Activated Human Eosinophils

Abstract

Eosinophils are leukocytes which, when stimulated with cytokines or chemokines, become activated and release mediators stored in their dominant population of cytoplasmic granules (termed specific or secondary granules) [1]. The morphology of activated eosinophils is quite distinct. In a range of inflammatory and allergic disorders or upon physiological stimulation, activated eosinophils are generally seen as cells full of granules, but these structures are undergoing progressive losses of their contents with retention of granule outer membranes, a process known as ‘piecemeal degranulation’ [2,3] (fig. 1a). As a result, a mixed population of intact (fig. 1a, asterisks) and enlarged, emptying (fig. 1a, arrows) granules is always visualized in cell sections [3]. Also, a decrease of specific granule numbers can occur [3]. A rare view of an activated eosinophil is shown in figure 1b taken from a hypereosinophilic subject. While a single specific granule (Gr) is seen in the cytoplasm in conjunction with an osmiophilic lipid body (LB), the cell surface shows elaborate projections indicative of activation. Vesiculotubular structures (fig. 1b, arrowheads), termed ‘eosinophil sombrero vesicles’ (EoSV) and recently associated with the eosinophil secretory pathway [4,5] reside in the cytoplasm. This vesicle population is unique to eosinophils and allows the prompt identification of these cells by electron microscopy when specific granules are not present[3]. Shape changes are another hallmark of activated human eosinophils. In parallel with the morphological alterations of specific granules, eosinophils are able to change their morphology in response to different agonists. Figure 2 shows shape changes in eosinophils stimulated by eotaxin, a potent eosinophil activator.