Abstract
Phagocytosis occurs primarily through two main processes in macrophages: the Fcγ receptor- and the integrin αMβ2-mediated processes. Complement C3bi-opsonized particles are known to be engulfed through integrin αMβ2-mediated process, which is regulated by RhoA GTPase. C3 toxin fused with Tat-peptide (Tat-C3 toxin), an inhibitor of the Rho GTPases, was shown to markedly inhibit the phagocytosis of serum (C3bi)-opsonized zymosans (SOZs). However, 8CPT-2Me-cAMP, an activator of exchange protein directly activated by cAMP (Epac, Rap1 guanine nucleotide exchange factor), restored the phagocytosis of the SOZs that was previously inhibited by the Tat-C3 toxin. In addition, a constitutively active form of Rap1 GTPase (CA-Rap1) also restored the phagocytosis that was previously reduced by a dominant negative form of RhoA GTPase (DN-RhoA). This suggests that Rap1 can replace the function of RhoA in the phagocytosis. Inversely, CA-RhoA rescued the phagocytosis that was suppressed by DN-Rap1. These findings suggest that both RhoA and Rap1 GTPases collectively regulate the phagocytosis of SOZs. In addition, filamentous actin was reduced by the Tat-C3 toxin, which was again restored by 8CPT-2Me-cAMP. Small interfering profilin suppressed the phagocytosis, suggesting that profilin is essential for the phagocytosis of SOZs. Furthermore, 8CPT-2Me-cAMP increased the co-immunoprecipitation of profilin with Rap1, whereas Tat-C3 toxin decreased that of profilin with RhoA. Co-immunoprecipitations of profilin with actin, Rap1, and RhoA GTPases were augmented in the presence of GTPγS rather than GDP. Therefore, we propose that both Rap1 and RhoA GTPases regulate the formation of filamentous actin through the interaction between actin and profilin, thereby collectively inducing the phagocytosis of SOZs in macrophages.
Highlights
RhoA GTPase is essential for integrin ␣M2-mediated phagocytosis
8CPT2Me-cAMP, an activator of exchange protein directly activated by cAMP (Epac, Rap1 guanine nucleotide exchange factor), restored the phagocytosis of the serum (C3bi)-opsonized zymosans (SOZs) that was previously inhibited by the Tat-C3 toxin
2 The abbreviations used are: Fc␥ receptors (Fc␥Rs), Fc␥ receptor; CA, constitutively active; 8CPT-2Me-cAMP, 8-(4-chloro-phenylthio)-2Ј-O-methyladenosine-3Ј,5ЈcAMP; CR3, complement receptor 3; DN, dominant negative; Epac, exchange protein directly activated by cAMP; F-actin, filamentous actin; FITC-conjugated SOZs (F-SOZs), fluorescein isothiocyanate (FITC)-conjugated SOZ; GTPase-activating proteins (GAPs), GTPase-activating protein; GEF, guanosine nucleotide exchange factor; GST-RalGDS-RapBD, GST-RalGDS Rap binding domain; GTP␥S, guanosine 5Ј-3-O-(thio)triphosphate; ICAM, intercellular adhesion molecule; LIMK, LIM kinase; LPA, lysophosphatidic acid; mDia, mDiaphanous; MYPT-1, myosin phosphatase-1; ROCK, Rho-associated coiled-coil containing protein kinase; Rhotekin-RBD, Rhotekin Rho binding domain; SOZ, serum-opsonized zymosan
Summary
RhoA GTPase is essential for integrin ␣M2-mediated phagocytosis. Results: Activation of Rap GTPase can induce phagocytosis even when RhoA is inactivated. Significance: This might be the first observation that Rap and RhoA GTPases collectively regulate phagocytosis in macrophages. A constitutively active form of Rap GTPase (CA-Rap1) restored the phagocytosis that was previously reduced by a dominant negative form of RhoA GTPase (DN-RhoA). This suggests that Rap can replace the function of RhoA in the phagocytosis. CA-RhoA rescued the phagocytosis that was suppressed by DN-Rap1 These findings suggest that both RhoA and Rap GTPases collectively regulate the phagocytosis of SOZs. In addition, filamentous actin was reduced by the Tat-C3 toxin, which was again restored by 8CPT-2MecAMP. Rho GTPases can be converted to an active, GTP-bound form by guanine nucleotide exchange
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