Keishin Sugawara

Zernike phase contrast electron microscopy of ice-embedded influenza A virus.

The ultrastructure of the frozen-hydrated influenza A virus was examined by Zernike phase contrast electron microscopy. Using this new microscopy, not only lipid bilayers but also individual glycoprotein spikes on viral envelopes were clearly resolved with high contrast in micrographs taken in focus. In addition to spherical and elongated virions, three other classes of virions were distinguished on the basis of the features of their viral envelope: virions with a complete matrix layer, which were the most predominant, virions with a partial matrix layer, and virions with no matrix layer under the lipid bilayer. About 450 glycoprotein spikes were present in an average-sized spherical virion. Eight ribonucleoprotein complexes, that is, a central one surrounded by seven others, were distinguished in one viral particle. Thus, Zernike phase contrast electron microscopy is a powerful tool for resolving the ultrastructure of viruses, because it enables high-contrast images of ice-embedded particles free of contrast transfer function artifacts that can be a problem in conventional cryo-electron microscopy.

Non-clinical and phase I clinical trials of a Vero cell-derived inactivated Japanese encephalitis vaccine

The safety and effectiveness of a Vero cell-derived inactivated Japanese encephalitis (JE) vaccine were compared with those of a current JE vaccine in non-clinical studies and a phase I clinical trial. The single-dose toxicity study showed no toxicity of either the current JE vaccine or the investigational Vero cell-derived JE vaccine. In a local irritation study, the degree of irritation caused by both vaccines was determined to be the same as that induced by normal saline. To investigate genotoxicity, a chromosomal aberration test was conducted and the results were negative. Both JE vaccines were administered to a group of 30 subjects who were seronegative (neutralizing antibody titer <10(1)) for JEV virus (Beijing-1 Strain). Each subject was subcutaneously inoculated twice at an interval of 1-4 weeks, followed by an additional booster inoculation 4-8 weeks later, and clinical reactions and serological responses were subsequently investigated. Adverse drug reactions of local reaction, headache and malaise were mild, occurring at a rate of 6.7 and 20.0% after administration of the Vero cell-derived JE vaccine and the current JE vaccine, respectively. The seroconversion rate after three doses of both JE vaccines was 100%, while the geometric mean titer for the Vero cell-derived and current JE vaccines was 10(2.35) and 10(2.03), respectively. These results suggest that the safety and effectiveness of the Vero cell-derived inactivated JE vaccine are equal to those of the currently available conventional vaccine in humans, and that the Vero cell-derived vaccine could be a useful second-generation JE vaccine.

Antibody therapy for familial amyloidotic polyneuropathy

Although it is believed that altered conformations exposing cryptic regions are intermediary and critical steps in the mechanism of transthyretin (TTR) amyloid formation, no effective therapy targeting this step is available. In this study, to establish the antibody therapy for familial amyloidotic polyneuropathy (FAP), we generated a monoclonal anti-TTR antibody, which specifically reacts with surface epitopes of TTR (MAb ATTR) and evaluated its binding affinity and specificity for TTR amyloid fibrils. MAb ATTR showed specific binding affinity for TTR amyloid fibrils, but not for native form of TTR. Moreover, MAb ATTR indeed showed the high consistency with Congo red positive areas in tissue specimens from FAP ATTR V30M patients, indicating that MAb ATTR showed binding affinity and specificity for TTR amyloid fibrils in vitro and in vivo. MAb ATTR may have a potential to suppress TTR amyloid deposition and become a candidate for the antibody therapy for FAP.

A convenient method for preparation of the calcium ion-binding protein annexin V

This study presents a novel method for the production and purification of annexin V using cation exchange chromatography in the presence of calcium ions at neutral or alkaline pH. This method enables the handling of a large quantity of sample at one time without deterioration of the adsorption capacity of the cation exchange carrier by contaminating proteins, as well as the production of the calcium ion-binding protein annexin V with high purity on an industrial scale from both recombinant products and native products.

Prenatal diagnosis of Gaucher disease using next-generation sequencing.

