Diclofenac as an environmental threat: Impact on the photosynthetic processes of Lemna minor chloroplasts

HÁJKOVÁ, Markéta, Marie KUMMEROVÁ, Štěpán ZEZULKA, Petr BABULA and Peter VÁCZI. Diclofenac as an environmental threat: Impact on the photosynthetic processes of Lemna minor chloroplasts. Chemosphere. OXFORD: PERGAMON-ELSEVIER SCIENCE LTD, 2019, vol. 224, No 1, p. 892-899. ISSN 0045-6535. Available from: https://dx.doi.org/10.1016/j.chemosphere.2019.02.197.

Basic information

Original name

Diclofenac as an environmental threat: Impact on the photosynthetic processes of Lemna minor chloroplasts

Name in Czech

Diklofenak jako environmentální hrozba: Dopad na fotosyntetické procesy chloroplastů Lemna minor

Name (in English)

Diclofenac as an environmental threat: Impact on the photosynthetic processes of Lemna minor chloroplasts

Authors

HÁJKOVÁ, Markéta (203 Czech Republic, guarantor, belonging to the institution), Marie KUMMEROVÁ (203 Czech Republic, belonging to the institution), Štěpán ZEZULKA (203 Czech Republic, belonging to the institution), Petr BABULA (203 Czech Republic, belonging to the institution) and Peter VÁCZI (703 Slovakia, belonging to the institution)

Edition

Chemosphere, OXFORD, PERGAMON-ELSEVIER SCIENCE LTD, 2019, 0045-6535

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Other information

Language

Czech

Type of outcome

Článek v odborném periodiku

Field of Study

10611 Plant sciences, botany

Country of publisher

Czech Republic

Confidentiality degree

není předmětem státního či obchodního tajemství

References:

URL

Impact factor

Impact factor: 5.778

RIV identification code

RIV/00216224:14310/19:00107335

Organization unit

Faculty of Science

DOI

http://dx.doi.org/10.1016/j.chemosphere.2019.02.197

UT WoS

000466249600100

Keywords (in Czech)

Diklofenak; chloroplasty okřehku; fotosystémy II a I; RuBisCO; oxidativní stres;

Keywords in English

Diclofenac; Duckweed chloroplasts; Photosystems II and I; RuBisCO; Oxidative stress;

Tags

14110515, podil, rivok

Tags

International impact, Reviewed

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Abstract

V originále

Mechanisms of pharmaceuticals action on biochemical and physiological processes in plants that determine plant growth and development are still mostly unknown. This study deals with the effects of non-steroidal anti-inflammatory drug diclofenac (DCF) on photosynthesis as an essential anabolic process. Changes in primary and secondary photosynthetic processes were assessed in chloroplasts isolated from Lemna minor exposed to 1, 10, 100, and 1000 uM DCF. Decreases in the potential and effective quantum yields of photosystem II (FV/FM by 21%, PhiII by 44% compared to control), changes in non-photochemical fluorescence quenching (NPQ), and a substantial drop in Hill reaction activity (by 73%), especially under 1000 uM DCF, were found. Limitation of electron transport through photosystem II was confirmed by increased fluorescence signals in steps J and I (by 50% and 23%, respectively, under 1000 uM DCF) in OJIP fluorescence transient. Photosystem I exhibited changes only in the redox state of P700 reaction centres (decrease in Pm by 10%, increase in reduced P700 by 5% under 1000 uM DCF). Similarly, RuBisCO activity was only lowered by 30% under 1000 uM DCF. In contrast, a significant increase in reactive oxygen and nitrogen species (by 116% and 157%, respectively) was observed under 10 uM DCF, and lipid peroxidation increased even at 1 uM DCF (by nearly seven times compared to the control). Results demonstrate the ability of environmentally relevant DCF concentrations to induce oxidative stress in isolated duckweed chloroplasts; however, photosynthetic processes were affected considerably only by the highest DCF treatments.

In English

Mechanisms of pharmaceuticals action on biochemical and physiological processes in plants that determine plant growth and development are still mostly unknown. This study deals with the effects of non-steroidal anti-inflammatory drug diclofenac (DCF) on photosynthesis as an essential anabolic process. Changes in primary and secondary photosynthetic processes were assessed in chloroplasts isolated from Lemna minor exposed to 1, 10, 100, and 1000 uM DCF. Decreases in the potential and effective quantum yields of photosystem II (FV/FM by 21%, PhiII by 44% compared to control), changes in non-photochemical fluorescence quenching (NPQ), and a substantial drop in Hill reaction activity (by 73%), especially under 1000 uM DCF, were found. Limitation of electron transport through photosystem II was confirmed by increased fluorescence signals in steps J and I (by 50% and 23%, respectively, under 1000 uM DCF) in OJIP fluorescence transient. Photosystem I exhibited changes only in the redox state of P700 reaction centres (decrease in Pm by 10%, increase in reduced P700 by 5% under 1000 uM DCF). Similarly, RuBisCO activity was only lowered by 30% under 1000 uM DCF. In contrast, a significant increase in reactive oxygen and nitrogen species (by 116% and 157%, respectively) was observed under 10 uM DCF, and lipid peroxidation increased even at 1 uM DCF (by nearly seven times compared to the control). Results demonstrate the ability of environmentally relevant DCF concentrations to induce oxidative stress in isolated duckweed chloroplasts; however, photosynthetic processes were affected considerably only by the highest DCF treatments.

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Links

GF17-33746L, research and development project

Name: Léčiva v životním prostředí a interakce s rostlinami (Acronym: Léčiva a rostliny) Investor: Czech Science Foundation, Partner Agency (Austria)