Pseudolaric acid B induces mitotic arrest and apoptosis in both 5-fluorouracil-sensitive and -resistant colorectal cancer cells.

5-fluorouracil (5-FU)-based chemotherapy is the main chemotherapeutic approach for colorectal cancer (CRC) treatment. Because chemoresistance occurs frequently and significantly limits CRC therapies, a novel agent is needed. Pseudolaric acid B (PAB), a small molecule derived from the Chinese medicinal herb ''Tujinpi'', exhibits strong cytotoxic effects on a variety of cancers. However, the detailed mechanisms by which PAB inhibits CRC cell growth and its potential role in overcoming 5-FU resistance have not been well studied. In this study, we showed that PAB significantly inhibited the viability of various CRC cell lines but induced minor cytotoxicity in normal cells. Both the in vitro and in vivo results showed that PAB induced proliferation inhibition, mitotic arrest and subsequently caspase-dependent apoptosis in both 5-FU-sensitive and -resistant CRC cells. Moreover, PAB was shown to interfere with CRC cell mitotic spindle apparatus and activate the spindle assembly checkpoint. Finally, CDK1 activity was involved in PAB-induced mitotic arrest and apoptosis in CRC cells. Taken together, these data reveal that PAB induces CRC cell mitotic arrest followed by apoptosis and overcomes 5-FU resistance in vitro and in vivo, suggesting that PAB may be a potential agent for CRC treatment, particularly for 5-FU-resistant CRC.

Development of a simple system for screening anti-hepatitis C virus drugs utilizing mutants capable of vigorous replication.

Replication of infectious hepatitis C virus in Huh7 cells, a human hepatocyte cell line, has become possible due to the unique properties of the JFH1 isolate. Developing reporter virus systems for a simple titration has been attempted by integrating heterologous reporter genes into the JFH1 genome, resulting in a big infectivity reduction that limits the usefulness of such reporter systems. To overcome this problem, JFH1-infected Huh7 cells were cultured continuously for 2 years to obtain Huh7-adapted JFH1 variants capable of yielding up to 1000-fold higher titers. Sequence analysis of variant genome RNA suggested that this adapted population consisted mainly of two variants. By joining the 5'-half of the obtained representative viral complementary DNA (cDNA) fragments of the variants with the 3'-half of the wild-type's, two prototype clones, A/WT and B/WT, were constructed. Replication of A/WT and B/WT viruses in Huh7 cells showed up to 100-1000-fold higher titers than the wild-type. A Renilla luciferase cDNA was inserted into the Nonstructural Protein 5A region of the A/WT and B/WT cDNA to generate A/WT-Rluc and B/WT-Rluc, respectively. Transfection of Huh7 cells with in vitro-transcribed A/WT-Rluc and B/WT-Rluc RNA resulted in production of infectious viruses with approximately 15- and 25-fold higher titers, respectively, than the wild-type RNA. The replication of A/WT-Rluc and B/WT-Rluc viruses was more vigorous than the wild-type even with insertion of the luciferase cDNA showing a good correlation of luciferase activities with infectious titers. Furthermore, interferon-alpha inhibited the replication of A/WT-Rluc and B/WT-Rluc viruses in a dose-dependent manner as determined by a luciferase assay. These results imply that our system is potentially a tool useful for screening anti-hepatitis C virus drugs in a simple and time/cost-saving manner.

An efficient and versatile mammalian viral vector system for major histocompatibility complex class I/peptide complexes.

We report a Sendai virus (SeV) vector system for expression of major histocompatibility complex (MHC) class I/peptide complexes. We cloned the extracellular domain of a human MHC class I heavy chain, HLA-A*2402, and human beta-2 microglobulin (beta2m) fused with HLA-A*2402-restricted human immunodeficiency virus type 1 (HIV-1) cytotoxic T-lymphocyte (CTL) epitopes (e-beta2m) in separate SeV vectors. When we coinfected nonhuman mammalian cells with the SeVs, naturally folded human MHC class I/peptide complexes were secreted in the culture supernatants. Biotin binding peptide sequences on the C terminus of the heavy chain were used to tetramerize the complexes. These tetramers made in the SeV system recognized specific CD8-positive T cells in peripheral blood mononuclear cells of HIV-1-positive patients with a specificity and sensitivity similar to those of MHC class I tetramers made in an Escherichia coli system. Solo infection of e-beta2m/SeV produced soluble e-beta2m in the culture supernatant, and cells pulsed with the soluble protein were recognized by specific CTLs. Furthermore, when cells were infected with e-beta2m/SeV, these cells were recognized by the specific CTLs more efficiently than the protein pulse per se. SeV is nonpathogenic for humans, can transduce foreign genes into nondividing cells, and may be useful for immunotherapy to enhance antigen-specific immune responses. Our system can be used not only to detect but also to stimulate antigen-specific cellular immune responses.