy, Liver Disease, Biotechnology, Digestive Diseases, Genetics, Neurosciences, Development of treatments and therapeutic interventions, 5.2 Cellular and gene therapies, Ammonia, Animals, Carbamoyl-Phosphate Synthase (Ammonia), Carbamoyl-Phosphate Synthase I Deficiency Disease, Carbamyl Phosphate, Female, Gene Expression Regulation, Enzymologic, Genetic Therapy, Glutamine, Humans, Hyperammonemia, Liver, Male, Mice, Mice, Knockout, Mutation, Orotate Phosphoribosyltransferase, Orotidine-5'-Phosphate Decarboxylase, Purine-Pyrimidine Metabolism, Inborn Errors, Carbamoyl phosphate, synthetase deficiency, Gene therapy, Clinical Sciences, Genetics & Heredity, Clinical sciences
Abstract

Carbamoyl phosphate synthetase 1 (CPS1) is a urea cycle enzyme that forms carbamoyl phosphate from bicarbonate, ammonia and ATP. Bi-allelic mutations of the CPS1 gene result in a urea cycle disorder presenting with hyperammonemia, often with reduced citrulline, and without orotic aciduria. CPS1 deficiency is particularly challenging to treat and lack of early recognition typically results in early neonatal death. Therapeutic interventions have limited efficacy and most patients develop long-term neurologic sequelae. Using transgenic techniques, we generated a conditional Cps1 knockout mouse. By loxP/Cre recombinase technology, deletion of the Cps1 locus was achieved in adult transgenic animals using a Cre recombinase-expressing adeno-associated viral vector. Within four weeks from vector injection, all animals developed hyperammonemia without orotic aciduria and died. Minimal CPS1 protein was detectable in livers. To investigate the efficacy of gene therapy for CPS deficiency following knock-down of hepatic endogenous CPS1 expression, we injected these mice with a helper-dependent adenoviral vector (HDAd) expressing the large murine CPS1 cDNA under control of the phosphoenolpyruvate carboxykinase promoter. Liver-directed HDAd-mediated gene therapy resulted in survival, normalization of plasma ammonia and glutamine, and 13% of normal Cps1 expression. A gender difference in survival suggests that female mice may require higher hepatic CPS1 expression. We conclude that this conditional murine model recapitulates the clinical and biochemical phenotype detected in human patients with CPS1 deficiency and will be useful to investigate ammonia-mediated neurotoxicity and for the development of cell- and gene-based therapeutic approaches.

Published
2018

2. Genomic and experimental evidence for multiple metabolic functions in the RidA/YjgF/YER057c/UK114 (Rid) protein family

Author

Niehaus, Thomas D, Gerdes, Svetlana, Hodge-Hanson, Kelsey, Zhukov, Aleksey, Cooper, Arthur JL, ElBadawi-Sidhu, Mona, Fiehn, Oliver, Downs, Diana M, and Hanson, Andrew D

Subjects
Genetics, 2.1 Biological and endogenous factors, Aetiology, Amino Acid Sequence, Bacterial Proteins, Carbamyl Phosphate, Genomics, Hydrolysis, Imines, Metabolomics, Mitochondrial Proteins, Models, Molecular, Molecular Sequence Data, Oxidoreductases, Phylogeny, Protein Conformation, Salmonella enterica, Terminology as Topic, Metabolite repair, damage pre-emption, reactive enamine/imine, carbamoyl phosphate, FAD-dependent amine oxidase, comparative genomics, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics
Abstract

