Altered free cytosolic calcium changes and neutrophil chemotaxis in patients with juvenile periodontitis

Abstract

Nearly 70–75% of patients with localized juvenile periodontitis (JP) have abnormal polymorphonuclear leukocytic (PMN) chemotaxis. The objective of this study was to determine whether the lower chemotactic response in PMNs from JP patients is associated with a defect in intracellular signal transduction, as measured by stimulus‐induced changes in free cytosolic calcium (Ca²⁺) mobilization. We report that peptide chemoattractants such as N‐formyl‐methionyl‐leucyl‐phenylalanine (fMLP) and the complement fragment C_5a in direct comparative studies induced lower amounts of initial Ca²⁺ mobilization in PMNs from JP patients than healthy controls, as monitored by intracellular fura‐2 fluorescence. The initial resting levels of free cytosolic Ca²⁺ in PMNs from JP patients and normal individuals were found to be similar. fMLP and C_5a both mobilized Ca²⁺ in PMNs in a dose‐dependent manner. Treatment of PMNs from 0.16 to 20 nM fMLP and 0.2 to 20 nM C_5a resulted in elevated levels of free cytosolic Ca²⁺. However, above 20 nM fMLP and 5 nM C_5a concentrations the extent of total Ca²⁺ mobilization did not differ significantly. Although fMLP and C_5a caused Ca²⁺ mobilization in PMN cells from JP and healthy control subjects, fMLP stimulation induced higher levels of free cytosolic Ca²⁺ mobilization in PMN cells from healthy control subjects (141.29 ± 25.55 nM/ 2 ± 10⁶ PMNs), than PMNs from JP patients (62.33 ± 23.76 nM/2 ± 10⁶ PMNs). Similarly C_5a induced higher levels of Ca²⁺ mobilization in PMNs from healthy control individuals (130.43 ± 18.26 nM Ca²⁺/2 ± 10⁶ PMNs), when compared to JP patients (49.92 ± 14.92 nM Ca²⁺/2 ± 10₆ PMNs). JP patients also exhibited significantly lower chemotaxis towards fMLP (74.51 ± 6.31%) and C_5a (69.25 ± 5.44%) as compared to healthy control subjects. The data suggest that PMNs from JP patients exhibit an intrinsic anomaly in the mechanism(s) responsible for intracellular Ca²⁺ mobilization which correlates with a PMN chemotactic defect.