ed with an e pression vector with an inserted GFP Rab5 gene The

ed with an e pression vector with an inserted GFP Rab5 gene. The transfected cells were preincubated with an NF ��B inhibitor at 37 C for 1 h and were then incubated with TNF for 3 h. The active form of Rab5 in the cell lysates was subjected to a GST R5BD pull down assay and was analyzed by Western blotting with anti GFP antibodies. Treatment with PDTC also did not affect the level of the active form of Rab5 induced by TNF. These results suggest that NF ��B does not mediate activation of Rab5 by stimu lation with TNF. TNF increased colocalization of P. gingivalis with ICAM 1 and Rab5 Finally, we e amined the relationships among P. gingiva lis, ICAM 1 and Rab5 in Ca9 22 cells. Ca9 22 cells were transfected with e pression vectors with inserted genes of GFP Rab5 and were then treated with TNF and fur ther incubated with P.

gingivalis. The cells were then stained using an anti ICAM 1 antibody and antiserum to P. gingivalis whole cells. A small amount of P. gingi valis that co localized with ICAM 1 and GFP Rab5 was observed in Ca9 22 cells without TNF stimulation. GSK-3 However, TNF stimulation increased co localization of P. gingivalis, ICAM 1 and GFP Rab5 in Ca9 22 cells. These findings suggest that TNF affects the localization of Rab5 and ICAM 1 in cells and may enhance internalization of P. gigivalis in the cells. Discussion TNF is a potent pleiotropic proinflammatory cytokine and has been implicated in the pathogenesis of peri odontitis. TNF was also shown to activate oral epithelial cells. However, it was not known whether TNF affects P. gingivalis invasion in epithelial cells.

In the present study, we demonstrated for the first time that TNF augmented P. gingivalis invasion in oral epi thelial cells. In this study, we showed that TNF activated Rab5 through JNK but not through p38 and ERK, although TNF activates all of them. Activation of JNK is associ ated with the invasive process of P. gingivalis. Therefore, JNK activated by TNF may mediate activa tion of Rab5 and may enhance internalization of P. gingi valis in cells. Rab5 is an important regulator of early endosome fusion. Therefore, TNF may induce forma tion of early phagosomes by activating Rab5. On the other hand, Bhattacharya et al. demonstrated that cytokines regulate bacterial phagocytosis through induc tion of Rab GTPases.

They showed that IL 6 specifically induces the e pression of Rab5 and activates Salmonella trafficking in cells through ERK activation. On the other hand, IL 12 induced Rab7 e pression through p38. An other study showed that activation of p38 MAPK regulates endocytosis by regulating the activity of Rab5 accessory proteins such as Rab5 GDI, EEA1, and rabenosyn 5, which are known to regulate membrane transport during endocytosis. Several independent studies have also shown that activation of ERK regulates endocytic traffic of mul tiple receptor systems, for e ample, 5 HT1A receptor, m1 muscarinic receptor, and opioid receptors. These findings suggest that activation of diff

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