BackgroundIt is now recognized that enzymatic or chemical side-reactions can convert normal metabolites to useless or toxic ones and that a suite of enzymes exists to mitigate such metabolite damage. Examples are the reactive imine/enamine intermediates produced by threonine dehydratase, which damage the pyridoxal 5'-phosphate cofactor of various enzymes causing inactivation. This damage is pre-empted by RidA proteins, which hydrolyze the imines before they do harm. RidA proteins belong to the YjgF/YER057c/UK114 family (here renamed the Rid family). Most other members of this diverse and ubiquitous family lack defined functions.ResultsPhylogenetic analysis divided the Rid family into a widely distributed, apparently archetypal RidA subfamily and seven other subfamilies (Rid1 to Rid7) that are largely confined to bacteria and often co-occur in the same organism with RidA and each other. The Rid1 to Rid3 subfamilies, but not the Rid4 to Rid7 subfamilies, have a conserved arginine residue that, in RidA proteins, is essential for imine-hydrolyzing activity. Analysis of the chromosomal context of bacterial RidA genes revealed clustering with genes for threonine dehydratase and other pyridoxal 5'-phosphate-dependent enzymes, which fits with the known RidA imine hydrolase activity. Clustering was also evident between Rid family genes and genes specifying FAD-dependent amine oxidases or enzymes of carbamoyl phosphate metabolism. Biochemical assays showed that Salmonella enterica RidA and Rid2, but not Rid7, can hydrolyze imines generated by amino acid oxidase. Genetic tests indicated that carbamoyl phosphate overproduction is toxic to S. enterica cells lacking RidA, and metabolomic profiling of Rid knockout strains showed ten-fold accumulation of the carbamoyl phosphate-related metabolite dihydroorotate.ConclusionsLike the archetypal RidA subfamily, the Rid2, and probably the Rid1 and Rid3 subfamilies, have imine-hydrolyzing activity and can pre-empt damage from imines formed by amine oxidases as well as by pyridoxal 5'-phosphate enzymes. The RidA subfamily has an additional damage pre-emption role in carbamoyl phosphate metabolism that has yet to be biochemically defined. Finally, the Rid4 to Rid7 subfamilies appear not to hydrolyze imines and thus remain mysterious.

Published
2015

3. Cross Talk Inhibition Nullified by a Receiver Domain Missense Substitution

Author

Huynh, TuAnh Ngoc, Lin, Hsia-Yin, Noriega, Chris E, Lin, Alice V, and Stewart, Valley

Subjects
Biochemistry and Cell Biology, Biological Sciences, Amino Acid Substitution, Carbamyl Phosphate, Escherichia coli, Escherichia coli Proteins, Gene Expression Regulation, Bacterial, Mutation, Missense, Phosphorylation, Receptor Cross-Talk, Signal Transduction, Agricultural and Veterinary Sciences, Medical and Health Sciences, Microbiology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences
Abstract

UnlabelledIn two-component signal transduction, a sensor protein transmitter module controls cognate receiver domain phosphorylation. Most receiver domain sequences contain a small residue (Gly or Ala) at position T + 1 just distal to the essential Thr or Ser residue that forms part of the active site. However, some members of the NarL receiver subfamily have a large hydrophobic residue at position T + 1. Our laboratory previously isolated a NarL mutant in which the T + 1 residue Val-88 was replaced with an orthodox small Ala. This NarL V88A mutant confers a striking phenotype in which high-level target operon expression is both signal (nitrate) and sensor (NarX and NarQ) independent. This suggests that the NarL V88A protein is phosphorylated by cross talk from noncognate sources. Although cross talk was enhanced in ackA null strains that accumulate acetyl phosphate, it persisted in pta ackA double null strains that cannot synthesize this compound and was observed also in narL(+) strains. This indicates that acetate metabolism has complex roles in mediating NarL cross talk. Contrariwise, cross talk was sharply diminished in an arcB barA double null strain, suggesting that the encoded sensors contribute substantially to NarL V88A cross talk. Separately, the V88A substitution altered the in vitro rates of NarL autodephosphorylation and transmitter-stimulated dephosphorylation and decreased affinity for the cognate sensor, NarX. Together, these experiments show that the residue at position T + 1 can strongly influence two distinct aspects of receiver domain function, the autodephosphorylation rate and cross talk inhibition.ImportanceMany bacterial species contain a dozen or more discrete sensor-response regulator two-component systems that convert a specific input into a distinct output pattern. Cross talk, the unwanted transfer of signals between circuits, occurs when a response regulator is phosphorylated inappropriately from a noncognate source. Cross talk is inhibited in part by the high interaction specificity between cognate sensor-response regulator pairs. This study shows that a relatively subtle missense change from Val to Ala nullifies cross talk inhibition, enabling at least two noncognate sensors to enforce an inappropriate output independently of the relevant input.

