A simple, fluorescent method to internally label platelets suitable for physiological measurements

Abstract

Current methods for studying platelet survival in vivo are limited by the use of radioisotopes, with their inherent safety and regulatory concerns, systemic drug administrations that produce biochemical modifications of platelet functions, or external labeling techniques, which may produce artifacts due to surface modifications. For these reasons, we sought to develop a simple, nonisotopic method for labeling platelets internally, thereby producing platelets more likely to have in vivo properties equivalent to native cells. Murine platelets in protein-free buffer were fluorescently labeled internally by incubation with 2.5 microM 5-chloromethyl fluorescein diacetate (CMFDA), and without washing, were injected into mice for platelet survival studies. CMFDA-labeled platelets were unactivated, as shown by minimal P-selectin expression. When tested in vitro for function by aggregometry, the response of CMFDA-labeled platelets to collagen and thrombin was identical to that of unlabeled platelets. Flow cytometric analysis demonstrated that CMFDA platelets were an intensely stained, unimodal population that was completely separated from unlabeled platelets. The mean half-life of labeled platelets in the murine circulation was 37.5 +/- 4.5 hr (+/-1 SD), and the mean survival time was 3.1-3.3 days (n = 24), similar to results reported using 51Cr and (111)In. No evidence of in vivo transfer of dye from labeled platelets to unlabeled cells was observed. CMFDA produces a population of platelets that are nonradioactively, internally labeled with a highly fluorescent, stable product. The labeled platelets function equivalently to native platelets, as demonstrated by immunocytometry and aggregometry, and importantly, in vivo, by normal platelet survival.