Assessment of donor T-cell function in cellular blood components by the CD69 induction assay: effects of storage, gamma radiation, and photochemical treatment.

Pubmed ID: 10924602

Journal: Transfusion

Publication Date: July 1, 2000

MeSH Terms: Humans, Antigens, CD, Blood Donors, Antigens, Differentiation, T-Lymphocyte, Biological Assay, Blood Banks, Blood Preservation, Ficusin, Gamma Rays, Lectins, C-Type, Photosensitizing Agents, T-Lymphocytes

Grants: N01-HB-57126, P50-HL-54476

Authors: Fiebig E, Busch MP, Hirschkorn DF, Maino VC, Grass JA, Lin L

Cite As: Fiebig E, Hirschkorn DF, Maino VC, Grass JA, Lin L, Busch MP. Assessment of donor T-cell function in cellular blood components by the CD69 induction assay: effects of storage, gamma radiation, and photochemical treatment. Transfusion 2000 Jul;40(7):761-70.

Studies:

Abstract

BACKGROUND: Functional donor T-lymphocytes in blood components may cause a variety of transfusion complications. A flow cytometric assay based on the measurement of induced CD69 expression may be an alternative to cell proliferation methods in determining the functional status of these cells in blood components. STUDY DESIGN AND METHODS: Seven units of whole blood, RBCs, and platelet concentrates (PCs) were stored under blood bank conditions. Half of 3 PCs each were gamma-radiated or treated with UVA+psoralen; the other half served as controls. Samples were analyzed for phorbolester-induced expression of CD69 as an indicator of cell responsiveness and for exclusion of propidium iodide as a measure of cell membrane integrity and viability. RESULTS: CD69 inducibility and propidium iodide exclusion decreased exponentially (half-life, 3. 3 and 8.1 days, respectively) during cold blood storage. Irradiation and UVA+psoralen treatment of PCs immediately reduced CD69 inducibility to 21 percent (controls, 82%; p = 0.004) and 12 percent (controls, 95%; p = 0.0008), respectively. The proportion of cells capable of propidium iodide exclusion was similar in treated samples and controls, but it declined faster in the treated samples during subsequent storage. CONCLUSION: Flow cytometric measurement of CD69 induction can be adapted to provide quantitative assessment of T-cell function in blood components. Results obtained by the CD69 assay are in general agreement with those previously reported by use of proliferation methods; the assay may be useful for special applications in transfusion medicine.