In the prenatal diagnosis of Gaucher disease (GD), glucocerebrosidase (GBA) activity is measured with fetal cells, and gene analysis is performed when pathogenic mutations in GBA are identified in advance. Herein is described prenatal diagnosis in a family in which two children had GD. Although prior genetic information for this GD family was not obtained, next‐generation sequencing (NGS) was carried out for this family because immediate prenatal diagnosis was necessary. Three mutations were identified in this GD family. The father had one mutation in intron 3 (IVS2 + 1), the mother had two mutations in exons 3 (I[‐20]V) and 5 (M85T), and child 1 had all three of these mutations; child 3 had none of these mutations. On NGS the present fetus (child 3) was not a carrier of GD‐related mutations. NGS may facilitate early detection and treatment before disease onset.

Large-scale production of major house dust mite allergen Der f 2 mutant (C8/119S) in Escherichia coli

Hyposensitization, in which causative antigens of allergic diseases are injected, is the sole means of a radical cure for allergic diseases. Since the therapeutic allergens currently used are naturally extracted, producing preparations with a stable titer from such extracts is extremely difficult. There are several reports on the expression of recombinant mite allergens in Escherichia coli using inducers. The use of an inducer for industrial production will lead to high costs and, for therapeutic use, it must be removed in the purification process. C8/119S is a mutant of Der f 2, a major house dust mite allergen. The C8/119S gene was integrated downstream of the trp promoter to produce the expression plasmid (pWU11-C8/119S). Then, this expression plasmid was used to transform E. coli strain HB101 (pWU11-C8/119S/HB101). A recombinant E. coli pWU11-C8/119S/HB101 did not express C8/119S in a low-temperature culture (32 degrees C), but C8/119S was induced to a high level of expression in a high-temperature culture (37 degrees C). pWU11-C8/119S/HB101 proliferated when expression was induced by high temperature and an approximately 3-fold greater proliferation was obtained compared with the use of an inducer in a large-scale culture. The C8/119S protein was expressed as inclusion bodies and obtained by refolding and chromatography purifications. The immunological properties of C8/119S were assessed by western blotting. Western blotting demonstrated that purified C8/119S reacted with a monoclonal anti-Der f 2 antibody (18G8). pWU11-C8/119S/HB101 can be used as an easy, low cost expression system on a large scale. It is also advantageous for industrial production in that the addition of an inducer is not required to achieve expression of the mite allergen.

Production-scale purification of the recombinant major house dust mite allergen Der f 2 mutant C8/119S.

A WHO position paper states that allergen immunotherapy is an effective treatment for allergic diseases, and well characterized allergens should be used in immunotherapy. The house dust mite is a major cause of allergic disease. However, the biological activity of the mite extracts currently used cannot be clearly determined, since these extracts contain various impurities. The use of recombinant allergens can avoid this problem. However, there remains a risk of contamination by other impurities, such as host cell-derived proteins (HCPs). Advanced purification techniques are thus required to remove these contaminants. C8/119S is a mutant of the major house dust mite allergen Der f 2, and is expressed and accumulated as an inclusion body in Escherichia coli. The C8/119S was refolded and purified through three column chromatography steps. Using this method, we could obtain about 2g of the purified C8/119S in one purification batch. This amount is equivalent to 100,000 of the maintenance doses required for immunotherapy based on the WHO position paper. The purity of the C8/119S was 99% or more. The antigenicity of HCPs in the C8/119S was examined by passive cutaneous anaphylaxis assays. When the C8/119S was administered at 40 μg/kg, no local anaphylaxis was observed. C8/119S was thus highly purified with an extremely low level of impurities, and our procedure was shown to be an effective advanced production-scale purification process for this Der f 2 mutant. In this study, we established an advanced purification processes for C8/119S, then characterized the purified C8/119S and evaluated its purity.

