• Title/Summary/Keyword: carbamoyl phosphate

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Carbamoyl-phosphate synthetase 2 is identified as a novel target protein of methotrexate from chemical proteomics

  • Kim, Eui-Kyung;Park, Jong-Bae;Ha, Sang-Hoon;Ryu, Sung-Ho;Suh, Pann-Ghill
    • Environmental Mutagens and Carcinogens
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    • v.22 no.4
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    • pp.236-242
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    • 2002
  • Using agarose-coupled methotrexate, we have successfully isolated two proteins, which have strong interactions with methotrexate. The two proteins were analyzed by Matrix-Assisted Laser Desorption/Ionization Time-of-Flight Mass Spectrometry and identified as carbamoyl-phosphate synthetase 2 and phosphoribosylglycinamide formyltransferase, respectively. Interestingly, both of these two proteins are essential key enzymes in nucleotide biosynthetic pathways, like dihydrofolate reductase, a well-known methotrexate target. We confirmed the specificity of their interactions between methotrexate and two target proteins by the methods of competition binding assay, which were followed by western blotting using antibody against carbamoyl-phosphate synthetase 2 and phosphoribosylglycinamide formyltransferase, respectively. Moreover, we could observe that carbamoyl-phosphate synthetase 2 is overexpressed in methotrexate-resistant MOLT-3 cells comparing with control MOLT-3 cells. This result indicates that carbamoyl-phosphate synthetase 2 may be a novel target of methotrexate in cancer therapy. We propose that chemical proteomics can be a powerful technique to identify target proteins of a chemical.

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Effects of Carbamoyl Phosphate Synthetase I against Cell Growth and Production of Recombinant Erythropoietin in Urea Cycle Enzyme Expressing CHO Cell Line (Carbamoyl Phosphate Synthetase I이 요소회로 유전자를 발현하는 CHO 세포 주의 세포 성장과 재조합 Erythropoietin의 생산에 미치는 영향)

  • Cho, Su-Mi;Kim, Na-Young;Kim, Hyoung-Jin;Kim, Hong-Jin
    • YAKHAK HOEJI
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    • v.51 no.3
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    • pp.214-218
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    • 2007
  • In the previous reports, we developed the CO5 by introducing genes for the first and second urea cycle enzymes, carbamoyl phosphate synthetase I (CPS I) and ornithine transcarbamoylase (OTC) into the IBE cell lines producing erythropoietin (EPO). The CO5 have been found out to have 15-20% higher cell growth rate and produce 2-times more EPO than the parental cell line, IBE. To investigate the role of CPS I in CO5 cell line for the cell growth and amount of EPO, we knock-downed CPS I gene expression via siRNA treatment. Expression level of EPO in cell lysate of CO5 was 3-5 fold higher than that of IBE. After siRNA treatment, the cell growth of CO5 was decreased 8-21% and the EPO productivity in the cell Iysate was significantly decreased. However, these changes of the cell growth and EPO productivity were not observed in IBE. These results indicate that CPS I gene expression is important for the increased cell growth and EPO productivity of CO5 cell line.

A Fatal Case of Neonatal Onset Carbamoyl Phosphate Synthetase I Deficiency with Homozygous CPS1 Mutation (동종 접합자 CPS1 돌연 변이를 동반한 신생아 발병형 Carbamoyl Phosphate Synthetase 1 결핍증의 치명적 사례)

  • Yun, Jung Ha;Shin, Seung Han;Ko, Jung Min;Kim, Ee-Kyung;Kim, Han-Suk
    • Journal of The Korean Society of Inherited Metabolic disease
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    • v.18 no.1
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    • pp.18-22
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    • 2018
  • Carbamoyl phosphate synthetase I (CPS1) deficiency is a rare autosomal recessive urea cycle disorder that causes hyperammonemic crisis. CPS1 is the first enzyme encoded by the CPS1 gene, which catalyzes the first step of the urea cycle. In CPS1 deficiency, ammonia, the toxic metabolite produced by the interruption of the urea cycle, is accumulated in the blood and brain, leading to hyperammonemic encephalopathy and irreversible brain damage. Here, we report a fatal case of neonatal-onset CPS1 deficiency in a 4-day-old girl presenting with recurrent seizures, who was revealed to be homozygous for c.1529delG ($p.Gly510Alafs^*5$).

