Literature DB >> 7305986

Age-dependent decay of cytochrome b5 and cytochrome b5 reductase in human erythrocytes.

T Matsuki, M Tamura, M Takeshita, Y Yoneyama.   

Abstract

Age-dependent decrease in cytochrome b5 was observed in erythrocytes from both a normal person and a patient with hereditary methaemoglobinaemia without neurological symptoms. With aging, concentrations of cytochrome b5 in erythrocytes from the patient were almost the same as those in the control. Age-dependent decrease in cytochrome b5 reductase activity in the control erythrocytes was also shown; however, the reductase activity was very low in erythrocytes from the patient over the whole age range. Our studies show that methaemoglobin content of erythrocytes seems to be dependent on the content of cytochrome b5 in the cells, both in the control subject and in the patient.

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Year:  1981        PMID: 7305986      PMCID: PMC1162747          DOI: 10.1042/bj1940327

Source DB:  PubMed          Journal:  Biochem J        ISSN: 0264-6021            Impact factor:   3.857


  18 in total

1.  Generalised deficiency of cytochrome b5 reductase in congenital methaemoglobinaemia with mental retardation.

Authors:  A Leroux; C Junien; J Kaplan; J Bamberger
Journal:  Nature       Date:  1975-12-18       Impact factor: 49.962

2.  DECREASED GLUTATHIONE IN AGING RED CELLS.

Authors:  M D SASS; C J CARUSO; D J O'CONNELL
Journal:  Clin Chim Acta       Date:  1965-04       Impact factor: 3.786

Review 3.  Erythocyte destruction and hemoglobin catabolism.

Authors:  H F Bunn
Journal:  Semin Hematol       Date:  1972-01       Impact factor: 3.851

4.  Soluble cytochrome b 5 from human erythrocytes.

Authors:  P G Passon; D W Reed; D E Hultquist
Journal:  Biochim Biophys Acta       Date:  1972-07-12

5.  Catalysis of methaemoglobin reduction by erythrocyte cytochrome B5 and cytochrome B5 reductase.

Authors:  D E Hultquist; P G Passon
Journal:  Nat New Biol       Date:  1971-02-24

6.  Activity of NADH- and NADPH-dependent methemoglobin reductases in erythrocytes from fetal to adult age. A parallel assessment.

Authors:  M Vetrella; B Astedt; W Barthelmai; D Neuvians
Journal:  Klin Wochenschr       Date:  1971-09-01

7.  Purification of reduced pyridine nucleotide dehydrogenase from human erythrocytes and methemoglobin reduction by the enzyme.

Authors:  Y Sugita; S Nomura; Y Yoneyama
Journal:  J Biol Chem       Date:  1971-10-10       Impact factor: 5.157

8.  Congenital methemoglobinemia: the result of age-dependent decay of methemoglobin reductase.

Authors:  S A Feig; D G Nathan; P S Gerald; H S Zarkowski
Journal:  Blood       Date:  1972-03       Impact factor: 22.113

9.  Red-cell "pseudomosaicism" in congenital methemoglobinemia.

Authors:  A S Keitt; T W Smith; J H Jandl
Journal:  N Engl J Med       Date:  1966-08-25       Impact factor: 91.245

10.  Acceleration of methaemoglobin reduction by riboflavin in human erythrocytes.

Authors:  T Matsuki; T Yubisui; A Tomoda; Y Yoneyama; M Takeshita; M Hirano; K Kobayashi; Y Tani
Journal:  Br J Haematol       Date:  1978-08       Impact factor: 6.998
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  3 in total

1.  Concentration of NADH-cytochrome b5 reductase in erythrocytes of normal and methemoglobinemic individuals measured with a quantitative radioimmunoblotting assay.

Authors:  N Borgese; G Pietrini; S Gaetani
Journal:  J Clin Invest       Date:  1987-11       Impact factor: 14.808

2.  Role of NADPH-cytochrome P450 reductase and cytochrome-b5/NADH-b5 reductase in variability of CYP3A activity in human liver microsomes.

Authors:  Lu Gan; Lisa L von Moltke; Lauren A Trepanier; Jerold S Harmatz; David J Greenblatt; Michael H Court
Journal:  Drug Metab Dispos       Date:  2008-10-06       Impact factor: 3.922

3.  Efficient Reduction of Vertebrate Cytoglobins by the Cytochrome b5/Cytochrome b5 Reductase/NADH System.

Authors:  Matthew B Amdahl; Courtney E Sparacino-Watkins; Paola Corti; Mark T Gladwin; Jesús Tejero
Journal:  Biochemistry       Date:  2017-07-19       Impact factor: 3.321
  3 in total

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