Thiol pools and glutathione redox ratios as possible indicators of copper toxicity in the green macroalgae Enteromorpha spp. from the Scheldt Estuary (SW Netherlands, Belgium) and Thermaikos Gulf (Greece, N Aegean Sea)

J.W. Rijstenbil; S. Haritonidis; P. Malea; M. Seferlis; J.A. Wijnholds

doi:10.1023/A:1003502428466

Thiol pools and glutathione redox ratios as possible indicators of copper toxicity in the green macroalgae Enteromorpha spp. from the Scheldt Estuary (SW Netherlands, Belgium) and Thermaikos Gulf (Greece, N Aegean Sea)

J.W. Rijstenbil, S. Haritonidis, P. Malea, M. Seferlis, J.A. Wijnholds

Research output: Contribution to journal/periodical › Article › Scientific › peer-review

Abstract

Defence mechanisms against Cu toxicity were examined in two dominant Enteromorpha species from two coastal water types. The macroalgae were collected at three locations in the eulittoral of the Scheldt Estuary (Netherlands, Belgium) and the Thermaikos Gulf (Greece). For 10 days E. prolifera (Scheldt) and E. linza (Thermaikos) were incubated in seawater media of different salinities: 6, 9, 23 psu and 25, 30, 35 psu, respectively. In one series, media were enriched with 100 mu g Cu l(-1); responses were compared with those in controls with no extra Cu added. Enteromorpha, which is frequently used as a monitor species for heavy metal contamination, had relatively high Cu tissue levels (0.5-3.8 mu mol Cu gdwt(-1)). Cu levels in E. prolifera controls (Scheldt) decreased with salinity; this was not the case with Cu levels in E. linza controls (Thermaikos). During the 10-d incubation algal protein contents and tissue Cu were rather stable. In E. linza (Thermaikos) algal protein contents were significantly lower than those of E, prolifera (Scheldt), although there was no indication for nitrogen limitation in E. linza. E. linza also had much lower glutathione pools than E. prolifera. Only under acute Cu stress (metal addition) did E. prolifera synthesise metal-binding thiols (phytochelatins). Phytochelatin pools are not suitable as an indicator of the Cu levels in these algae. The glutathione redox ratio GSH:(GSH + 0.5GSSG) was used as an indicator of (Cu-induced) oxidative stress. In E. prolifera (Scheldt) this ratio decreased with algal Cu content (P <0.05), from similar to 0.5 to similar to 0.2. The average glutathione ratios in Enteromorpha from the Scheldt and Thermaikos showed some oxidative stress induction with increasing algal Cu contents, however more clearly if Cu was added. As this redox ratio can also be influenced by environmental factors such as irradiance and desiccation, it may not be useful as an indicator for Cu-induced oxidative stress in situ. [KEYWORDS: copper; glutathione redox; macroalgae; metal; thiol Diatom ditylum-brightwellii; oxidative stress; binding peptides; silene-vulgaris; heavy-metals; cadmium; algae; tolerance; zinc; phytochelatins]

Original language	English
Pages (from-to)	171-181
Journal	Hydrobiologia
Volume	385
DOIs	https://doi.org/10.1023/A:1003502428466
Publication status	Published - 1998

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Rijstenbil, J. W., Haritonidis, S., Malea, P., Seferlis, M., & Wijnholds, J. A. (1998). Thiol pools and glutathione redox ratios as possible indicators of copper toxicity in the green macroalgae Enteromorpha spp. from the Scheldt Estuary (SW Netherlands, Belgium) and Thermaikos Gulf (Greece, N Aegean Sea). Hydrobiologia, 385, 171-181. https://doi.org/10.1023/A:1003502428466

@article{30e3bf5828c3475a87c5b0b2b78a0d22,

title = "Thiol pools and glutathione redox ratios as possible indicators of copper toxicity in the green macroalgae Enteromorpha spp. from the Scheldt Estuary (SW Netherlands, Belgium) and Thermaikos Gulf (Greece, N Aegean Sea)",

