Медицинская иммунология (Oct 2015)
DEVELOPMENT OF REAL-TIME MULTIPLEX PCR FOR THE QUANTITATIVE DETERMINATION OF TREC'S AND KREC'S IN WHOLE BLOOD AND IN DRIED BLOOD SPOTS
Abstract
Primary immunodeficiencies (PID) such as severe combined immunodeficiency (SCID) and X-linked agammaglobulinemia are characterized by the lack of functional Tand B-cells, respectively. Without early diagnosis and prompt treatment children with PID suffer from severe infectious diseases, leading to their death or disability. Our purpose was developing of simple, inexpensive, high throughput technique based on the quantitative determination of TREC and KREC molecules by real-time PCR, and its validation in a group of children with a verified diagnosis of SCID and X-linked agammaglobulinemia.In this study, we developed and validated multiplex real-time PCR for the TREC’s and KREC’s quantitative analysis. We have shown that linear range of Ct changes depending on the concentrations of targets with a correlation coefficient R2 not worse than 0.98 was observed at concentrations from 109 to 5 × 104 copies per ml. The lowest amount of targets reliably detected in a reaction volume was 10 TREC’s copies, 5 KREC ‘s copies and 5 copies of internal control (IL17RA). We determined the age-depended reference values of TRECs and KRECs in whole blood in 29 boys and 27 girls with normal immunological parameters. The normal cut-offs for TRECs and KRECs were defined in dry blood spots depending on the method of extraction.The proposed method showed 100% diagnostic sensitivity and specificity in the studied group. The method can be proposed as a screening tool for the diagnosis of SCID and X-linked agammaglobulinemia both in whole blood and in the dry blood spots. The further investigation is required with larger number of samples.
Keywords