High-risk screening for Gaucher disease in patients with neurological symptoms

Gaucher disease (GD) is an autosomal recessive lysosomal storage disorder caused by the deficiency of glucocerebrosidase enzyme activity. Clinical phenotypes of GD are categorized into three groups: (i) non-neuronopathic GD (type 1), (ii) acute neuronopathic GD (type 2) and (iii) subacute neuronopathic GD (type 3). The high-risk screening of neuronopathic GD has been performed using an enzymatic assay on the dried blood spot (DBS) samples. We enrolled a total of 102 individuals (47 females, 55 males; 0–57 years old; median age 10.5 years) with various neurological symptoms. We detected two patients with very low enzyme activity and they were diagnosed with the disease by using glucocerebrosidase gene analysis. Patient 1 was found to be compound heterozygous for the p.R159W/p.R170C locus and patient 2 was found to harbor two mutations at the IVS7+1G>T (c.999+1G>T) and p.L483P sites. This simple screening protocol using DBS samples is useful for early diagnosis of GD in high-risk and underdiagnosed patients suffering from various neurological symptoms.

Novel Protease Inhibitor Inhibiting Proliferation of Influenza Virus: Purification and cDNA Cloning of a Novel Protease Inhibitor Secreted by MDCK Cells

Factors which inhibits the proliferation of the influenza virus were identified during the development of an influenza vaccine using cell culture techniques. These inhibitory factors are secreted into the culture supernatant by the host cell line, MDCK (Madin-Darby Canine Kidney) cell derived from dog kidney cells. Purification, genetic cloning, and the molecular profile of these inhibitory factors as well as its inhibitory action against the proliferation of influenza virus are demonstrated in this session. Since attachment and entry (infection) of the influenza virus into host cells depend on the trypsin-like protease induced activation of hemagglutinin, a glycoprotein found on the viral surface, it was presumed that inactivation of trypsin activity in the culture supernatant may inhibit viral proliferation. In an attempt to find the substances responsible for the inhibition of trypsin activity, we found through purification that two kinds of trypsin inactivating factors (TF A and TF B) are involved in the inhibition of viral proliferation. Based on the results of the analysis of the N-terminal amino acid sequence of each molecule, TF A (molecular weight: approximately 15 kDa) was identified to be a known protease inhibitor called the Submandibular Protease Inhibitor (SPI) which is secreted in dog saliva. On the other hand, TF B (molecular weight: approximately 11 kDa) was found to be a novel polypeptide and was named as Canine Kidney Protease Inhibitor (CKPI). Isolation of CKPI genes showed that CKPI has two whey acidic protein (WAP) motif structures commonly found in acidic protease inhibitors. Thus, CKPI was assumed to be a canine analogue of the human secretory leukocyte protease inhibitor (SLPI). These results suggest that MDCK cells secrete a protease inhibitor that inhibits the activation of the influenza virus, and which can be applied to protect host cells from viral infection.

Characterization of the Recombinant Der F 2 Mutant C8/119S and Evaluation of C8/119S in a Rder F 2-Sensitized Rhinitis Mice Model

Immunotherapy is the only curative approach to treat allergy, but carries the risk of anaphylaxis. C8/119S is a mutant of Der f 2, which is one of the causative allergens of perennial allergic diseases, and has been selected to decrease the risk of anaphylaxis in immunotherapy. In this study, the physical properties of C8/119S were determined, and the efficacy of C8/119S was evaluated in a NC/Nga mouse rhinitis model. C8/119S and recombinant Der f 2 (rDer f 2) were expressed in Escherichia coli . Purified allergens were analyzed by physicochemical and immunological techniques. In addition, rhinitis was provoked in rDer f 2-sensitized NC/Nga mice by nasal administration of rDer f 2, and C8/119S was administered. After provocation tests with rDer f 2, the number of eosinophils infiltrating the nasal mucosa was determined. C8/119S had a disordered structure, and the binding activity of allergic patients’ IgE to C8/119S was decreased compared with rDer f 2. In the NC/Nga mouse rhinitis model, eosinophil infiltration provoked by rDer f 2 was significantly controlled by the administration of C8/119S. Although similar therapeutic effects were also observed with rDer f 2 administration, 11 of 20 animals died during the rDer f 2 treatment period. On the other hand, no deaths occurred during C8/119S treatment. C8/119S appears to be an effective allergen vaccine for immunotherapy in patients with mite allergy and also appears to be safer than wild-type allergen vaccines.