Periodontitis is a complex, multi-factorial process affected by bacterial plaque-components and host defense mechanisms. Phagocytic cells in innate immunity provide the host with the first line of defense against acute bacterial and fungal infections, and the functional disorders of polymorphonuclear neutrophils (PMNs) often determine the seriousness of periodontal diseases. In the past, early-onset periodontits (EOP) was a severe peridontitis. A high percentage of the patients and their families with a diagnosis of EOP were reported to exhibit an abnormal neutriphil chemotaxis and other defects, such as overproduction of oxygen radicals, and lead to rapidly periodontal destruction. On the other hand, IL-8 acts as a potent chemoattractant for PMNs. IL-8 promoter gene expression is demonstrated to be a disease susceptibility gene in a variety of inflammatory diseases and may play a pathogenic role in disease. Different IL-8-251(A→T) gene genotypes affect IL-8 concentration in serum are reported in UK. Until now, whether the trait of abnormal chemotactic response of PMNs in severe periodontitis patient is due to an intrinsic defect of PMN or is environmentally influenced (e.g. smoking) still remains controversial. The aim of the present study is to compare the chemotaxis function of PMNs and the amount of oxygen radicals released from peripheral blood among aggressive periodontitis patients (AgP), chronic periodontitis patients (CP) and control subjects with healthy periodontium (H). Besides, this study will further investigate into the possible correlation among types of periodontitis, IL-8 promoter gene polymorphism and IL-8 concentration in blood in Taiwan. In this experiment, the patients were selected from Periodontal Department of National Taiwan University Hospital and their venous blood was taken for examination. There were 39 subjects of AgP, 19 subjects of CP, and 34 control subjects participating in the PMNs function studies. PMNs were separated from venous blood by Ficoll-Hypaque gradient centrifugation which was proposed by Boyum, and the chemotaxis of PMNs was assessed in Polycarbonate Membrane Transwell® Inserts. IL-8 and N-fMLP (N-formylmethionine-leucyl-phenylanine) were used as chemoattractants, and RPMI 1640 as a parallel control in the assessment of PMN chemotaxis. The generation of free oxygen radicals was measured with luminal-enhanced chemiluminescence (CL) after whole blood was activation by Phorbol myristate acetate (PMA). Genetic polymorphisms of the IL-8 promoter region were identified by DNA extraction, polymerase chain reaction, and facultative Mfe I restriction endonuclease from 38 subjects of AgP, 20 subjects of CP, and 36 control subjects. IL-8 promoter gene polymorphism is a IL-8-251A or IL-8-251T by substituted. All the subjects’ whole blood was diluted with an equal volume of RPMI 1640, and stimulated with or without lipopolysaccharide (LPS). The IL-8 concentration in serum of the subjects was measured by Chemiluminescent Immunoassay and corrected with the total white cell count. Two statistical analyses ANOVA (analysis of variance) and multiple linear regression analysis of PMN functions study and IL-8 concentration in serum studies were used in our study. In addition, Chi-Square test or Fisher’s exact test assayed the association between periodontitis and IL-8 promoter gene polymorphism. The results of ANOVA and multiple linear regression analysis are similar. According to the result of multiple regression analysis, PMNs from CP shows depressed chemotactic response to IL-8 (b = -0.31, p < 0.01), but PMNs from AgP shows active chemotactic response to N-fMLP (b = 15.27, p = 0.057). However, no significant differences in release of oxygen radicals among the three groups (AgP, CP, H) are found. Besides, the concentration of IL-8 in the serum without LPS stimulation is lower in both IL-8 -251AT genotype subjects (b = -0.54, p = 0.04) and IL-8 -251A allele type subjects (b = -0.54, p = 0.034). The concentration of IL-8 in the serum with LPS stimulation is higher in AgP and CP subjects (b = 0.22, 0.62; p = 0.03, < .0001; CP > AgP > C). There is no correlation between periodontitis and IL-8 promoter gene polymorphism. We speculate that the number of PMNs migrating under N-fMLP as chemoattractant from bacteria is larger in AgP, and spark off the faster periodontal destruction in AgP. In CP, the number of PMNs migrating under human IL-8 as chemoattractant from host is smaller which thus results in slower periodontal destruction in CP. The release of oxygen radicals stimulated by PMA isn’t the major cause of rapid periodontal destruction. Whether IL-8 -251AT genotype or IL-8 -251A allele type has a negative effect on the production of IL-8 in serum without LPS stimulation, but IL-8 promoter gene polymorphism can’t affect the rate of periodontal destruction. AgP and CP subjects have higher concentration of IL-8 in serum with LPS stimulation. Furthermore, since IL-8 has large influences on PMN migration, we can infer that higher concentration of IL-8 may lead to hyperactive PMN chemotaxis, and be related to rapid periodontal destruction in AgP. On the other hand, CP has depressed chemotactic response to IL-8, and therefore the high concentration IL-8 may not lead to rapid periodontal destruction.