Project PANDORA – Global analyses of plant defence responses activated by nano-particles

Basic data

Acronym:
PANDORA
Title:
Global analyses of plant defence responses activated by nano-particles
Duration:
01/01/2016 to 31/12/2019
Abstract / short description:
PANDORA (Probing safety of nano-objects by defining immune responses of environmental organisms) shall assess the global impact of engineered nanoparticles (NP) on the immune responses of representative organisms covering all evolutionary stages and hierarchical levels from plants to invertebrates and vertebrates. Immunity is a major determinant of
the survival and fitness of all living organisms, therefore immunosafety of engineered NP is a key element of environmental nanosafety. PANDORA will tackle the issue of global immunological nanosafety by comparing the impact of widely-used NP (e.g., iron, titanium and cerium oxide) on the human immune response with their effects in representative terrestrial and marine organisms. This comparison will focus on the conserved system of innate immunity/stress response/inflammation, aiming to identify common mechanisms and markers across immune defence evolution shared by plants Arabidopsis),
invertebrate (bivalves, echinoderms, earthworms), and vertebrate (human) species.

PANDORA’s objectives are: 1. To identify immunological mechanisms triggered by nano-objects, and predictive markers of risk vs. safety; 2. To do so by a collaborative cross-species comparison, from plants to human, of innate immune defence capacity, using selected, industrially-relevant NP; 3. To design predictive in vitro assays to measure the immuno-risk of NP to the environment and human health, as new approaches to industrial and environmental nanosafety testing.
PANDORA will train 11 PhD students in an overarching training programme involving training-by-research, joint courses of technical, scientific and transferrable skills, participation to public scientific events, and an intense intersectoral networking exchange plan. The PANDORA consortium encompasses academic institutions, research centres, and SMEs, all with proven experience in higher education and training, and state-of-the art scientific and technical expertise and infrastructures.
Keywords:
stress response
nanoparticles
Nanoteilchen
perception
Wahrnehmung

Staff

Managers

Department of Biology
Faculty of Science

Local organizational units

Plant Biochemistry Research Group at ZMBP
Department of Pharmacy and Biochemistry
Faculty of Science

Funders

Brüssel, Belgium
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