Masato Tashiro scite author profile

Antigenic and genetic analysis of the hemagglutinin of approximately 13,000 human influenza A (H3N2) viruses from six continents during 2002-2007 revealed that there was continuous circulation in east and Southeast Asia (E-SE Asia) via a region-wide network of temporally overlapping epidemics and that epidemics in the temperate regions were seeded from this network each year. Seed strains generally first reached Oceania, North America, and Europe, and later South America. This evidence suggests that once A (H3N2) viruses leave E-SE Asia, they are unlikely to contribute to long-term viral evolution. If the trends observed during this period are an accurate representation of overall patterns of spread, then the antigenic characteristics of A (H3N2) viruses outside E-SE Asia may be forecast each year based on surveillance within E-SE Asia, with consequent improvements to vaccine strain selection.

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Global circulation patterns of seasonal influenza viruses vary with antigenic drift

Bedford

Riley

Barr

et al. 2015

Nature

463

548

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Understanding the spatio-temporal patterns of emergence and circulation of new human seasonal influenza virus variants is a key scientific and public health challenge. The global circulation patterns of influenza A/H3N2 viruses are well-characterized1-7 but the patterns of A/H1N1 and B viruses have remained largely unexplored. Here, based on analyses of 9,604 hemagglutinin sequences of human seasonal influenza viruses from 2000–2012, we show that the global circulation patterns of A/H1N1 (up to 2009), B/Victoria, and B/Yamagata viruses differ substantially from those of A/H3N2 viruses. While genetic variants of A/H3N2 viruses did not persist locally between epidemics and were reseeded from East and Southeast (E-SE) Asia, genetic variants of A/H1N1 and B viruses persisted across multiple seasons and exhibited complex global dynamics with E-SE Asia playing a limited role in disseminating new variants. The less frequent global movement of influenza A/H1N1 and B viruses coincided with slower rates of antigenic evolution, lower ages of infection, and smaller less frequent epidemics compared to A/H3N2 viruses. Detailed epidemic models support differences in age of infection, combined with the less frequent travel of children, as likely drivers of the differences in the patterns of global circulation, suggesting a complex interaction between virus evolution, epidemiology and human behavior.

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The Japanese Experience with Vaccinating Schoolchildren against Influenza

Reichert

Sugaya

Fedson³

et al. 2001

N Engl J Med

766

409

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Characterization of H7N9 influenza A viruses isolated from humans

Watanabe

Kiso

Fukuyama

et al. 2013

Nature

365

391

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Summary Avian influenza A viruses rarely infect humans, but if they do and transmit among them, worldwide outbreaks (pandemics) can result. The recent sporadic infections of humans in China with a previously unrecognized avian influenza A virus of the H7N9 subtype (A(H7N9)) have caused concern due to the appreciable case fatality rate associated with these infections (>25%), potential instances of human-to-human transmission1, and the lack of pre-existing immunity among humans to viruses of this subtype. Here, we therefore characterized two early human A(H7N9) isolates, A/Anhui/1/2013 and A/Shanghai/1/2013 (H7N9; hereafter referred to as Anhui/1 and Shanghai/1, respectively). In mice, Anhui/1 and Shanghai/1 were more pathogenic than a control avian H7N9 virus (A/duck/Gunma/466/2011; H7N9; Dk/GM466) and a representative pandemic 2009 H1N1 virus (A/California/04/2009; H1N1; CA04). Anhui/1, Shanghai/1, and Dk/GM466 replicated well in the nasal turbinates of ferrets. In nonhuman primates (NHPs), Anhui/1 and Dk/GM466 replicated efficiently in the upper and lower respiratory tracts, whereas the replicative ability of conventional human influenza viruses is typically restricted to the upper respiratory tract of infected primates. By contrast, Anhui/1 did not replicate well in miniature pigs upon intranasal inoculation. Most critically, Anhui/1 transmitted via respiratory droplets in one of three pairs of ferrets. Glycan arrays demonstrated that Anhui/1, Shanghai/1, and A/Hangzhou/1/2013 (a third human A(H7N9) virus tested in this assay) bind to human virus-type receptors, a property that may be critical for virus transmissibility in ferrets. Anhui/1 was less sensitive than a pandemic 2009 H1N1 virus to neuraminidase inhibitors, although both viruses were equally susceptible to an experimental antiviral polymerase inhibitor. The robust replicative ability in mice, ferrets, and NHPs and the limited transmissibility in ferrets of Anhui/1 suggest that A(H7N9) viruses have pandemic potential.

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Protease-mediated enhancement of severe acute respiratory syndrome coronavirus infection

Matsuyama

Ujike

Morikawa

et al. 2005

Proc. Natl. Acad. Sci. U.S.A.