Published
2015

4. Mechanism of electroacupuncture and herb-partitioned moxibustion on ulcerative colitis animal model: A study based on proteomics

Author

Qin, Qi, Rui, Zhong, Ya-Nan, Liu, Chen, Zhao, Yan, Huang, Yuan, Lu, Zhe, Ma, Han-Dan, Zheng, and Lu-Yi, Wu

Subjects
Doublecortin Domain Proteins, Inflammation, Male, Proteomics, Carbamyl Phosphate, Proteome, Moxibustion, Dextran Sulfate, Receptors, IgG, Gastroenterology, Reproducibility of Results, General Medicine, Immunoglobulin A, Rats, Electron Transport Complex IV, Ligases, Rats, Sprague-Dawley, Adenosine Triphosphate, Electroacupuncture, RNA Cap-Binding Proteins, Animals, Eosine Yellowish-(YS), Colitis, Ulcerative, Acupuncture Points, Glycoproteins
Abstract

Ulcerative colitis (UC) is a chronic, nonspecific intestinal inflammatory disease. Acupuncture and moxibustion is proved effective in treating UC, but the mechanism has not been clarified. Proteomic technology has revealed a variety of biological markers related to immunity and inflammation in UC, which provide new insights and directions for the study of mechanism of acupuncture and moxibustion treatment of UC.To investigate the mechanism of electroacupuncture (EA) and herb-partitioned moxibustion (HM) on UC rats by using proteomics technology.Male Sprague-Dawley rats were randomly divided into the normal (N) group, the dextran sulfate sodium (DSS)-induced UC model (M) group, the HM group, and the EA group. UC rat model was prepared with 3% DSS, and HM and EA interventions at the bilateral Tianshu and Qihai acupoints were performed in HM or EA group. Haematoxylin and eosin staining was used for morphological evaluation of colon tissues. Isotope-labeled relative and absolute quantification (iTRAQ) and liquid chromatography-tandem mass spectrometry were performed for proteome analysis of the colon tissues, followed by bioinformatics analysis and protein-protein interaction networks establishment of differentially expressed proteins (DEPs) between groups. Then western blot was used for verification of selected DEPs.The macroscopic colon injury scores and histopathology scores in the HM and EA groups were significantly decreased compared to the rats in the M group (EA and HM could regulate the expression of ATP5L, Atp5f1, Cox4i1 that associated with oxidative phosphorylation, then might regulate immune-related pathways of intestinal immune network for IgA production, FcγR-mediated phagocytosis, thereby alleviating colonic inflammation of DSS-induced UC rats.

Published
2022
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5. The diagnostic and prognostic value of serum exosome‐derived carbamoyl phosphate synthase 1 in HEV‐related acute liver failure patients

Author

Ze Xiang, Bin Jiang, Wei Li, Guanghua Zhai, Hao Zhou, Ying Wang, and Jian Wu

Subjects
Carbamyl Phosphate, Infectious Diseases, Virology, Hepatitis E virus, Humans, Liver Failure, Acute, Exosomes, Prognosis
Abstract

Early diagnosis and prognosis evaluation are of great significance to hepatitis E virus (HEV)-related acute liver failure (HEV-ALF) patients. We collected serum samples from 200 health controls (HCs), 200 patients with acute hepatitis E (AHE), and 200 HEV-ALF patients to evaluate serum exosome-derived carbamoyl phosphate synthase 1 (CPS1) levels and determine its diagnostic and prognostic value. The exosome-derived CPS1 levels in the HEV-ALF group were significantly higher than those in the AHE and HCs groups. The AUC of exosome-derived CPS1 to predict the occurrence of HEV-ALF was 0.850 (0.811-0.883). Both logistical regression and orthogonal partial least squares discriminant analysis (OPLS-DA) showed that exosome-derived CPS1 is an independent risk factor for HEV-ALF. The exosome-derived CPS1 levels were positively correlated with organ failure and the outcomes in HEV-ALF patients. The exosome-derived CPS1 levels in the worsening group were significantly higher than those in the fluctuating and the improving groups. The AUC of serum exosome-derived CPS1 to predict 30-day mortality was 0.829 (0.770-0.879), which was significantly greater than that of the Child-Pugh, KCH, and MELD models. The level of serum exosome-derived CPS1 might serve as a promising diagnostic and prognostic biomarker for HEV-ALF patients, which may provide better guidance for the diagnosis, prognosis, and treatment of HEV-ALF patients.

