Tetsuro Yoshimura

Efficient formation of giant liposomes through the gentle hydration of phosphatidylcholine films doped with sugar.

Giant liposomes, or giant vesicles, are cell-size (approximately 5-100 microm) compartments enclosed with phospholipid bilayers, and have often been used in biological research. They are usually generated using hydration methods, electroformation and gentle hydration (or natural swelling), in which dry lamellar films of phospholipids are hydrated with aqueous solutions. In gentle hydration, however, giant liposomes are difficult to prepare from an electrostatically neutral phospholipid because lipid lamellae cannot repel each other. In this study, we demonstrate the efficient formation of giant liposomes using the gentle hydration of neutral phospholipid (dioleoyl phosphatidylcholine, DOPC) dry films doped with nonelectrolytic monosaccharides (glucose, mannose, and fructose). A mixture of DOPC and such a sugar in an organic solvent (chloroform/methanol) was evaporated to form the films, which were then hydrated with distilled water or Tris buffers containing sodium chloride. Under these conditions, giant liposomes spontaneously formed rapidly and assumed a swollen cell-sized spherical shape with low lamellarity, whereas giant liposomes from pure DOPC films had multilamellar lipid layers, miscellaneous shapes and smaller sizes. This observation indicates that giant unilamellar vesicles (GUVs) of DOPC can be obtained efficiently through the gentle hydration of sugar-containing lipid dry films because repulsion between lipid lamellae is enhanced by the osmosis induced by dissolved sugar.

Nucleotide sequence of genome segment 5 from Bombyx mori cypovirus 1

Summary.u2002The complete nucleotide sequences of the double-stranded RNA genome segments 5 (S5) from Bombyx mori cypovirus 1 (BmCPV-1) strains I and H were determined. The segments consisted of 2,852 nucleotides encoding putative proteins of 881 amino acids with molecular masses of approximately 101u2009kDa (p101). A homology search showed that p101 has high similarity (93%) to foot-and-mouth disease virus (FMDV) 2A protease (2Apro) at amino acid position 219 to 235. These findings suggest the possibility that p101 encoded by BmCPV-1 S5 might be cleaved into two non-structural proteins by post-translational autocleavage involving a 2Apro-like protease.

Nucleotide sequence of Bombyx mori cytoplasmic polyhedrosis virus segment 8.

The segments 8 (S8) of the 10 double-stranded RNA genomes from Bombyx mori cytoplasmic polyhedrosis virus (BmCPV) strains I and H were converted into cDNAs, amplified by PCR, and cloned. The nucleotide sequence analysis of the two full-length S8 cDNAs showed that the segments consist of 1328 nucleotides encoding putative proteins (p44) of 390 amino acids with molecular masses of about 44 kDa, which have glutamic acid-rich and proline-rich domains in their central regions. They had quite high identity with each other: about 98% in nucleotide and amino acid sequences. The recombinant p44 expressed in BmN4 cells using the baculovirus vector was detected by immunoblot analysis. p44 was also confirmed with the same antiserum to be present in BmCPV-infected midgut cells, but not in polyhedra, virus virions and uninfected midgut cells, indicating that p44 is expressed as a nonstructural protein of BmCPV.

Confocal microscopic observation of fusion between baculovirus budded virus envelopes and single giant unilamellar vesicles.

We assayed fusion events between giant unilamellar vesicles (GUVs) and budded viruses (BVs) of baculovirus (Autographa californica nucleopolyhedrovirus), the envelopes of which have been labeled with the fluorescent dye Alexa Fluor 488. This involves observing the intensity of fluorescence emitted from the lipid bilayer of single GUVs after fusion using laser scanning microscopy. Using this assay system, we found that fusion between single GUVs and BV envelopes was significantly enhanced at around pH 5.0-6.0, which suggests that: (1) envelope glycoprotein GP64-mediated membrane fusion within the endosome of insect cells was reproduced in our artificial system; (2) acidic phospholipids in GUVs are necessary for this fusion, which are in agreement with the previous results with conventional small liposomes including large unilamellar vesicles and multilamellar vesicles; and (3) the efficiency of fusion is significantly affected by membrane properties that can be modulated by adding cholesterol to GUV lipid bilayers. In addition, the microscopic observation of BV-fused single GUVs showed that a weak interaction occurred between BVs and GUVs containing dioleoylphosphatidylserine at pH 6.0-6.5, and components of BV envelopes were unevenly distributed upon fusion with GUVs containing saturated phospholipid with cholesterol. We further demonstrated that when the recombinant membrane protein, adrenergic beta(2) receptor, was expressed on recombinant BV envelopes, the protein distribution on BV-fused GUVs was also affected by their lipid contents.