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A Case of Lethal Neonatal Type Carbamoyl Phosphate Synthetase 1 Deficiency with Novel Mutation of CPS1 (새로운 CPS1 유전자 돌연변이에 의한 신생아형 carbamoyl phosphate synthetase 1 결핍 1례)

  • Suh, Seung-hyun;Kim, Yoo-Mi;Byun, Shin Yun;Son, Seung Kook;Kim, Seong Heon;Kim, Hyung Tae;Kim, Gu-Hwan;Yoo, Han-Wook
    • Journal of The Korean Society of Inherited Metabolic disease
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    • v.16 no.2
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    • pp.109-114
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    • 2016
  • Carbamoyl phosphate synthetase 1 (CPS1) deficiency is an autosomal recessive urea cycle disorder which causes hyperammonemia. CPS1 is the first enzyme step in the urea cycle and almost patients present their symptoms during neonatal period. We report a case of CPS1 deficiency in a boy who developed symptoms including lethargy and seizure at 3 days of age. The ammonia level was up to $2,325{\mu}mol/L$, sodium benzoate (250 mg/kg/d) and high calories of both dextrose and lipid was promptly administered. Central access by experienced pediatric surgeon and emergent continuous hemodialysis by pediatric nephrologist was performed within 3 hours and ammonia was less than $100{\mu}mol/L$ at 5 days of age. Currently, he has showed excellent response to treatments including scavenging drugs and a low-protein diet. Despite of diffuse increasing signal intensity on cerebral white matters and basal ganglia on brain MRI, his development and weight gain were good at the last follow-up at 11 months of age. Molecular assay of the CPS1 gene demonstrated that patient had compound heterozygous for c.1529del ($p.Gly510Alafs^*5$) in exon 14 and c.3142-1G>C (IVS25(-1)G>C) in intron 25 and exon 26 boundary. The splicing mutation was novel mutation and inherited from patient's mother. Here, we report a neonatal lethal type CPS1 deficiency patient having novel mutation.

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A Case of Carbamoyl Phosphate Synthetase 1 Deficiency with a Relatively Good Prognosis Presented in the Late Neonatal Period (신생아 후기에 증상을 발현하여 비교적 양호한 예후를 보이는 Carbamoyl Phosphate Synthetase 1 Deficiency 1례)

  • Park, Esther;Kim, Min-sun;Song, Ari;Im, Min Ji;Jang, Ja-Hyun;Kim, Ji Hye;Cho, Sung Yoon;Jin, Dong-Kyu
    • Journal of The Korean Society of Inherited Metabolic disease
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    • v.18 no.1
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    • pp.23-29
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    • 2018
  • Carbamoyl phosphate synthetase 1 deficiency (CPS1D) is a rare autosomal recessive urea cycle disorder characterized by hyperammonemia. CPS1D is caused by mutations in the CPS1 gene on chromosome 2q35. Based on the age of onset, there are two phenotypes: the neonatal type and the delayed-onset type. The severity of clinical manifestation depends on the degree of CPS1 residual enzymatic activity, and can result in hyperammonemia and neurological dysfunction. We report a case of CPS1D in a neonate who developed vomiting, decreased consciousness and hyperammonemia at 25th day after birth. She showed excellent response to treatment including hydration, ammonia-lowering drugs and a low-protein diet without hemodialysis. Her growth, development and neurological outcomes were fair at the last follow-up at 17 months of age.

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Rat Liver 10-formyltetrahydrofolate Dehydrogenase, Carbamoyl Phosphate Synthetase 1 and Betaine Homocysteine S-methytransferase were Co-purified on Kunitz-type Soybean Trypsin Inhibitor-coupled Sepharose CL-4B

  • Kim, Hyun-Sic;Kim, Ji-Man;Roh, Kyung-Baeg;Lee, Hyeon-Hwa;Kim, Su-Jin;Shin, Young-Hee;Lee, Bok-Luel
    • BMB Reports
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    • v.40 no.4
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    • pp.604-609
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    • 2007
  • An Asp/His catalytic site of 10-formyltetrahydrofolate dehydrogenase (FDH) was suggested to have a similar catalytic topology with the Asp/His catalytic site of serine proteases. Many studies supported the hypothesis that serine protease inhibitors can bind and modulate the activity of serine proteases by binding to the catalytic site of serine proteases. To explore the possibility that soybean trypsin inhibitor (SBTI) can recognize catalytic sites of FDH and can make a stable complex, we carried out an SBTI-affinity column by using rat liver homogenate. Surprisingly, the Rat FDH molecule with two typical liver proteins, carbamoyl-phosphate synthetase 1 (CPS1) and betaine homocysteine S-methyltransferase (BHMT) were co-purified to homogeneity on SBTI-coupled Sepharose and Sephacryl S-200 followed by Superdex 200 FPLC columns. These three liver-specific proteins make a protein complex with 300 kDa molecular mass on the gel-filtration column chromatography in vitro. Immuno-precipitation experiments by using anti-FDH and anti-SBTI antibodies also supported the fact that FDH binds to SBTI in vitro and in vivo. These results demonstrate that the catalytic site of rat FDH has a similar structure with those of serine proteases. Also, the SBTI-affinity column will be useful for the purification of rat liver proteins such as FDH, CPS1 and BHMT.

