THALIDOMIDE AND THE IMMUNE-SYSTEM .3. SIMULTANEOUS UP-REGULATION AND DOWN-REGULATION OF DIFFERENT INTEGRIN RECEPTORS ON HUMAN WHITE BLOOD-CELLS

Time-dependent changes in the surface receptor expression of various maturational and integrin receptors on peripheral blood cells were studied in two healthy human volunteers following oral applications of thalidomide (Thd). In each measurement the receptor density was quantified by prior calibration of the flow cytometer with latex beads bearing a determined number of fluorescence molecules. The effects observed in the course of the Thd-treatment were practically identical or at least very similar in both of the volunteers during four different trials, and were in accord with previous results obtained in large-scale studies (68 treated animals) with non-human primates. It should be stressed that no clear-cut changes were observed in the percentage or absolute numbers of primary lymphocyte subsets such as CD3, CD4 and CD20. After the first two doses of 7 mg Thd/kg body wt the CD18 (the common beta-chain of the beta 2-integrins) marker already decreased in surface density or was no longer detectable on granulocytes, monocytes and lymphocytes. This effect persisted throughout the treatment period and slowly subsided after discontinuation of treatment. With a few days lag phase, the surface density of CD54 (ICAM-1) on granulocytes increased and many cells previously not bearing this receptor newly acquired such surface markers. On monocytes however, the CD54 receptor was lost on many cells. Within the lymphocyte fraction a loss of the CD54 marker could be noted on CD4 cells but not on CD8 cells, where an increase of the receptor expression could be observed. Other markers, such as the alpha chains of the beta 1 integrins CD49b (VLA alpha 2) and CD49d (VLA alpha 4) showed contrasting reactions to the Thd-treatment. Whereas a pronounced loss of the receptor density of CD49d was observed and only few cells with high epitope density mere left in the blood at the end of the complete dosing schedule, no such effect was observable on cells bearing the CD49b epitope. A distinct reduction of the number of receptors was also noticeable on L-selectin (Leu8) bearing cells. On CD4 positive lymphocytes, the majority of the described effects on the integrin and adhesion receptors was seen on cells bearing the CD45R0 maturational epitope. This functional receptor is strongly down-regulated and the pathway of CD45RA to CD45R0 maturation is apparently altered by Thd-treatment. These multiple changes we observed may explain the large variety of therapeutic effects experienced in the treatment with Thd.