Thrombin-induced interleukin 1beta synthesis in platelet suspensions: impact of contaminating leukocytes.

A controversial discussion as to whether human platelets are capable of regulated protein synthesis has been ongoing for over half a century. A previous study has suggested that human platelets synthesize large amounts of interleukin 1beta (IL-1beta) in response to external cues and in a physiologically significant manner. However, cytokines such as IL-1beta are generally considered to be products of leukocytes and it could not be completely excluded that contaminating leukocytes may have contributed to the IL-1beta results in platelet preparations. It was therefore our intention to investigate whether residual leukocytes had an impact on thrombin-induced IL-1beta synthesis. Using various methods to reduce the level of contaminating leukocytes, we found that IL-1beta production in platelet-rich suspensions is dependent on the presence of leukocytes, as it was decreased by reducing the number of leukocytes. In addition, we found that thrombin-induced IL-1beta synthesis was completely eliminated in leukocyte-free platelet preparations and could be restored by adding leukocytes. IL-1beta synthesis could be detected in platelet suspensions contaminated with at least 1 leukocyte per 10(5) platelets. This study demonstrated that platelets are incapable of synthesizing detectable amounts of IL-1beta on their own. We suggest that any IL-1beta synthesis detected is a by-product of leukocytes contaminating the platelet preparations. Thus, the hypothesis that platelets producing IL-1beta, provide a new link between thrombosis and inflammation needs to be reconsidered.

Immunosuppressive therapy regimen and platelet activation in renal transplant patients.

BACKGROUND: Increased platelet activation caused by an immunosuppressive therapy regimen may contribute to the high incidence of death from cardiovascular disease in renal transplant patients. Cyclosporine (INN, ciclosporin) and azathioprine are reported to activate platelets, but data are rare and controversial for tacrolimus and mycophenolate mofetil. METHODS: This cross-sectional study assessed markers of platelet degranulation (P-selectin; CD62), the activated glycoprotein IIb/IIIa receptor (PAC1, indicating the fibrinogen binding site), platelet aggregation, and secretion of platelet-derived growth factor (PDGF(AB)) in renal transplant patients treated with 4 different therapy regimens. Immunosuppression was based on low-dose steroids (5 mg/d prednisone) in combination with a single agent: (1) cyclosporine (n = 16), (2) azathioprine (n = 18), (3) tacrolimus (n = 17), or (4) mycophenolate mofetil (n = 13). Effects were compared with those in an age-matched control group of patients with hypertension (n = 11). RESULTS: In all renal transplant patient groups, unactivated platelets exhibited an increased expression of CD62. When stimulated with 2-micromol/L thrombin receptor-activating peptide, CD62 expression in platelets from patients treated with azathioprine (63% +/- 17%; P <.05), cyclosporine (51% +/- 23%; P <.05), and tacrolimus (50% +/- 22%; P <.05) was elevated compared with control subjects (33% +/- 19%). PAC1 expression was significantly increased in the patient groups that received azathioprine and cyclosporine. PDGF(AB) secretion was elevated in patients treated with azathioprine only (51 +/- 24 ng/10(9) platelets [versus 35 +/- 17 ng/10(9) platelets for control subjects]; P <.05). Platelet aggregation in response to collagen (0.5 microg/mL) was decreased in patients treated with tacrolimus (49% +/- 29%; P <.05) and mycophenolate mofetil (55% +/- 32%; P <.05) compared with control subjects (73% +/- 25%). CONCLUSION: This is the first study to compare the effects on platelet function of different immunosuppressive regimens that are based on monotherapy. All renal transplant patients showed preactivated platelets compared with those of patients with hypertension. However, the "newer" immunosuppressive agents tacrolimus and mycophenolate mofetil seemed to have fewer unfavorable effects on platelet CD62 expression and PAC1 expression and aggregation. Whether this finding is accompanied by fewer cardiovascular events remains to be elucidated.