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THE EXPRESSION OF IL-10, IL-12 AND IFN-�� IN INTRACELLUAR AND SERUM OF CHILDREN WITH ALL

Sheng GY, Li L, Liu YF, Zhou X, Fang YQ, Zhao XM

The First Affiliated Hospital of Henan Medical University, Zhengzhou, China

Objective: To investigation the relationship between the cytokine network represented by maladjustment of the 3 cytokines (CKs) (IL-12, IL-10 and IFN-��) and the pathogenic mechanism of leukemia.

Methods: The expression of IL-12, IL-10 and IFN-�� in mononuclear cell of 7 children with acute T lymphoblastic leukemia (T-ALL) and 8 healthy children were detected by flow cytometry (FCM) (the mononuclear cell were stimulated for 5 hours); the expression of the 3 cytokines in serum were detected by ELISA technique in 47 children with ALL and 20 healthy children and the relation correlativity analysis was made.

Results: 1) IL-12 had positive expression in non-leukemic T cell (CD₃⁺ CD₇⁺) of 4 children with T-ALL, but no expression in leukemic blast T cell (CD₃^- CD₇⁺) of children with T-ALL or in T cell (CD₃⁺ CD₇⁺) of healthy children. 2) There was not IL-10 positive expression in non-leukemic T cells and leukemic cells of children with T-All or in T cells of healthy children. 3) IFN-�� had positive expression both in non-leukemic T cells of 3 children with T-ALL and in normal T cells of 8 healthy children, but no expression in leukemic cells of children with T-All. 4) The level of of IL-10 in ALL children serum was higher than that in control group serum and the difference was significant. 5) The level of IL-12 and IFN-�� in ALL children��s serum were all lower than that in control group��s serum and the differences were significant. 6) The serum levels of IL-12 and IFN-�� in children with ALL was positively correlated, while those of IL-10 and IFN-��, IL-10 and IL-12 were negatively correlated.

Conclusions: 1) Intracelluar CKs can be detected in the leukemic cells from children with T-ALL by multiparameter flow cytoimetry analysis afler cells stimulated for 5 hours. 2) The maladjustment of cytokines can cause the disorder of molecular metablism in blood cells and uncontrolable cell multiplication, which may be one of the most significant pathogenic mechanisms of leukemia.

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