Daisuke Hayasaka scite author profile

Tick-borne encephalitis virus (TBEV) induces acute central nervous system (CNS) disease in humans. In this study, we investigate the pathogenetic mechanisms that correlate with fatal infection with TBEV in a mouse model. Following subcutaneous infection with high challenge doses (>10(7) PFU), mice started to die early (8 days) and mortality rates reached >80%. These doses induced acute and widespread infection of the CNS. On the other hand, following subcutaneous infection with low challenge doses (10(2)-10(6) PFU), mice started to die late (11 days) and approximately one half of the mice survived but exhibited degrees of encephalitis similar to dying mice. However, low dose dying mice exhibited severe systemic stress response, and increased levels of TNF-alpha compared with recovering mice. We therefore conclude that in addition to the development of CNS disease, systemic inflammatory and stress responses contribute to induce a fatal infection following subcutaneous infection of mice with TBEV.

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Contamination of the Aquatic Environment with Neonicotinoids and its Implication for Ecosystems

Sánchez‐Bayo

Goka

Hayasaka

2016

Front. Environ. Sci.

205

103

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The widespread use of systemic neonicotinoid insecticides in agriculture results first in contamination of the soil of the treated crops, and secondly in the transfer of residues to the aquatic environment. The high toxicity of these insecticides to aquatic insects and other arthropods has been recognized, but there is little awareness of the impacts these chemicals have on aquatic environments and the ecosystem at large. Recent monitoring studies in several countries, however, have revealed a worldwide contamination of creeks, rivers and lakes with these insecticides, with residue levels in the low µg/L (ppb) range. The current extent of aquatic contamination by neonicotinoids is reviewed first, and the findings contrasted with the known acute and chronic toxicity of neonicotinoids to various aquatic organisms. Impacts on populations and aquatic communities, mostly using mesocosms, are reviewed next to identify the communities most at risk from those that undergo little or no impact. Finally, the ecological links between aquatic and terrestrial organisms are considered. The consequences for terrestrial vertebrate species that depend mainly on this food source are discussed together with impacts on ecosystem function. Gaps in knowledge stem from difficulties in obtaining long-term experimental data that relates the effects on individual organisms to impacts on populations and ecosystems. The paper concludes with a summary of findings and the implications they have for the larger ecosystem.

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Cumulative ecological impacts of two successive annual treatments of imidacloprid and fipronil on aquatic communities of paddy mesocosms

Hayasaka

Korenaga

Suzuki

et al. 2012

Ecotoxicology and Environmental Safety

133

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Immunopathogenesis of hantavirus pulmonary syndrome and hemorrhagic fever with renal syndrome: Do CD8+ T cells trigger capillary leakage in viral hemorrhagic fevers?

et al. 2007

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A case of tick-borne encephalitis in Japan and isolation of the the virus

et al. 1997

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A case of tick-borne encephalitis (TBE) has not been reported for many years in Japan, although a serological survey of sera from domestic animals suggested the presence of TBE foci in Hokkaido, the northern island of Japan. Studies were conducted to prove the presence of an endemic focus of TBE virus in Japan by means of serology and virus isolation. In October 1993 in Hokkaido, a severe case of encephalitis in a dairy farmer's wife was diagnosed as TBE. Serological examination of paired serum specimens showed a rise in the neutralization antibody titer to Russian spring summer encephalitis virus. A seroepizootiological survey of dogs showed that the TBE-related virus was prevalent in the area. Three virus isolates were obtained from the blood of sentinel dogs, and antigenic analysis grouped the isolates into TBE-related viruses. Sequence analysis of the envelope protein gene identified one of the isolates as being of the same subtype as the Russian spring summer encephalitis (Far Eastern TBE) virus. The results provide evidence that TBE is endemic in a certain area of Japan.

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