Role of arginine deiminase in thymic atrophy during experimental Streptococcus pyogenes infection

Expression of gene of arginine deiminase (AD) allows adaptation of Streptococcus pyogenes to adverse environmental conditions. AD activity can lead to L‐arginine deficiency in the host cells’ microenvironment. Bioavailability of L‐arginine is an important factor regulating the functions of the immun...

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Veröffentlicht in:Scandinavian journal of immunology 2019-02, Vol.89 (2), p.e12734-n/a
Hauptverfasser: Starikova, Eleonora Alexandrovna, Golovin, Alexander Stanislavovich, Vasilyev, Kirill Alexandrovich, Karaseva, Alena Borisovna, Serebriakova, Maria Konstantinovna, Sokolov, Alexey Victorovich, Kudryavtsev, Igor Vladimirovich, Burova, Larissa Alexandrovna, Voynova, Irina Vitalyevna, Suvorov, Alexander Nikolaevich, Vasilyev, Vadim Borisovich, Freidlin, Irina Solomonovna
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Sprache:eng
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Zusammenfassung:Expression of gene of arginine deiminase (AD) allows adaptation of Streptococcus pyogenes to adverse environmental conditions. AD activity can lead to L‐arginine deficiency in the host cells’ microenvironment. Bioavailability of L‐arginine is an important factor regulating the functions of the immune cells in mammals. By introducing a mutation into S pyogenes M46‐16, we obtained a strain with inactivated arcA/sagp gene (M49‐16 delArcA), deficient in AD. This allowed elucidating the function of AD in pathogenesis of streptococcal infection. The virulence of the parental and mutant strains was examined in a murine model of subcutaneous streptococcal infection. L‐arginine concentration in the plasma of mice infected with S pyogenes M49‐16 delArcA remained unchanged in course of the entire experiment. At the same time mice infected with S pyogenes M49‐16 demonstrated gradual diminution of L‐arginine concentration in the blood plasma, which might be due to the activity of streptococcal AD. Mice infected with S pyogenes M49‐16 delArcA demonstrated less intensive bacterial growth in the primary foci and less pronounced bacterial dissemination as compared with animals infected with the parental strain S pyogenes M46‐16. Similarly, thymus involution, alterations in apoptosis, thymocyte subsets and Treg cells differentiation were less pronounced in mice infected with S pyogenes M49‐16 delArcA than in those infected with the parental strain. The results obtained showed that S pyogenes M49‐16 delArcA, unable to produce AD, had reduced virulence in comparison with the parental S pyogenes M49‐16 strain. AD is an important factor for the realization of the pathogenic potential of streptococci.
ISSN:0300-9475
1365-3083
DOI:10.1111/sji.12734