Vp. Nacife et al., Ultrastructural, immunocytochemical and flow cytometry study of mouse peritoneal cells stimulated with carrageenan, CELL STRUCT, 25(6), 2000, pp. 337-350
In the present paper we performed a morphological characterization of mouse
peritoneal cells stimulated in vivo for 24 h with carrageenan (CAR) and li
popolysaccharide (LPS) by ultrastructural and flow cytometry analysis. In a
ll samples, the flow cytometry studies showed the presence of three major p
opulations consisting of monocytes, macrophages and lymphocytes, A special
recruitment of monocytes was detected in CAR-injected mice, Macrophages and
monocytes from CAR-treated mice displayed a characteristic phenotype, with
a larger number of cytoplasmic vacuoles and numerous membrane projections,
as compared to the cells collected from LPS- and PBS-injected mice. The in
duction of vacuolization was also confirmed upon in vitro treatment with CA
R for 15 min to 24 h. The in vivo CAR-induced vacuoles were not related to
lipid storage as judged by the lack of lipidic labeling after imidazole tre
atment at the ultrastructural level. In order to investigate the acidic nat
ure of the vacuoles we used acidothropic probes, Lysotracker Yellow (LY) an
d Acridine Orange (AO), CAR injection activated the ability of peritoneal c
ells to incorporate LY around 2-5 times higher than control cells. However,
the AO incorporation was 10-fold lower in CAR-stimulated cells than in LPS
-stimulated ones. It is possible that the increase in intracellular vacuoli
zation observed in CAR-stimulated cells could be related to exocytosis, sin
ce in most vacuoles the inflammatory protein MRP-14 was immunolocalized. Th
e presence of MRP-14 in the culture supernatant of adherent peritoneal cell
s from CAR-injected mice was further confirmed by ELISA, suggesting the dis
charge of MRP-14 enriched vacuole contents in the extracellular medium. We
concluded that the morphological characteristics of activated monocytes and
macrophages may depend on the nature of the triggering stimuli. Our observ
ations reflect different functional phenotypes of monocytes/macrophages aft
er in vivo stimulation with inflammatory agents such as CAR and LPS.