Published
2022
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12. The Role of Carbamoyl Phosphate Synthetase 1 as a Prognostic Biomarker in Patients With Acetaminophen-induced Acute Liver Failure.

Author

Kwan R, Chen L, Park MJ, Su Z, Weerasinghe SVW, Lee WM, Durkalski-Mauldin VL, Fontana RJ, and Omary MB

Subjects
Humans, Acetaminophen adverse effects, Biomarkers, Carbamyl Phosphate, Ligases, Prognosis, Severity of Illness Index, End Stage Liver Disease, Liver Failure, Acute chemically induced, Liver Failure, Acute diagnosis
Abstract

Background & Aims: Carbamoyl phosphate synthetase 1 (CPS1) is a highly abundant mitochondrial urea cycle enzyme that is expressed primarily in hepatocytes. CPS1 is constitutively and physiologically secreted into bile but is released into the bloodstream upon acute liver injury (ALI). Given its abundance and known short half-life, we tested the hypothesis that it may serve as a prognostic serum biomarker in the setting of acute liver failure (ALF)., Methods: CPS1 levels were determined using enzyme-linked immunosorbent assay and immunoblotting of sera collected by the ALF Study Group (ALFSG) from patients with ALI and ALF (103 patients with acetaminophen and 167 non-acetaminophen ALF etiologies). A total of 764 serum samples were examined. The inclusion of CPS1 was compared with the original ALFSG Prognostic Index by area under the receiver operating characteristic curve analysis., Results: CPS1 values for acetaminophen-related patients were significantly higher than for non-acetaminophen patients (P < .0001). Acetaminophen-related patients who received a liver transplant or died within 21 days of hospitalization exhibited higher CPS1 levels than patients who spontaneously survived (P = .01). Logistic regression and area under the receiver operating characteristic analysis of CPS1 enzyme-linked immunosorbent assay values improved the accuracy of the ALFSG Prognostic Index, which performed better than the Model for End-Stage Liver Disease, in predicting 21-day transplant-free survival for acetaminophen- but not non-acetaminophen-related ALF. An increase of CPS1 but not alanine transaminase or aspartate transaminase, when comparing day 3 with day 1 levels was found in a higher percentage of acetaminophen transplanted/dead patients (P < .05)., Conclusion: Serum CPS1 determination provides a new potential prognostic biomarker to assess patients with acetaminophen-induced ALF., (Copyright © 2023 AGA Institute. Published by Elsevier Inc. All rights reserved.)

Published
2023
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14. Ornithine aminotransferase and carbamoyl phosphate synthetase 1 involved in ammonia metabolism serve as novel targets for early stages of gastric cancer

Author

Zhen Jiang, Chen Wei, Yaomin Luo, Yang Xiao, Li Wang, Wubin Guo, and Xiaoxia Yuan

Subjects
Microbiology (medical), Carbamyl Phosphate, Ornithine-Oxo-Acid Transaminase, Biochemistry (medical), Clinical Biochemistry, Carbamoyl-Phosphate Synthase (Ammonia), Public Health, Environmental and Occupational Health, Antineoplastic Agents, Hematology, Medical Laboratory Technology, Ammonia, Stomach Neoplasms, Tandem Mass Spectrometry, Humans, Immunology and Allergy, Biomarkers
Abstract

