Assessment of methods of purification of corynebacterium allergen with definition of concentration and its experimental application

• Main Authors: M. O. Baratov, Z. M. Dzhambulatov, O. P. Sakidibirov, B. M.-S. Gadzhiyev, G. A. Dzhabarova, R. M. Abduragimova
• Format: Article
• Language: Russian
• Published: Kamerton 2019-10-01
• Series: Ûg Rossii: Èkologiâ, Razvitie
• Subjects: ppd‐tuberculin; corynebacterium sensitin; allergen; precipitation; sensitivity; specificity; concentration
• Online Access: https://ecodag.elpub.ru/ugro/article/view/1707
• ISSN: 1992-1098; 2413-0958

Aim: Search for an effective method for obtaining bacterial protein and determining  the optimal concentration for identification of specific types.   Material and Methods. Using the example of a C. xerosis N 1911 reference strain  grown on a nutrient medium improved by us, methods were investigated of protein  precipitation with sodium chloride, ammonium sulphate, sodium hexametaphosphate, trichloroacetic acid and polyethylene glycol. The threshold sensitivity of the  allergen in six different cultures was determined in tests on 24 guinea pigs infected  with corynebaсteria. Biological activity was studied in cultures from 36 guinea pigs  infected with M. BCG (Bacillus Calmette–Guérin vaccine), M. avium, C. xerosis N  1911, C. ulcerans N 675 and C. bovis, as well as 3 rabbits infected with Corynebacterium xerosis. Results. Comparative testing of five protein precipitation methods was carried out.  When using ammonium sulphate as a precipitant relatively high results were obtained at a salt concentration of 30% and a pH of at least 5.8. More significant protein precipitation occurred at the isoelectric point of sodium chloride at pH 3.9. It  was noted that trichloroacetic acid and sodium hexametaphosphate had insignificant  precipitating properties while there was none with polyethylene glycol. The threshold sensitivity (0.00005 mg in 0.1 ml) and allergen unit of action (0.0003 mg) were  established. Intensity of skin reaction to sensitin homologous to infection was detected. Conclusions. The data obtained revealed the optimal method of protein precipitation, the unit of action of the corynebacterium allergens, and expanded the understanding of the mechanisms of the sensitization of the macro‐organism to tuberculin.