298

395

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A unique coronavirus severe acute respiratory syndrome-coronavirus (SARS-CoV) was revealed to be a causative agent of a lifethreatening SARS. Although this virus grows in a variety of tissues that express its receptor, the mechanism of the severe respiratory illness caused by this virus is not well understood. Here, we report a possible mechanism for the extensive damage seen in the major target organs for this disease. A recent study of the cell entry mechanism of SARS-CoV reveals that it takes an endosomal pathway. We found that proteases such as trypsin and thermolysin enabled SARS-CoV adsorbed onto the cell surface to enter cells directly from that site. This finding shows that SARS-CoV has the potential to take two distinct pathways for cell entry, depending on the presence of proteases in the environment. Moreover, the protease-mediated entry facilitated a 100-to 1,000-fold higher efficient infection than did the endosomal pathway used in the absence of proteases. These results suggest that the proteases produced in the lungs by inflammatory cells are responsible for high multiplication of SARS-CoV, which results in severe lung tissue damage. Likewise, elastase, a major protease produced in the lungs during inflammation, also enhanced SARS-CoV infection in cultured cells.cell entry ͉ protease ͉ spike protein ͉ SARS S evere acute respiratory syndrome (SARS) is caused by a SARS-associated coronavirus (SARS-CoV), a newly emergent member in a family of Coronaviridae (1-6). Unlike other human coronaviruses, SARS-CoV causes a fatal respiratory disease in humans (1-6). Coronavirus is an enveloped virus with a positive-stranded large genomic RNA with Ϸ30 kb (7). Spikes exist on the virion surface and resemble solar corona, each of which is composed of a trimer of the spike (S) protein (7,8). The S protein is a type I fusion protein of an approximate molecular weight of 180 kDa. The prototypical coronavirus mouse hepatitis virus enters into cells via the cell surface, although a variant isolated from persistent infection enters from an endosome, the low pH of which induces its fusion activity (9). However, the entry pathway of SARS-CoV appears to be distinct from that of the other coronaviruses. Simmons et al. (10) hypothesized that SARS-CoV enters cells by an endosomal pathway, and S protein is activated for fusion by trypsin-like protease in an acidic environment. This idea is based on the following two findings: (i) SARS-CoV infection can be blocked by lysosomotropic agents, and (ii) S protein expressed on cells is activated for fusion by trypsin. These results were obtained by studies using pseudotype retroviruses harboring SARS-CoV S protein on the envelope and those using S protein expressed on cells by expression vectors (10).In the present study, we show that various proteases, as well as trypsin, are effective in inducing the fusion of SARS-CoVinfected VeroE6 cells. These proteases facilitated SARS-CoV entry from the cell surface, which indicates that SARS-CoV has the potential to enter cells via two diff...

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Encephalitis and Encephalopathy Associated with an Influenza Epidemic in Japan

et al. 2002

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During the winter of 1998-1999, there was an outbreak of encephalitis/encephalopathy in Japan that appeared to be associated with influenza. We conducted a national survey of the prevalence and clinical features of disease and the associated outcomes and prognostic factors related to this outbreak. A total of 202 cases were analyzed, of which 148 were diagnosed as influenza-associated encephalitis/encephalopathy on the basis of virologic analysis. Of the 148 cases studied, 130 (87.8%) were type A influenza and 17 were type B. Encephalitis/encephalopathy developed mainly in children age <5 years, either on the day that influenza signs appeared or on the next day. The major signs included altered consciousness or loss of consciousness, convulsions, cough, and vomiting. In many patients, multiple-organ failure developed, and rates of mortality (31.8%) and disability (27.7%) were high. Thrombocytopenia and severely elevated transaminase levels were factors associated with a poor prognosis. Thus, influenza-associated encephalitis/encephalopathy progressed rapidly and was associated with poor outcomes.

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Pegylated interferon-α protects type 1 pneumocytes against SARS coronavirus infection in macaques

Haagmans

Kuiken

Martina

et al. 2004

Nat Med

370

328

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The primary cause of severe acute respiratory syndrome (SARS) is a newly discovered coronavirus. Replication of this SARS coronavirus (SCV) occurs mainly in the lower respiratory tract, and causes diffuse alveolar damage. Lack of understanding of the pathogenesis of SARS has prevented the rational development of a therapy against this disease. Here we show extensive SCV antigen expression in type 1 pneumocytes of experimentally infected cynomolgus macaques (Macaca fascicularis) at 4 d postinfection (d.p.i.), indicating that this cell type is the primary target for SCV infection early in the disease, and explaining the subsequent pulmonary damage. We also show that prophylactic treatment of SCV-infected macaques with the antiviral agent pegylated interferon-alpha (IFN-alpha) significantly reduces viral replication and excretion, viral antigen expression by type 1 pneumocytes and pulmonary damage, compared with untreated macaques. Postexposure treatment with pegylated IFN-alpha yielded intermediate results. We therefore suggest that pegylated IFN-alpha protects type 1 pneumocytes from SCV infection, and should be considered a candidate drug for SARS therapy.

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Detection of Influenza Viruses Resistant to Neuraminidase Inhibitors in Global Surveillance during the First 3 Years of Their Use

Monto

McKimm-Breschkin

Macken

et al. 2006

Antimicrob Agents Chemother

339

316

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Masato Tashiro

The Global Circulation of Seasonal Influenza A (H3N2) Viruses

Global circulation patterns of seasonal influenza viruses vary with antigenic drift

The Japanese Experience with Vaccinating Schoolchildren against Influenza

Characterization of H7N9 influenza A viruses isolated from humans

Protease-mediated enhancement of severe acute respiratory syndrome coronavirus infection

Encephalitis and Encephalopathy Associated with an Influenza Epidemic in Japan

Pegylated interferon-α protects type 1 pneumocytes against SARS coronavirus infection in macaques

Detection of Influenza Viruses Resistant to Neuraminidase Inhibitors in Global Surveillance during the First 3 Years of Their Use

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