Generation of a Rat Monoclonal Antibody Specific for Importinα3/Qip1

Establishment of novel monoclonal antibodies KMab-1 and MMab-1 specific for IDH2 mutations

Isocitrate dehydrogenase 1/2 (IDH1/2) mutations have been detected in gliomas, cartilaginous tumors, and leukemias. IDH1/2 mutations are early and frequent genetic alterations, are specific to a single codon in the conserved and functionally important Arginine 132 (R132) in IDH1 and Arginine 172 (R172) in IDH2. We previously established several monoclonal antibodies (mAbs), which are specific for IDH1 mutations: clones IMab-1 or HMab-1 against IDH1-R132H or clone SMab-1 against IDH1-R132S. However, specific mAbs against IDH2 mutations have not been reported. To establish IDH2-mutation-specific mAbs, we immunized mice or rats with each mutation-containing IDH2 peptides including IDH2-R172K and IDH2-R172M. After cell fusion, IDH2 mutation-specific mAbs were screened in Enzyme-Linked Immunosorbent Assay (ELISA). Established mAbs KMab-1 and MMab-1 reacted with the IDH2-R172K and IDH2-R172M peptides, respectively, but not with IDH2-wild type (WT) in ELISA. Western-blot analysis also showed that KMab-1 and MMab-1 reacted with the IDH2-R172K and IDH2-R172M recombinant proteins, respectively, not with IDH2-WT or other IDH2 mutants, indicating that KMab-1 and MMab-1 are IDH2-mutation-specific. Furthermore, MMab-1 specifically stained the IDH2-R172M-expressing cells in immunocytochemistry, but did not stain IDH2-WT and other IDH2-mutation-containing cells. In immunohistochemical analysis, MMab-1 specifically stained IDH2-R172M-expressing glioma. This is the first report to establish anti-IDH2-mutation-specific mAbs, which could be useful in diagnosis of mutation-bearing tumors.

Generation and characterization of a monoclonal antibody against importin α7/NPI-2

Many nuclear proteins are transported into the nucleus via the importin α/β-mediated pathway. Importin α comprises a multigene family. In this study, we generated and characterized a rat monoclonal antibody (MAb) 3F8 to importin α7. The antibody was generated by the hybridization of mouse myeloma cells with lymph node cells from an immunized rat. The MAb 3F8 specifically recognized importin α7 among importin α isoforms as evidenced by immunoblotting analysis. Furthermore, MAb 3F8 detected exogenous importin α7 in COS-7 cells by immunofluorescence. This MAb will be useful in the analysis of the isoform-specific function of importin α7.

Specific monoclonal antibody against the nuclear pore complex protein, Nup96

Nup96 is a component of the Nup107-160 complex, the largest subunit of the nuclear pore complex. Nup96 is generated as a precursor protein with Nup98. However, the mechanism by which Nup96 contributes to cell function is not clear. We report here on the preparation of a monoclonal antibody (MAb) directed against mouse Nup96. The antibody was produced by the hybridization of mouse myeloma cells with lymph node cells from an immunized rat. The antibody, MAb 4H5, specifically recognized Nup96, as evidenced by immunoblotting using the whole cell lysates. In immunostaining using MAb 4H5, a nuclear rim staining pattern was observed. This antibody will be useful in immunoblotting and immunolocalization experiments, as well as further analyses of the biological function and cellular dynamics of this protein.

Triggering neural differentiation of ES cells by subtype switching of importin-alpha

Nuclear proteins are selectively imported into the nucleus by transport factors such as importin-alpha and importin-beta. Here, we show that the expression of importin-alpha subtypes is strictly regulated during neural differentiation of mouse embryonic stem (ES) cells, and that the switching of importin-alpha subtype expression is critical for neural differentiation. Moreover, reproducing the switching of importin-alpha subtype expression in undifferentiated ES cells induced neural differentiation in the presence of leukaemia inhibitory factor (LIF) and serum, coordinated with the regulated expression of Oct3/4, Brn2 and SOX2, which are involved in ES-neural identity determination. These transcription factors were selectively imported into the nucleus by specific subtypes of importin-alpha. Thus, importin-alpha subtype switching has a major impact on cell differentiation through the regulated nuclear import of a specific set of transcription factors. This is the first study to propose that transport factors should be considered as major players in cell-fate determination.

Involvement of SUMO modification in MBD1- and MCAF1-mediated heterochromatin formation

Small ubiquitin-related modifiers, SUMO-2/3 and SUMO-1, are involved in gene regulation and nuclear structures. However, little is known about the roles of SUMO, in heterochromatin formation of mammalian cells. Here we demonstrate that SUMOs directly interact with human MCAF1, which forms complexes with either the methyl-CpG-binding protein MBD1 or SETDB1, which trimethylates histone H3 at lysine 9 (H3-K9) in the presence of MCAF1. Modification of MBD1 with either SUMO-2/3 or SUMO-1 facilitated the interaction between MBD1 and MCAF1, suggesting that SUMOylation links the methylation of DNA and histones. In a cultured human cell line, SUMOs were localized in MBD1- and MCAF1-containing heterochromatin regions that were enriched in trimethyl-H3-K9 and the heterochromatin proteins HP1beta and HP1gamma. Specific knockdown of either SUMO-2/3 or SUMO-1 induced dissociation of MCAF1, trimethyl-H3-K9, and the HP1 proteins from the MBD1-containing heterochromatin foci, suggesting a requirement for SUMOs for heterochromatin assembly. These findings provide insights into the roles of SUMOylation in the regulation of heterochromatin formation and gene silencing.