Development of a Novel Preparation Method of Recombinant Proteoliposomes Using Baculovirus Gene Expression Systems

We have developed a novel method for the preparation of recombinant proteoliposomes. Membrane proteins were expressed on budded virus (BV) envelopes using baculovirus gene expression systems, and proteoliposomes were prepared by fusion of these viruses with liposomes. First, plasmid DNA containing the gene for the thyroid-stimulating hormone receptor (TSHR) or the acetylcholine receptor alpha-subunit (AChRalpha) was co-transfected with wild type virus [Autographa californica nuclear polyhedrosis virus (AcNPV)] genomes into insect cells [Spodoptera frugiperda (Sf9)] to obtain recombinant viruses via homologous recombination. The recombinant viruses were again infected into Sf9 cells, and the resulting BVs were shown to express TSHR and AChRalpha. Next, the fusion behaviour of AcNPV-derived BVs and liposomes was examined via a fluorescence assay, and BVs were shown to fuse with phosphatidylserine-containing liposomes below pH 5.0, the pH at which fusion glycoprotein gp64 on the virus envelope becomes active. TSHR- or AChRalpha-expressed BVs were also shown to fuse with liposomes. Finally, TSHR- and AChRalpha-recombinant proteoliposomes were immobilized on enzyme-linked immunosorbent assay plates, and their reactivities were examined via a general immunoassay, which showed that the recombinant proteoliposomes were fully active. These results successfully demonstrate the development of a method based on a baculovirus gene expression system for the preparation of recombinant and functional proteoliposomes.

Genome mapping and gene analysis of Antheraea pernyi nucleopolyhedrovirus for improvement of baculovirus expression vector system.

We have constructed a genome DNA map of the Antheraea pernyi nucleopolyhedrovirus (AnpeNPV) and used it to identify target genes for deletion in order to improve the newly developed baculovirus expression vector system. Initially, 50 independent PstI fragments of viral DNA were obtained by shotgun cloning, and both termini of each cloned fragment were sequenced. Then, the sequence data were used for homology search against both nucleotide and amino acid sequences of other NPVs in databases. This homology search allowed us to construct a nearly complete restriction map of a viral DNA with several assumed gaps. Four additional PstI fragments covering the gaps were obtained by PCR amplification, and a complete map of a circular viral DNA, which consisted of 54 PstI fragments, was constructed. The map indicated that the AnpeNPV genome is approximately 130.2 kbp in size and possesses high similarity to the Orgyia pseudotsugata multicapsid NPV (OpMNPV) genome in both sequence and arrangement of genes. Utilizing the genome-wide high similarity between AnpeNPV and OpMNPV, we identified two target genes on the map, namely, cathepsin and chitinase genes, whose products have been proved to be involved in the degradation of recombinant proteins and the liquefaction of virus-infected insect tissues. Comparative sequence analysis of the map also revealed the lack of certain OpMNPV open reading frame (ORF) homologs and the presence of ORFs, whose homologs do not exist in OpMNPV but in other group I NPVs, providing an insight into the position of AnpeNPV in the baculovirus phylogeny.

Unbinding of lipid bilayers induced by osmotic pressure in relation to unilamellar vesicle formation

Small-angle X-ray scattering and phase-contrast microscopy experiments were performed to investigate the effect of osmotic pressure on vesicle formation in a dioleoylphosphatidylcholine (DOPC)/water/NaI system. The multi-lamellar structure of lipid bilayers is unstabilized when a lipid film with a sufficient amount of NaI is hydrated by pure water. It has been confirmed that this phenomenon is due to the effect of osmotic pressure induced by a heterogeneous distribution of NaI molecules. This could be the origin of the unbinding of lipid bilayers to conform large uni-lamellar vesicles.

