Back to Search Start Over

[Solid state isotope hydrogen exchange for deuterium and tritium in human gene-engineered insulin].

Authors :
Zolotarev YA
Dadayan AK
Kozik VS
Gasanov EV
Nazimov IV
Ziganshin RKh
Vaskovsky BV
Murashov AN
Ksenofontov AL
Haribin ON
Nikolaev EN
Myasoedov NF
Source :
Bioorganicheskaia khimiia [Bioorg Khim] 2014 Jan-Feb; Vol. 40 (1), pp. 31-41.
Publication Year :
2014

Abstract

The reaction of high temperature solid state catalytic isotope exchange in peptides and proteins under the action of catalyst-activated spillover hydrogen was studied. The reaction of human gene-engineered insulin with deuterium and tritium was conducted at 120-140° C to produce insulin samples containing 2-6 hydrogen isotope atoms. To determine the distribution of the isotope label over tritium-labeled insulin's amino acid residues, oxidation of the S-S bonds of insulin by performic acid was performed and polypeptide chains isolated; then their acid hydrolysis, amino acid analysis and liquid scintillation counts of tritium in the amino acids were conducted. The isotope label was shown to be incorporated in all amino acids of the protein, with the peptide fragment FVNQHLCGSHLVE of the insulin β-chain showing the largest incorporation. About 45% of the total protein isotope label was incorporated in His5 and His10 of this fragment. For the analysis of isotope label distribution in labeled insulin's peptide fragments, the recovery of the S-S bonds by mercaptoethanol, the enzymatic hydrolysis by glutamyl endopeptidase from Bacillus intermedius and HPLC division of the resulting peptides were carried out. Attribution of the peptide fragments formed due to hydrolysis at the Glu-X bond in the β-chain was accomplished by mass spectrometry. Mass spectrometry analysis data of the deuterium-labeled insulin samples' isotopomeric composition showed that the studied solid state isotope exchange reaction equally involved all the protein molecules. Biological studying of tritium-labeled insulin showed its physiological activity to be completely retained.

Details

Language :
Russian
ISSN :
0132-3423
Volume :
40
Issue :
1
Database :
MEDLINE
Journal :
Bioorganicheskaia khimiia
Publication Type :
Academic Journal
Accession number :
25898721
Full Text :
https://doi.org/10.1134/s1068162014010154