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Earthworm's immunity in the nanomaterial world: new room, future challenges

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaperJournal articleResearchpeer-review

Standard

Earthworm's immunity in the nanomaterial world: new room, future challenges. / Hayashi, Yuya; Engelmann, Péter.
In: Invertebrate Survival Journal, Vol. 10, 2013, p. 69-76.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaperJournal articleResearchpeer-review

Harvard

Hayashi, Y & Engelmann, P 2013, 'Earthworm's immunity in the nanomaterial world: new room, future challenges', Invertebrate Survival Journal, vol. 10, pp. 69-76. <http://www.isj.unimo.it/articoli/ISJ298.pdf>

APA

Hayashi, Y., & Engelmann, P. (2013). Earthworm's immunity in the nanomaterial world: new room, future challenges. Invertebrate Survival Journal, 10, 69-76. http://www.isj.unimo.it/articoli/ISJ298.pdf

CBE

Hayashi Y, Engelmann P. 2013. Earthworm's immunity in the nanomaterial world: new room, future challenges. Invertebrate Survival Journal. 10:69-76.

MLA

Hayashi, Yuya and Péter Engelmann. "Earthworm's immunity in the nanomaterial world: new room, future challenges". Invertebrate Survival Journal. 2013, 10. 69-76.

Vancouver

Hayashi Y, Engelmann P. Earthworm's immunity in the nanomaterial world: new room, future challenges. Invertebrate Survival Journal. 2013;10:69-76.

Author

Hayashi, Yuya ; Engelmann, Péter. / Earthworm's immunity in the nanomaterial world: new room, future challenges. In: Invertebrate Survival Journal. 2013 ; Vol. 10. pp. 69-76.

Bibtex

@article{efd903a5752f400587702b4f2a7ba268,
title = "Earthworm's immunity in the nanomaterial world: new room, future challenges",
abstract = "Since the advent of the nanotechnology era, the environmental sink has been continuously receiving engineered nanomaterials as well as their derivatives. Our current understanding of the potential impact of nanomaterials on invertebrate immunity is limited to only a handful of initial studies including those on earthworms. Recently, we reported selective accumulation of silver nanoparticles in the amoebocyte population of Eisenia fetida coelomocytes in vitro. In this review, we give an overview of available literature on the life-history impacts on earthworms, and what we have learnt of the immune responses to nanoparticles with references to other invertebrate species and vertebrate counterparts. We discuss the significant contribution of amoebocytes as nanoparticle scavengers and suggest a possibility of studying inter-cellular communications in coelomocytes. Implications from the leading researches in vertebrate models tell us that study of the nanoparticle recognition involved in cellular uptake as well as sub- and inter-cellular events may uncover further intriguing insights into earthworm{\textquoteright}s immunity in the nanomaterial world.",
author = "Yuya Hayashi and P{\'e}ter Engelmann",
year = "2013",
language = "English",
volume = "10",
pages = "69--76",
journal = "Invertebrate Survival Journal",
issn = "1824-307X",
publisher = "Universita degli Studi di Modena e Reggio Emilia",

}

RIS

TY - JOUR

T1 - Earthworm's immunity in the nanomaterial world: new room, future challenges

AU - Hayashi, Yuya

AU - Engelmann, Péter

PY - 2013

Y1 - 2013

N2 - Since the advent of the nanotechnology era, the environmental sink has been continuously receiving engineered nanomaterials as well as their derivatives. Our current understanding of the potential impact of nanomaterials on invertebrate immunity is limited to only a handful of initial studies including those on earthworms. Recently, we reported selective accumulation of silver nanoparticles in the amoebocyte population of Eisenia fetida coelomocytes in vitro. In this review, we give an overview of available literature on the life-history impacts on earthworms, and what we have learnt of the immune responses to nanoparticles with references to other invertebrate species and vertebrate counterparts. We discuss the significant contribution of amoebocytes as nanoparticle scavengers and suggest a possibility of studying inter-cellular communications in coelomocytes. Implications from the leading researches in vertebrate models tell us that study of the nanoparticle recognition involved in cellular uptake as well as sub- and inter-cellular events may uncover further intriguing insights into earthworm’s immunity in the nanomaterial world.

AB - Since the advent of the nanotechnology era, the environmental sink has been continuously receiving engineered nanomaterials as well as their derivatives. Our current understanding of the potential impact of nanomaterials on invertebrate immunity is limited to only a handful of initial studies including those on earthworms. Recently, we reported selective accumulation of silver nanoparticles in the amoebocyte population of Eisenia fetida coelomocytes in vitro. In this review, we give an overview of available literature on the life-history impacts on earthworms, and what we have learnt of the immune responses to nanoparticles with references to other invertebrate species and vertebrate counterparts. We discuss the significant contribution of amoebocytes as nanoparticle scavengers and suggest a possibility of studying inter-cellular communications in coelomocytes. Implications from the leading researches in vertebrate models tell us that study of the nanoparticle recognition involved in cellular uptake as well as sub- and inter-cellular events may uncover further intriguing insights into earthworm’s immunity in the nanomaterial world.

M3 - Journal article

VL - 10

SP - 69

EP - 76

JO - Invertebrate Survival Journal

JF - Invertebrate Survival Journal

SN - 1824-307X

ER -