Neutrophils contain several populations of secretory granules with characteristic sets of proteins. Granule proteins are sorted into their respective granule types by temporal regulation of their expression during cell differentiation and/or by specific targeting signals. We investigated the expression of some granule proteins in human promyelocytic NB4 cells. Like other myeloid cell lines which can be differentiated into neutrophils, NB4 cells lack the specific-granule population. We report here that, nevertheless, they express the specific-granule matrix protein lactoferrin, when differentiated with retinoic acid. Lactoferrin and the azurophil-granule protein beta-glucuronidase were simultaneously expressed, whereas myeloperoxidase expression had stopped, showing that azurophil-granule proteins are not all produced concomitantly. Cell fractionation by Percoll gradient revealed that while beta-glucuronidase co-fractionated with myeloperoxidase, lactoferrin was mostly contained in a vesicular compartment free of markers for azurophil granules, plasma membrane, and Golgi. This vesicular compartment was not implicated in regulated exocytosis since it was not mobilized by secretagogues, which, in parallel, induced the release of myeloperoxidase. Furthermore, the specific granule-membrane protein cytochrome b558 also became expressed during NB4-cell differentiation. However, it did not co-localize with lactoferrin but was present in the plasma-membrane fraction. Therefore, differentiation of NB4 cells with retinoic acid leads to the expression of specific- and azurophil-granule proteins and provides a unique cell line model to study the mechanisms involved in the sorting of azurophil- and specific-granule proteins.
Human promyelocytic cells, NB4, differentiate into neutrophils in response to all-trans retinoic acid (ATRA). It has recently been proposed that NB4 cells have bilineage potential because these cells are also able to differentiate into monocyte/macrophages when exposed to a combination of 1,25-dihydroxyvitamin D3 (VD3) and phorbol myristate acetate (PMA). Differentiation of myeloid cells into neutrophils or monocytes is associated with the acquisition of the O − 2 producing enzyme, NADPH oxidase, which plays a critical role in microbial killing. In this study, the expression of the components of the NADPH oxidase complex during the differentiation of NB4 cells into neutrophils or macrophages has been investigated. Whereas cells exposed to ATRA were able to produce O − 2 after 2 days of differentiation, they remain unable to generate O − 2 when exposed to PMA or PMA + VD3. With the exception of p21rac, none of the other oxidase components was expressed in non-differentiated cells. Addition of ATRA induced the progressive expression and accumulation of p22phox, p91phox, p47phox and p67phox. Compared to the other components, p67phox was expressed late and its expression appeared to correlate most closely with the generation of O − 2 in the differentiation process. In PMA or PMA + VD3-differentiated NB4 cells, expression of the NADPH oxidase components was incomplete. Therefore, ATRA induced the expression of a functional NADPH oxidase complex in neutrophil-like NB4 cells. In contrast, when NB4 cells are exposed to monocytic differentiating agents, they acquire only part of the phenotypic characteristics of monocytes and lack one of the major phagocytic functionalities, the respiratory burst oxidase.
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