Junya Kohroki

ASB proteins interact with Cullin5 and Rbx2 to form E3 ubiquitin ligase complexes

The ankyrin repeat and SOCS box (ASB) family is composed of 18 proteins from ASB1 to ASB18 and belongs to the suppressor of cytokine signaling (SOCS) box protein superfamily. ASB2 was recently shown to interact with a certain Cul–Rbx module to form an E3 ubiquitin (Ub) ligase complex, but the functional composition of the ASB‐containing E3 Ub ligase complexes remains to be characterized. Here, we show that ASB proteins interact with Cul5–Rbx2 but neither Cul2 nor Rbx1 in cells. Mutational analysis revealed that the highly conserved amino acid sequences of the BC box and Cul5 box in the SOCS box of ASB proteins were essential for the interaction with Cul5–Rbx2. Although ASB proteins show slight divergences from the consensus sequences of the BC box and Cul5 box, all five tested ASB proteins bound to Cul5–Rbx2. Furthermore, all three tested ASB complexes containing Cul5–Rbx2 were found to have E3 Ub ligase activity. These findings suggest that the ASB family proteins interact with Cul5–Rbx2 to form E3 Ub ligases and play significant roles via a ubiquitination‐mediated pathway.

Tandemly repeated Fc domain augments binding avidities of antibodies for Fcγ receptors, resulting in enhanced antibody-dependent cellular cytotoxicity

Antibody-dependent cellular cytotoxicity (ADCC) is a major mechanism by which antibodies exert anti-tumor effects. Here, we show that Fc multimerization augments the binding avidities for all of the low-affinity Fcgamma receptors, increasing ADCC activity very much. A chimeric antibody, designated M-Ab, was constructed with the V regions from mouse anti-CD20 mAb 1F5 and the C regions from human IgG1 and kappa chain. Two or three Fc domains were tandemly repeated downstream of the C-terminus of the M-Ab to give D0-Ab (Fc dimer Ab without a linker), T0-Ab (Fc trimer Ab without a linker), and T3-Ab (Fc trimer Ab with a (GGGGS)(3) linker in front of the second and third hinge regions). HPLC and SDS-PAGE analyses of the purified antibodies indicated that the H and L chains were appropriately linked with interchain disulfide bonds and that the Ab preparations did not contain aggregated molecules. Although flow cytometry indicated that Fc multimerization decreased the binding activity for CD20-bearing cells to 1/3 approximately 1/4, the binding avidities for the extracellular domains of low-affinity Fcgamma receptors were greatly augmented. The avidities were in the order of T3-Ab, T0-Ab, D0-Ab and M-Ab, with T3-Ab showing about 100 times greater avidity than M-Ab not only for FcgammaRIIIA, but also for FcgammaRIIA and FcgammaRIIB. The rank order of ADCC activity with human PBMC was the same, and T3-Ab induced ADCC at a 50-100 times less concentration, compared to M-Ab. These Fc tandem repeat antibodies are promising candidates for anti-tumor therapeutics, and should also be useful as tools to elucidate the biological roles of FcgammaRIIA, FcgammaRIIB, and FcgammaRIIIA.

Effect of immunoglobulin G (IgG) interchain disulfide bond cleavage on efficacy of intravenous immunoglobulin for immune thrombocytopenic purpura (ITP)

Intravenous immunoglobulin (IVIG) has been used widely to treat immune thrombocytopenic purpura (ITP), but the mechanisms of its action remain unclear. We investigated the affinity for Fcγ receptors (FcγRs) and the thrombocytopenia‐ameliorating effect of S‐sulfonated gammaglobulin (SGG) and S‐alkylated gammaglobulin (AGG), in comparison with unmodified gammaglobulin (GG), in a mouse ITP model. Cleavage of immunoglobulin (Ig)G interchain disulfide bonds by either S‐sulfonation or S‐alkylation did not decrease the affinity for FcγRIIA (CD32A) and FcγRIIB (CD32B), but did decrease the affinity for FcγRIA (CD64A) and FcγRIIIA (CD16A), presumably because of changes in H‐chain configuration. The interchain disulfide bond cleavage decreased the affinity much more for mouse FcγRIV than for mouse FcγRIIB. The ability of AGG to ameliorate ITP was greatly diminished, while SGG, whose disulfide bonds are reconstituted in vivo, was as effective as GG. These results suggest that the interchain disulfide bonds are important for therapeutic effect. It is also suggested that the interaction of IVIG with the inhibitory receptor FcγRIIB is insufficient for effective amelioration of ITP and that, at least in this model, direct binding of IVIG to FcγRIIIA is also required.