The sensitivity and specificity of current biomarkers for gastric cancer were insufficient. The aim of the present study was to screen novel biomarkers and determine the diagnostic values of ornithine aminotransferase (OAT) and carbamoyl phosphate synthetase 1 (CPS1) for detecting gastric cancer.With stable isotope tags, we labelled an initial discovery group of four paired gastric cancer tissue samples and identified with LC-ESI-MS/MS. A validation group of 159 gastric cancer samples and 30 healthy controls were used to validate the candidate targets. GSEA was used to explore the pathways activated in gastric cancer.Four hundred and thirty one proteins were found differentially expressed in gastric cancer tissues. Of these proteins, OAT and CPS1 were found over-expressed in gastric cancer patients, with sensitivity of 70.4% (95% CI: 63.3%-77.6%) and specificity of 80.5% (95% CI: 74.3%-86.7%) for ornithine aminotransferase, and with sensitivity of 68.6% (95% CI: 61.3%-75.8%) and specificity of 73% (95% CI: 66%-79.9%) for carbamoyl phosphate synthetase 1. The co-expression of OAT and CPS1 in gastric cancer tissues has a sensitivity of 81% (95% CI: 73.2%-88.8%) and specificity of 89% (95% CI: 83%-95%). Furthermore, both OAT and CPS1 were overexpressed in patients with local invasion T3 and T4 stages than those in patients with T1 and T2 stages. The co-expression of OAT and CPS1 was strongly correlated with histological grade I 68% (95% CI: 58.7%-77.3%) and TNM stage I/II 52% (95% CI: 42%-62%). The areas under ROC curves were up to 0.758 for the co-expression of OAT and CPS1 in gastric cancer. GSEA results showed that two gene sets and 30 gene sets were activated in OAT high- and CPS1 high-expression patients with gastric cancer, respectively.The present findings indicated a tight correlation between the co-expression of OAT and CPS1 and the histological grade, local invasion, and TNM stages of gastric cancer. Therefore, OAT and CPS1 might be predictors for gastric cancer invasion and potential targets for anticancer drug design for gastric cancer.

Published
2022
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29. Identification and expression pattern analysis of PtCarA and PtCarB genes in Populus trichocarpa under different nitrogen treatments

Author

Z. Hu, S. Zhang, H. Zhang, L. Cao, R. Chang, Z. Liu, Z. Xu, and G. Liu

Subjects
Populus, Carbamyl Phosphate, Nitrogen, Plant Science, General Medicine, Arginine, Ecology, Evolution, Behavior and Systematics, Phylogeny
Abstract

Carbamoyl phosphate synthetase (CPS) catalyses the synthesis of ammonia carbamoyl phosphate (CP), which plays a key role in the biosynthesis of arginine and pyrimidine nucleotides. There are two subunits of the CPS enzyme in Populus trichocarpa, CarA (small subunit) and CarB (large subunit). Only when they coexist can CPS catalyse synthesis of CP. However, it is not clear how CPS responds to nitrogen (N) to affect arginine and pyrimidine nucleotide biosynthesis. In this study, bioinformatics methods were used to analyse the expression patterns of genes encoding CarA and CarB, and qRT-PCR and RNA-seq were used to investigate their molecular responses under different N concentrations. Phylogenetic analysis revealed that the phylogenetic trees of CarA and CarB had similar topologies. qRT-PCR showed that the PtCarA and PtCarB genes were regulated by N, while their N-regulated patterns differed in different tissues. The expression patterns of PtCarA and PtCarB show a significant positive correlation according to qRT-PCR and RNA-seq. The analysis of promoter cis-acting elements showed that the promoter regions of PtCarA1, PtCarA2 and PtCarB contained some identical cis-acting elements. According to analysis of the phylogenetic tree, expression patterns and promoter elements, we speculate that there might be coevolution among PtCarA1, PtCarA2 and PtCarB. This study provides valuable information for further understanding the function of CPS in poplar, especially for N response, and provides new ideas for studying the evolution of gene families related to heteromultimers.

Published
2022

34. Unraveling the therapeutic potential of carbamoyl phosphate synthetase 1 (CPS1) in human diseases

Author

Lan Zhang, Yuling Zou, Yingying Lu, Zhijia Li, and Feng Gao

Subjects
Mammals, Carbamyl Phosphate, Carbamoyl-Phosphate Synthase I Deficiency Disease, Ammonia, Organic Chemistry, Drug Discovery, Carbamoyl-Phosphate Synthase (Ammonia), Animals, Humans, Urea, Molecular Biology, Biochemistry
Abstract