Cadherin-integrated liposomes with potential application in a drug delivery system.

N-cadherin (CDH2) proteins were reconstituted with liposomes using a baculovirus expression-liposome fusion method. CDH2 budded viruses were fused with giant liposomes containing dioleoylphophogycerol/dioleoylphosphatidylcholine (DOPG/DOPC) at pH 4.5 and the localization of CDH2 on the liposome membrane was observed by confocal laser scanning microscopy. CDH2 liposomes showed Ca(2+)-dependent association. CDH2-mediated association/dissociation in CDH2 liposomes was specific to Ca(2+) and reversible. CDH2-expressing LN-229 cells (human glioblastoma cell) adhered to CDH2 liposomes and small CDH2 liposomes (diameter approximately 150xa0nm), in particular, were internalized by endocytosis and partly escaped endosomes. Cadherin-containing liposomes show high potential as a new cell-specific proteoliposome. The baculovirus expression-liposome fusion method is useful as a new enabling technology for biomedical applications of functional proteoliposomes.

Preparation of Connexin43-Integrated Giant Liposomes by a Baculovirus Expression-Liposome Fusion Method

Connexin‐43 (Cx43) containing giant liposomes (GL) were prepared by a baculovirus expression–liposome fusion method. Recombinant budded viruses expressing Cx43 were prepared and then fused with GLs containing DOPG/DOPC at pH 4.5. Connexon formation on the GL membrane was observed by transmission electron microscope. Hydrophilic fluorescent dye transfers were observed through a Cx43‐mediated pathway not only between Sf9 (Spodoptera frugiperda) cells with Cx43 but also from giant Cx43 liposomes to Cx43‐expressing U2OS cells (human osteosarcoma cell). The functional connexin‐containing liposome is expected to be useful for cellular cytosolic delivery systems. The original orientation and function of Cx43 was maintained after integration into the liposomes. The liposome fusion method will create new opportunities as a tool for analysis of channel membrane proteins. Biotechnol. Bioeng. 2010;107: 836–843.

Diagnosis and discrimination of autoimmune Graves' disease and Hashimoto's disease using thyroid-stimulating hormone receptor-containing recombinant proteoliposomes.

Graves disease (GD) is an autoimmune disease of the thyroid gland caused by autoantibodies against thyroid-stimulating hormone receptor (TSHR). Currently, the diagnostic test for TSHR autoantibodies is based on an indirect competitive binding assay that measures the ability of TSHR autoantibodies to inhibit the binding of thyroid-stimulating hormone (TSH) to TSHR. Here, we have developed a specific and direct diagnostic method for autoantibodies in GD that incorporates immobilized TSHR-containing recombinant proteoliposomes into an enzyme-linked immunosorbent assay (ELISA). To reduce non-specific binding of autoantibodies to recombinant proteoliposomes, we investigated the effect of polyethylene glycol (PEG)-lipid on the binding of commercially available anti-TSHR antibodies (aTSHRAb). The incorporation of PEG-lipids into liposomes decreased non-specific binding, as compared to liposomes that did not contain PEG-lipids, and the addition of blocking reagents further decreased non-specific reactivity. aTSHRAb exhibited higher reactivity towards PEG-modified TSHR recombinant proteoliposomes than PEG-modified liposomes without TSHR (bare liposomes). Importantly, serum autoantibodies from patients with GD, which is associated with hyperthyroidism, exhibited remarkably specific binding to TSHR recombinant proteoliposomes. Serum autoantibodies from patients with Hashimotos disease (HD), which is associated with hypothyroidism, also reacted specifically with proteoliposomal TSHR. These results suggest that immobilized TSHR recombinant proteoliposomes can serve as a direct diagnostic test for GD and HD. Furthermore, given that there is no competition test currently available for detecting autoantibodies in HD, the combination of TSHR recombinant proteoliposome ELISA and indirect competitive TSHR binding assay might be an effective way to discriminate between GD and HD.