Functional Analysis of Nuclear Pore Complex Protein Nup62/p62 Using Monoclonal Antibodies

The nuclear pore complex (NPC) is an enormous structure embedded in the double membrane of the nuclear envelope that acts as a passageway for nucleocytoplasmic transport. The vertebrate NPC is comprised of about 30 unique proteins. Nup62/p62, a major component of the NPC, has been reported to interact directly with several nuclear transport factors, including importin-beta and NTF2. However, it has not been shown how the interaction of Nup62/p62 with transport factors is involved in nucleocytoplasmic transport. The present study reports on the preparation of monoclonal antibodies (MAbs) directed against human Nup62/p62 and a functional analysis of Nup62/p62 using antibodies in living cells. Hybridomas producing the antibodies were produced by the hybridization of mouse myeloma cells with medial iliac lymph node cells from an immunized rat. These MAbs specifically recognized Nup62/p62 as evidenced by immunoblotting analysis using a nuclear membrane fraction. In the immunostaining using MAbs, a punctuate nuclear rim staining pattern was observed. Moreover, cytoplasmic injected-anti-Nup62/p62 MAbs were rapidly targeted to the nuclear pore of cultured cells and some of them inhibited normal cell division, causing the formation of abnormal nuclei. The antibodies described in this study provide the means for immunochemical analyses of the NPC protein Nup62/p62 in mammalian cells, and represent useful molecular tools that should permit a better understanding of the biological roles and cellular dynamics of this protein in nucleocytoplasmic transport, cell division, and nuclear organization.

Specific Monoclonal Antibody Against the Nuclear Pore Complex Protein, Nup98

Nup98 is a component of nuclear pore complexes, which are large protein assemblies embedded in the nuclear envelope. Previous studies have shown that Nup98 interacts with several transport factors and plays a critical part in nuclear trafficking. However, the mechanism by which Nup98 contributes to nuclear trafficking is not clear. The present study reports on the preparation of a monoclonal antibody (MAb) directed against human Nup98. The antibody was produced by the hybridization of mouse myeloma cells with lymph node cells from an immunized rat. This antibody, MAb 2H10, specifically recognized Nup98, as evidenced by immunoblotting using a nuclear membrane fraction. In immunostaining using MAb 2H10, a punctuate nuclear rim staining pattern was observed. This MAb will be useful in immunoblotting and immunolocalization experiments in various cells and tissues, as well as further analyses of the biological function and cellular dynamics of this protein.

Extracellular signal-dependent nuclear import of STAT3 is mediated by various importin alphas

The signal transducer and activator of transcription 3 (STAT3) is a transcription factor that is involved in a variety of biological functions. STAT3 is activated by cytokines and growth factors via the phosphorylation of a tyrosine residue, dimerization, and subsequent nuclear translocation. However, the mechanism of its nuclear translocation is unclear. A study of the cytokine-stimulated import of STAT3 into the nucleus is reported herein. An oncostatin M (OSM)-dependent nuclear import assay system was first established in living cells. Using this system, we demonstrated that the microinjection of the importin alpha5/NPI-1 mutant, an anti-importin beta antibody, and the RanQ69L mutant inhibited the nuclear import of STAT3. Second, we showed that tyrosine-phosphorylated STAT3 associates, not only with importin alpha5/NPI-1 but also with other importin alphas, as a result of OSM stimulation, as evidenced by a solution binding assay. These findings suggest that the extracellular signal-dependent nuclear transport of STAT3 is mediated by various importin alphas, importin beta, and Ran.

Specific Monoclonal Antibody Against Nuclear Import Factor, Importin α1/Rch1

Importin alpha1/Rch1, an importin alpha family member, mediates the nuclear import of karyophilic proteins. The present study reports on a monoclonal antibody (MAb) directed against mammalian importin alpha1/Rch1, which was produced by the hybridization of mouse myeloma cells with lymph node cells of an immunized rat. The MAb 1A6 specifically recognized importin alpha1/Rch1 among the importin alpha isoforms, as evidenced by Western blotting. Furthermore, 1A6 detected importin alpha1/Rch1 in HeLa cells by immunofluorescence. This MAb will be useful in immunolocalization and immunoblotting experiments, conducted on different tissue types, to determine the levels of expression of importin alpha1/Rch1 throughout development, as well as further analyses of the biological function and cellular dynamics of this protein.