CPS1, the rate-limiting enzyme that controls the first reaction of the urea cycle, is responsible for converting toxic ammonia into non-toxic urea in mammals. While disruption of the functions of CPS1 leads to elevated ammonia and nerve damage in the body, mainly manifested as urea cycle disorder. Moreover, accumulating evidence has recently revealed that CPS1 is involved in a variety of human diseases, including CPS1D, cardiovascular disease, cancers, and others. In particular, CPS1 expression varies among cancers, being overexpressed in some cancers and downregulated in others, suggesting that CPS1 may be a promising cancer therapeutic target. In addition, some small-molecule inhibitors of CPS1 have been reported, which have not been confirmed experimentally in malignancies, meaning their future role is far from certain. In this review, we describe the structure and function of CPS1, highlight its important roles in various human diseases, and further discuss the potential diagnostic and therapeutic implications of small molecule compounds targeting CPS1.

Published
2023
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38. Genomic Instability and Its Role in Neoplasia

Author

Tlsty, T. D., Compans, R. W., editor, Cooper, M., editor, Koprowski, H., editor, Melchers, F., editor, Oldstone, M., editor, Olsnes, S., editor, Potter, M., editor, Saedler, H., editor, Vogt, P. K., editor, Wagner, H., editor, and Kastan, Michael B., editor

Published
1997
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40. Sources and Fates of Carbamyl Phosphate: A Labile Energy-Rich Molecule with Multiple Facets

Author

Dashuang Shi, Ljubica Caldovic, and Mendel Tuchman

Subjects
carbamyl phosphate, urea cycle, arginine biosynthesis, pyrimidine biosynthesis, transcarbamylase, carbamate kinase, Biology (General), QH301-705.5
Abstract

Carbamyl phosphate (CP) is well-known as an essential intermediate of pyrimidine and arginine/urea biosynthesis. Chemically, CP can be easily synthesized from dihydrogen phosphate and cyanate. Enzymatically, CP can be synthesized using three different classes of enzymes: (1) ATP-grasp fold protein based carbamyl phosphate synthetase (CPS); (2) Amino-acid kinase fold carbamate kinase (CK)-like CPS (anabolic CK or aCK); and (3) Catabolic transcarbamylase. The first class of CPS can be further divided into three different types of CPS as CPS I, CPS II, and CPS III depending on the usage of ammonium or glutamine as its nitrogen source, and whether N-acetyl-glutamate is its essential co-factor. CP can donate its carbamyl group to the amino nitrogen of many important molecules including the most well-known ornithine and aspartate in the arginine/urea and pyrimidine biosynthetic pathways. CP can also donate its carbamyl group to the hydroxyl oxygen of a variety of molecules, particularly in many antibiotic biosynthetic pathways. Transfer of the carbamyl group to the nitrogen group is catalyzed by the anabolic transcarbamylase using a direct attack mechanism, while transfer of the carbamyl group to the oxygen group is catalyzed by a different class of enzymes, CmcH/NodU CTase, using a different mechanism involving a three-step reaction, decomposition of CP to carbamate and phosphate, transfer of the carbamyl group from carbamate to ATP to form carbamyladenylate and pyrophosphate, and transfer of the carbamyl group from carbamyladenylate to the oxygen group of the substrate. CP is also involved in transferring its phosphate group to ADP to generate ATP in the fermentation of many microorganisms. The reaction is catalyzed by carbamate kinase, which may be termed as catabolic CK (cCK) in order to distinguish it from CP generating CK. CP is a thermally labile molecule, easily decomposed into phosphate and cyanate, or phosphate and carbamate depending on the pH of the solution, or the presence of enzyme. Biological systems have developed several mechanisms including channeling between enzymes, increased affinity of CP to enzymes, and keeping CP in a specific conformation to protect CP from decomposition. CP is highly important for our health as both a lack of, or decreased, CP production and CP accumulation results in many disease conditions.

Published
2018
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41. U

Author

Lagua, Rosalinda T., Claudio, Virginia S., Lagua, Rosalinda T., and Claudio, Virginia S.