A neuronal transmembrane protein LRFN4 induces monocyte/macrophage migration via actin cytoskeleton reorganization.

Leucine‐rich repeat and fibronectin type III domain‐containing (LRFN) family proteins are thought to be neuronal‐specific proteins that play essential roles in neurite outgrowth and synapse formation. Here, we focused on expression and function of LRFN4, the fourth member of the LRFN family, in non‐neural tissues. We found that LRFN4 was expressed in a wide variety of cancer and leukemia cell lines. We also found that expression of LRFN4 in the monocytic cell line THP‐1 and in primary monocytes was upregulated following macrophage differentiation. Furthermore, we demonstrated that LRFN4 signaling regulated both the transendothelial migration of THP‐1 cells and the elongation of THP‐1 cells via actin cytoskeleton reorganization. Our data indicate that LRFN4 signaling plays an important role in the migration of monocytes/macrophages.

Chemically dimerized intravenous immunoglobulin has potent ameliorating activity in a mouse immune thrombocytopenic purpura model.

High-dose intravenous immunoglobulin (IVIG) preparations are currently used for the treatment of autoimmune diseases such as immune thrombocytopenic purpura (ITP). Although the mechanisms of IVIG efficacy remain enigmatic, some clinical and laboratory studies suggest that interaction of the Fc domain of IgG, especially the Fc domain of dimeric IgG, with its receptors (Fc gamma receptors; FcγRs) plays an essential role. In this study, IVIG was dimerized with chemical crosslinkers to augment its therapeutic efficacy. Dimerized IVIG was found to have a much higher affinity for FcγRs than monomeric IVIG. In a mouse ITP model, chemically dimerized IVIG abrogated the decrease in platelet numbers in the blood that was caused by an anti-platelet antibody at a dose that was one tenth of the required dose of IVIG. These results suggest that chemical dimerization of IVIG should greatly improve the efficacy of IVIG therapy of ITP.

TNF receptor II fusion protein with tandemly repeated Fc domains

The extracellular domain of tumour necrosis factor (TNF) receptor II fused with the human IgG1 Fc region (TNFRII-Fc), as well as antibodies against TNF, has been used to treat rheumatoid arthritis. However, TNFRII-Fc is less effective than these antibodies in terms of antibody-dependent cellular cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) against cells bearing TNF on the cell surface. We hypothesized that these activities could be increased by fusing TNFRII with tandemly repeated Fc (TNFRII-Fc-Fc). The affinities of TNFRII-Fc-Fc for soluble TNF-α and transmembrane TNF-α and the TNF-α cytotoxicity-inhibitory activity were as potent as those of TNFRII-Fc. TNFRII-Fc-Fc showed much higher binding avidity for Fcγ receptors than TNFRII-Fc and was more potent in terms of both ADCC and CDC against cells expressing transmembrane TNF-α. TNFRII-Fc-Fc of 80 kDa, as well as TNFRII-Fc-Fc of 200 kDa, was detected. TNFRII-Fc-Fc (80 kDa) was as potent as TNFRII-Fc in terms of both ADCC and CDC. These results suggest that Fc multimerization of receptor-Fc fusion proteins can augment effector functions such as ADCC and CDC, and thereby have the potential to provide a superior therapeutic effect. This may be the case not only for TNFRII-Fc but also for other receptor-Fc fusion proteins.

Comprehensive trapping of polyubiquitinated proteins using the UIM peptide of ASB2a.

An alternative splicing variant of E3 ubiquitin ligase ASB2, termed ASB2a, has a distinct N-terminal sequence containing a ubiquitin-interacting motif (UIM) consensus sequence. Examination of the minimal essential region for binding to polyubiquitinated proteins indicated that the UIM consensus sequence (residues 26-41) alone is not enough, and that amino acids 12-41 from the N-terminus of ASB2a is essential for binding. ASB2a(12-41) peptide was chemically synthesized and coupled to Sepharose 4B via disulfide bonds. This ASB2a(12-41) peptide-coupled affinity resin bound both K48- and K63-linked polyubiquitinated proteins in cell lysates and comprehensively captured polyubiquitinated proteins, including polyubiquitinated β-catenin, I-κB, and EGF receptor, which were eluted with 2-mercaptoethanol under non-denaturing conditions. These results indicate that this UIM affinity purification (designated as ubiquitin-trapping) is a useful method to discover polyubiquitinated proteins and their associated proteins.