abstract = "Defence mechanisms against Cu toxicity were examined in two dominant Enteromorpha species from two coastal water types. The macroalgae were collected at three locations in the eulittoral of the Scheldt Estuary (Netherlands, Belgium) and the Thermaikos Gulf (Greece). For 10 days E. prolifera (Scheldt) and E. linza (Thermaikos) were incubated in seawater media of different salinities: 6, 9, 23 psu and 25, 30, 35 psu, respectively. In one series, media were enriched with 100 mu g Cu l(-1); responses were compared with those in controls with no extra Cu added. Enteromorpha, which is frequently used as a monitor species for heavy metal contamination, had relatively high Cu tissue levels (0.5-3.8 mu mol Cu gdwt(-1)). Cu levels in E. prolifera controls (Scheldt) decreased with salinity; this was not the case with Cu levels in E. linza controls (Thermaikos). During the 10-d incubation algal protein contents and tissue Cu were rather stable. In E. linza (Thermaikos) algal protein contents were significantly lower than those of E, prolifera (Scheldt), although there was no indication for nitrogen limitation in E. linza. E. linza also had much lower glutathione pools than E. prolifera. Only under acute Cu stress (metal addition) did E. prolifera synthesise metal-binding thiols (phytochelatins). Phytochelatin pools are not suitable as an indicator of the Cu levels in these algae. The glutathione redox ratio GSH:(GSH + 0.5GSSG) was used as an indicator of (Cu-induced) oxidative stress. In E. prolifera (Scheldt) this ratio decreased with algal Cu content (P <0.05), from similar to 0.5 to similar to 0.2. The average glutathione ratios in Enteromorpha from the Scheldt and Thermaikos showed some oxidative stress induction with increasing algal Cu contents, however more clearly if Cu was added. As this redox ratio can also be influenced by environmental factors such as irradiance and desiccation, it may not be useful as an indicator for Cu-induced oxidative stress in situ. [KEYWORDS: copper; glutathione redox; macroalgae; metal; thiol Diatom ditylum-brightwellii; oxidative stress; binding peptides; silene-vulgaris; heavy-metals; cadmium; algae; tolerance; zinc; phytochelatins]",

author = "J.W. Rijstenbil and S. Haritonidis and P. Malea and M. Seferlis and J.A. Wijnholds",

note = "Reporting year: 1998 Metis note: 2462; CEME; MM; file:///L:/Endnotedatabases/NIOOPUB/pdfs/Pdfs1998/Rijstenbil_ea_2462.pdf",

year = "1998",

doi = "10.1023/A:1003502428466",

language = "English",

volume = "385",

pages = "171--181",

journal = "Hydrobiologia",

issn = "0018-8158",

publisher = "Springer Netherlands",

}

Rijstenbil, JW, Haritonidis, S, Malea, P, Seferlis, M & Wijnholds, JA 1998, 'Thiol pools and glutathione redox ratios as possible indicators of copper toxicity in the green macroalgae Enteromorpha spp. from the Scheldt Estuary (SW Netherlands, Belgium) and Thermaikos Gulf (Greece, N Aegean Sea)', Hydrobiologia, vol. 385, pp. 171-181. https://doi.org/10.1023/A:1003502428466

Thiol pools and glutathione redox ratios as possible indicators of copper toxicity in the green macroalgae Enteromorpha spp. from the Scheldt Estuary (SW Netherlands, Belgium) and Thermaikos Gulf (Greece, N Aegean Sea). / Rijstenbil, J.W.; Haritonidis, S.; Malea, P. et al.

In: Hydrobiologia, Vol. 385, 1998, p. 171-181.

Research output: Contribution to journal/periodical › Article › Scientific › peer-review

TY - JOUR

T1 - Thiol pools and glutathione redox ratios as possible indicators of copper toxicity in the green macroalgae Enteromorpha spp. from the Scheldt Estuary (SW Netherlands, Belgium) and Thermaikos Gulf (Greece, N Aegean Sea)

AU - Rijstenbil, J.W.

AU - Haritonidis, S.

AU - Malea, P.

AU - Seferlis, M.

AU - Wijnholds, J.A.