Published
1996
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49. A 36-year-old Man with Repeated Short-term Transient Hyperammonemia and Impaired Consciousness with a Confirmed Carbamoyl Phosphate Synthase 1 Gene Monoallelic Mutation

Author

Tomoyuki Kono, Mayumi Giga, Eiichi Nomura, Takafumi Abe, Ruoyi Ishikawa, Takamichi Sugimoto, Keiichi Hara, Hiroyuki Naito, Narumi Ohno, Tohru Yorifuji, Takemori Yamawaki, and Taku Tazuma

Subjects
Adult, Male, medicine.medical_specialty, Carbamyl Phosphate, Consciousness, Carbamoyl-Phosphate Synthase I Deficiency Disease, Carbamoyl-Phosphate Synthase (Ammonia), Monoallelic Mutation, Atrophy, Organic mental disorders, Internal medicine, Parenchyma, Internal Medicine, Medicine, Humans, Hyperammonemia, Urea Cycle Disorders, Inborn, medicine.diagnostic_test, business.industry, Glossoptosis, Magnetic resonance imaging, General Medicine, medicine.disease, Endocrinology, Urea cycle, Mutation, medicine.symptom, business
Abstract

A 36-year-old man experienced severely impaired consciousness twice after drinking because of hyperammonemia. No abnormal blood tests were found other than ammonia levels. However, magnetic resonance imaging (MRI) showed atrophy of the brain parenchyma. One the second occasion, the patient suffered severe impairment of consciousness, and because of seizures and glossoptosis, mechanical ventilation was started. Urea cycle disorders (UCDs) were assumed to be involved. Genetic testing revealed a monoallelic mutation of the carbamoyl phosphate synthase 1 (CPS1) gene. When transient hyperammonemia of unknown cause occurs repeatedly in adults, an active investigation for UCDs should be conducted.

Published
2021

50. Clinical and genetic analysis of a case of late onset carbamoyl phosphate synthase I deficiency caused by CPS1 mutation and literature review.

Author

Wang S, Chen J, Zhu X, Huang T, Xu H, Ying G, Qian H, Lin W, Tung Y, Khan KU, Guo H, Zheng G, Lu H, and Zhang G

Subjects
Humans, Glycogen Synthase genetics, Mutation, Carbamoyl-Phosphate Synthase (Ammonia) genetics, Carbamoyl-Phosphate Synthase (Ammonia) metabolism, Carbamyl Phosphate, Carbamoyl-Phosphate Synthase I Deficiency Disease genetics, Carbamoyl-Phosphate Synthase I Deficiency Disease diagnosis, Carbamoyl-Phosphate Synthase I Deficiency Disease pathology
Abstract

Background: Carbamoyl phosphate synthetase I defect (CPS1D) is a rare disease with clinical case reports mainly in early neonates or adults, with few reports of first onset in late neonatal to childhood. We studied the clinical and genotypic characteristics of children with childhood onset CPS1D caused by two loci mutations (one of these is a rarely reported non-frame shift mutation) in the CPS1., Case Presentation: We present a rare case of adolescent-onset CPS1D that had been misdiagnosed due to atypical clinical features, and further investigations revealed severe hyperammonemia (287µmol/L; reference range 11.2 ~ 48.2umol/L). MRI of the brain showed diffuse white matter lesions. Blood genetic metabolic screening showed elevated blood alanine (757.06umol/L; reference range 148.8 ~ 739.74umol/L) and decreased blood citrulline (4.26umol/L; reference range 5.45 ~ 36.77umol/L). Urine metabolic screening showed normal whey acids and uracil. Whole-exome sequencing revealed compound heterozygous mutations in the CPS1, a missense mutation (c.1145 C > T) and an unreported de novo non-frame shift mutation (c.4080&#95;c.4091delAGGCATCCTGAT), respectively, which provided a clinical diagnosis., Conclusion: A comprehensive description of the clinical and genetic features of this patient, who has a rare age of onset and a relatively atypical clinical presentation, will facilitate the early diagnosis and management of this type of late onset CPS1D and reduce misdiagnosis, thus helping to reduce mortality and improve prognosis. It also provides a preliminary understanding of the relationship between genotype and phenotype, based on a summary of previous studies, which reminds us that it may help to explore the pathogenesis of the disease and contribute to genetic counselling and prenatal diagnosis., (© 2023. The Author(s).)

Published
2023
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