Carbamoyl Phosphate Synthase Subunit CgCPS1 Is Necessary for Virulence and to Regulate Stress Tolerance in Colletotrichum gloeosporioides

  • Mushtaq, Aamar;Tariq, Muhammad;Ahmed, Maqsood;Zhou, Zongshan;Ali, Imran;Mahmood, Raja Tahir
    • The Plant Pathology Journal
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    • v.37 no.3
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    • pp.232-242
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    • 2021
  • Glomerella leaf spot (GLS) is a severe infectious disease of apple whose infective area is growing gradually and thus poses a huge economic threat to the world. Different species of Colletotrichum including Colletotrichum gloeosporioides are responsible for GLS. For efficient GLS control, it is important to understand the mechanism by which the cruciferous crops and C. gloeosporioides interact. Arginine is among one of the several types of amino acids, which plays crucial role in biochemical and physiological functions of fungi. The arginine biosynthesis pathway involved in virulence among plant pathogenic fungi is poorly understood. In this study, CgCPS1 gene encoding carbamoyl phosphate synthase involved in arginine biosynthesis has been identified and inactivated experimentally. To assess the effects of CgCPS1, we knocked out CgCPS1 in C. gloeosporioides and evaluated its effects on virulence and stress tolerance. The results showed that deletion of CgCPS1 resulted in loss of pathogenicity. The ∆cgcps1 mutants showed slow growth rate, defects in appressorium formation and failed to develop lesions on apple leaves and fruits leading to loss of virulence while complementation strain (CgCPS1-C) fully restored its pathogenicity. Furthermore, mutant strains showed extreme sensitivity to high osmotic stress displaying that CgCPS1 plays a vital role in stress response. These findings suggest that CgCPS1 is major factor that mediates pathogenicity in C. gloeosporioides by encoding carbamoyl phosphate that is involved in arginine biosynthesis and conferring virulence in C. gloeosporioides.

Enhancement of Erythropoietin Production from Chinese Hamster Ovary(CHO) Cells by Introduction of the Urea Cycle Enzymes, Carbamoyl Phosphate Synthetase I and Ornithine Transcarbamylase

  • Kim, Na-Young;Lee, Yun-Jeong;Kim, Hyung-Jin;Choi, Jung-Ho;Kim, Jung-Kwon;Chang, Kern-Hee;Kim, Jung-Hoe;Kim, Hong-Jin
    • Journal of Microbiology and Biotechnology
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    • v.14 no.4
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    • pp.844-851
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    • 2004
  • Efficient mammalian erythropoietin (EPO)-expression systems are required for therapeutic applications. The accumulation of ammonia is a major problem in the production of recombinant proteins in cultured animal cells. To counter this problem we introduced the first two genes of the urea cycle, carbamoyl phosphate synthetase (CPSI) and ornithine transcarbamylase (OTC), into IBE Chinese Hamster Ovary (CHO) cells by stable transfection. The resulting cell line, CO5, had a higher growth rate and accumulated less ammonia per cell than the parental cell line, IBE. In addition, it produced 2 times more EPO than the parent, and the purified EPO contained a higher proportion of acidic isoforms with approximately 15% more sialic acid.

A Case of Carbamoyl Phosphate Synthetase 1 Deficiency with Novel Mutations in CPS1 Treated by Liver Cell Transplantation (신생아기에 새로운 CPS1 유전자 돌연변이가 확인되고, 간세포이식 시행 받은 Carbamoyl phosphatase synthetase 1 deficiency 1례)

  • Lee, Jisun;Yang, Aram;Kim, Jinsup;Park, Hyung-Doo;Lee, Sanghoon;Lee, Suk-Koo;Cho, Sung Yoon;Jin, Dong-Kyu
    • Journal of The Korean Society of Inherited Metabolic disease
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    • v.17 no.1
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    • pp.31-37
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    • 2017
  • Carbamoyl phosphate synthetase 1 deficiency (CPS1D) is an autosomal recessive disorder of the urea cycle that causes hyperammonemia. Two forms of CPS1D are recognized: a lethal neonatal type and a less severe, delayed-onset type. Neonatal CPS1D cases often present their symptoms within the first days of life. Delayed-onset cases are predominantly adolescents or adults, and infantile delayed-onset cases are rare. Severe hyperammonemia in the neonatal period leads to serious brain damage, coma, and death if not treated promptly. Therefore, early diagnosis and acute treatment are crucial. Despite the improvement of treatments, including continuous hemodialysis, ammonia-lowering agents, and a low-protein diet, the overall outcome of severe forms of hyperammonemia often remains disappointing. As the liver is the only organ in which ammonia is converted into urea, liver transplantation has been considered as an elegant and radical alternative therapy to classical dietary and medical therapies. However, liver transplantation has many disadvantages, such as a considerable risk for technical complications and perioperative metabolic derangement, especially in neonates. Additionally, there is a lack of suitable donor organs in most countries. According to recent studies, liver cell transplantation is a therapeutic option and serves as a bridge to liver transplantation. Here, we report a Korean CPS1D patient with novel mutations in CPS1 who was treated by liver cell transplantation after being diagnosed in the neonatal period and showed a good neurodevelopmental outcome at the last follow-up at six months of age.

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