Effect of trastuzumab interchain disulfide bond cleavage on Fcγ receptor binding and antibody-dependent tumour cell phagocytosis

The Fc domain of human IgG1 binds to Fcγ receptors (FcγRs) to induce effector functions such as phagocytosis. There are four interchain disulfide bonds between the H and L chains. In this study, the disulfide bonds within the IgG1 trastuzumab (TRA), which is specific for HER2, were cleaved by mild S-sulfonation or by mild reduction followed by S-alkylation with three different reagents. The cleavage did not change the binding activities of TRA to HER2-bearing SK-BR-3 cells. The binding activities of TRA to FcγRIIA and FcγRIIB were greatly enhanced by modification with mild reduction and S-alkylation with ICH2CONH2 or N-(4-aminophenyl) maleimide, while the binding activities of TRA to FcγRI and FcγRIIIA were decreased by any of the four modifications. However, the interchain disulfide bond cleavage by the different modifications did not change the antibody-dependent cell-mediated phagocytosis (ADCP) of SK-BR-3 cells by activated THP-1 cells. The order of FcγR expression levels on the THP-1 cells was FcγRII > FcγRI > FcγRIII and ADCP was inhibited by blocking antibodies against FcγRI and FcγRII. These results imply that the effect of the interchain disulfide bond cleavage on FcγRs binding and ADCP is dependent on modifications of the cysteine residues and the FcγR isotypes.

Antibody-dependent cellular cytotoxicity and cytokine/chemokine secretion by KHYG-1 cells stably expressing FcγRIIIA.

Antibody-dependent cellular cytotoxicity (ADCC) mediated by natural killer (NK) cells is a major mechanism of tumor therapy with antibodies. NK cells not only manifest cytotoxicity but also secrete a variety of cytokines/chemokines that regulate immune responses. Using a retroviral vector, in this study we established a KHYG-1 cell line that stably expresses FcγRIIIA (CD16A). The KHYG-1/FcγRIIIA cells exerted potent antibody concentration-dependent ADCC, whereas parental KHYG-1 cells did not. In contrast, without antibody, the natural killer activity of KHYG-1/FcγRIIIA cells was less potent than that of parental KHYG-1 cells. During the course of ADCC, KHYG-1/FcγRIIIA cells secreted IFN-γ and MIP-1α dependent upon antibody concentration, but parental KHYG-1 cells did not. These results suggest that KHYG-1/FcγRIIIA cells would be useful in studies to elucidate the function of NK cells and the mechanism of ADCC.

The ASB2β Ubiquitin-interacting motif is involved in its monoubiquitination.

ASB2 proteins are E3 ubiquitin (Ub) ligases that ubiquitinate filamins. There are two ASB2 splice variants, ASB2α and ASB2β. ASB2β has a ubiquitin-binding motif (UIM) at the N-terminal region but ASB2α does not. Here, we provide the first evidence that ASB2β but not ASB2α is monoubiquitinated and that this monoubiquitination involves the UIM. Myc-tagged ASB2β and hemagglutinin (HA)-tagged Ub were co-expressed in HEK293 cells using the pCMV expression vector. Immunoprecipitation with an anti-Myc antibody followed by immunoblotting with anti-Myc and anti-HA antibodies showed an additional ASB2β protein band that had both a Myc and a HA tag. The molecular weight of this protein was larger than that of ASB2β, and the difference in molecular weight between these two proteins corresponded to the molecular weight of monoubiquitin, strongly implying that monoubiquitinated ASB2β is produced in cells. ASB2β with mutations in the UIM motif; either Glu·Asp·Glu27-29Ala·Ala·Ala mutations (ASB2β M1) or a Ser38Ala mutation, (ASB2β M2) were not monoubiquitinated, suggesting the importance of the UIM for ASB2β monoubiquitination. Furthermore, an ASB2β mutant that lacked a SOCS box (ASB2β ΔC) and did not show E3 Ub ligase activity was monoubiquitinated to the same extent as the wild-type ASB2β. In contrast, an ASB2β mutant that lacked the UIM-containing domain (ASB2β ΔN) was not monoubiquitinated. These results suggest that ASB2β but not ASB2α might be monoubiquitinated and that the ASB2β UIM motif, but not its E3 Ub ligase activity, plays a pivotal role in this monoubiquitination.