N1 - Reporting year: 1998 Metis note: 2462; CEME; MM; file:///L:/Endnotedatabases/NIOOPUB/pdfs/Pdfs1998/Rijstenbil_ea_2462.pdf

PY - 1998

Y1 - 1998

N2 - Defence mechanisms against Cu toxicity were examined in two dominant Enteromorpha species from two coastal water types. The macroalgae were collected at three locations in the eulittoral of the Scheldt Estuary (Netherlands, Belgium) and the Thermaikos Gulf (Greece). For 10 days E. prolifera (Scheldt) and E. linza (Thermaikos) were incubated in seawater media of different salinities: 6, 9, 23 psu and 25, 30, 35 psu, respectively. In one series, media were enriched with 100 mu g Cu l(-1); responses were compared with those in controls with no extra Cu added. Enteromorpha, which is frequently used as a monitor species for heavy metal contamination, had relatively high Cu tissue levels (0.5-3.8 mu mol Cu gdwt(-1)). Cu levels in E. prolifera controls (Scheldt) decreased with salinity; this was not the case with Cu levels in E. linza controls (Thermaikos). During the 10-d incubation algal protein contents and tissue Cu were rather stable. In E. linza (Thermaikos) algal protein contents were significantly lower than those of E, prolifera (Scheldt), although there was no indication for nitrogen limitation in E. linza. E. linza also had much lower glutathione pools than E. prolifera. Only under acute Cu stress (metal addition) did E. prolifera synthesise metal-binding thiols (phytochelatins). Phytochelatin pools are not suitable as an indicator of the Cu levels in these algae. The glutathione redox ratio GSH:(GSH + 0.5GSSG) was used as an indicator of (Cu-induced) oxidative stress. In E. prolifera (Scheldt) this ratio decreased with algal Cu content (P <0.05), from similar to 0.5 to similar to 0.2. The average glutathione ratios in Enteromorpha from the Scheldt and Thermaikos showed some oxidative stress induction with increasing algal Cu contents, however more clearly if Cu was added. As this redox ratio can also be influenced by environmental factors such as irradiance and desiccation, it may not be useful as an indicator for Cu-induced oxidative stress in situ. [KEYWORDS: copper; glutathione redox; macroalgae; metal; thiol Diatom ditylum-brightwellii; oxidative stress; binding peptides; silene-vulgaris; heavy-metals; cadmium; algae; tolerance; zinc; phytochelatins]

AB - Defence mechanisms against Cu toxicity were examined in two dominant Enteromorpha species from two coastal water types. The macroalgae were collected at three locations in the eulittoral of the Scheldt Estuary (Netherlands, Belgium) and the Thermaikos Gulf (Greece). For 10 days E. prolifera (Scheldt) and E. linza (Thermaikos) were incubated in seawater media of different salinities: 6, 9, 23 psu and 25, 30, 35 psu, respectively. In one series, media were enriched with 100 mu g Cu l(-1); responses were compared with those in controls with no extra Cu added. Enteromorpha, which is frequently used as a monitor species for heavy metal contamination, had relatively high Cu tissue levels (0.5-3.8 mu mol Cu gdwt(-1)). Cu levels in E. prolifera controls (Scheldt) decreased with salinity; this was not the case with Cu levels in E. linza controls (Thermaikos). During the 10-d incubation algal protein contents and tissue Cu were rather stable. In E. linza (Thermaikos) algal protein contents were significantly lower than those of E, prolifera (Scheldt), although there was no indication for nitrogen limitation in E. linza. E. linza also had much lower glutathione pools than E. prolifera. Only under acute Cu stress (metal addition) did E. prolifera synthesise metal-binding thiols (phytochelatins). Phytochelatin pools are not suitable as an indicator of the Cu levels in these algae. The glutathione redox ratio GSH:(GSH + 0.5GSSG) was used as an indicator of (Cu-induced) oxidative stress. In E. prolifera (Scheldt) this ratio decreased with algal Cu content (P <0.05), from similar to 0.5 to similar to 0.2. The average glutathione ratios in Enteromorpha from the Scheldt and Thermaikos showed some oxidative stress induction with increasing algal Cu contents, however more clearly if Cu was added. As this redox ratio can also be influenced by environmental factors such as irradiance and desiccation, it may not be useful as an indicator for Cu-induced oxidative stress in situ. [KEYWORDS: copper; glutathione redox; macroalgae; metal; thiol Diatom ditylum-brightwellii; oxidative stress; binding peptides; silene-vulgaris; heavy-metals; cadmium; algae; tolerance; zinc; phytochelatins]

U2 - 10.1023/A:1003502428466

DO - 10.1023/A:1003502428466

M3 - Article

SN - 0018-8158

VL - 385

SP - 171

EP - 181

JO - Hydrobiologia

JF - Hydrobiologia

ER -