First Evidence of Immunomodulation in Bivalves under Seawater Acidification and Increased Temperature

Matozzo, Valerio; Chinellato, A.; Munari, Marco; Finos, Livio; Bressan, M.; Marin, María Gabriella

doi:10.1371/journal.pone.0033820

Cited by 130 publications

(78 citation statements)

References 46 publications

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“…In showing immune system maintenance to be compromised by exposure to a reduced seawater pH of 6.50, this study would appear to support previous research on the impact of elevated seawater pCO 2 on the invertebrate immune response (Bibby et al, 2008;Matozzo et al, 2012). Bibby et al (2008) found that a 32 day exposure to OA reduced the ability of impacted mussels to increase phagocytic activity when compared to controls, suggesting that an increased haemolymph calcium concentration interfered with cellular signalling pathways, and thus immunocompetence.…”

Section: Discussionsupporting

confidence: 85%

“…Hernroth et al (2011) also demonstrated a suppression of phagocytic activity, as well as a reduction in coelomocyte counts and an inhibition of p38 MAPkinase activity, in Asterias rubens exposed to pH 7.7. Similarly Matozzo et al (2012) demonstrated a reduction in host defence in mussels exposed to reduced seawater pH, with the lysozyme-like activity of cell free haemolymph reduced in Mytilus galloprovincialis exposed to pH 7.7 and 7.4 for 7 days.…”

Section: Introductionmentioning

confidence: 85%

“…Yet, in this species phagocytic capacity was only impacted by reduced seawater pH. Matozzo et al (2012), in exposing M. galloprovincialis and Chamelea gallina to reduced seawater pH, also maintained these bivalves at two different temperatures, 22°C and 28°C. However, despite demonstrating a significant impact of a combined temperature and reduced pH exposure on a number of immune parameters (including total haemocyte counts, lysozyme like activity of cell-free haemolymph and neutral red retention) these authors highlight the lack of clear response of bivalve host defence.…”

Section: Introductionmentioning

confidence: 87%

“…If this is the case then an OA/ temperature induced trade-off in host defence should reduce immunocompetence, and increase pathogen susceptibility, as was hypothesised by both Bibby et al (2008) and Matozzo et al (2012). However, it is important to note that these two studies were undertaken in the absence of a pathogen.…”

Section: Introductionmentioning

confidence: 99%

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Pathogenic challenge reveals immune trade-off in mussels exposed to reduced seawater pH and increased temperature

Ellis

Widdicombe

Parry

et al. 2015

Journal of Experimental Marine Biology and Ecology

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Ocean acidification (OA) and warming pose a considerable threat to marine ecosystems. Previous studies show that these environmental co-stressors significantly impact upon a number of key physiological functions, including calcification, metabolism and growth, in many marine organisms. Yet despite the importance of the immune system, to date only a handful of studies have investigated the impact of reduced seawater pH on an organism's immune response. Furthermore, whilst temperature has received far greater attention with respect to host defence, there is a dearth of information concerning the possible synergism of these two stressors on immune defence. Here we show that a 90 day exposure to reduced seawater pH led to a reduction in the antibacterial activity of cell-free haemolymph in the blue mussel Mytilus edulis, whilst temperature led to an increase in this immune parameter. However in contrast to previous research, following this initial 90 day exposure, mussels in the current study were then exposed to the pathogenic bacterium, Vibrio tubiashii. Crucially, whilst reduced seawater pH initially appeared to impair immunological functioning, as has been interpreted previously, mussels demonstrated the ability to restore haemolymph bactericidal activity when required. This indicated that the initial reduction in antibacterial activity was in fact a reversible physiological trade-off, rather than an irreversible impairment of immune function. By demonstrating this plasticity, the current study illustrates the need to measure organism responses within a realistic natural context (i.e. measuring the immune response of an organism in the presence of a pathogen). Failure to do so may result in a misleading interpretation of the ecological relevance of experimental data, and thus the sensitivity of different species in a rapidly changing environment.

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Section: Discussionsupporting

confidence: 85%

Section: Introductionmentioning

confidence: 85%

Section: Introductionmentioning

confidence: 87%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Pathogenic challenge reveals immune trade-off in mussels exposed to reduced seawater pH and increased temperature

Ellis

Widdicombe

Parry

et al. 2015

Journal of Experimental Marine Biology and Ecology

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“…Recently, it has been found that OA stress has the potential to promote pathogen development and survival, disease transmission and host susceptibility [33]. However, only few studies have investigated the immune responses of mollusks under OA stress so far [18,19,34].…”

Section: Discussionmentioning

confidence: 99%

Effects of ocean acidification on immune responses of the Pacific oyster Crassostrea gigas

Wang

Cao

Ning

et al. 2016

Fish & Shellfish Immunology

132

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a b s t r a c tOcean acidification (OA), caused by anthropogenic CO 2 emissions, has been proposed as one of the greatest threats in marine ecosystems. A growing body of evidence shows that ocean acidification can impact development, survival, growth and physiology of marine calcifiers. In this study, the immune responses of the Pacific oyster Crassostrea gigas were investigated after elevated pCO 2 exposure for 28 days. The results demonstrated that OA caused an increase of apoptosis and reactive oxygen species (ROS) production in hemocytes. Moreover, elevated pCO 2 had an inhibitory effect on some antioxidant enzyme activities and decreased the GSH level in digestive gland. However, the mRNA expression pattern of several immune related genes varied depending on the exposure time and tissues. After exposure to pCO 2 at~2000 ppm for 28 days, the mRNA expressions of almost all tested genes were significantly suppressed in gills and stimulated in hemocytes. Above all, our study demonstrated that elevated pCO 2 have a significant impact on the immune systems of the Pacific oyster, which may constitute as a potential threat to increased susceptibility of bivalves to diseases.

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Effects of acidification on the proteome during early development of Babylonia areolata

Zhu

et al. 2019

FEBS Open Bio

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Increases in atmospheric CO 2 partial pressure have lowered seawater pH in marine ecosystems, a process called ocean acidification ( OA ). The effects of OA during the critical stages of larval development may have disastrous consequences for some marine species, including Babylonia areolata (Link 1807), a commercially important sea snail in China and South East Asia. To investigate how OA affects the proteome of Babylonia areolata , here we used label‐free proteomics to study protein changes in response to acidified ( pH 7.6) or ambient seawater ( pH 8.1) during three larvae developmental stages of B. areolata , namely, the veliger larvae before attachment (E1), veliger larvae after attachment (E2), and carnivorous juvenile snail (E3). In total, we identified 720 proteins. This result suggested that acidification seriously affects late veliger stage after attachment (E2). Further examination of the roles of differentially expressed proteins, which include glutaredoxin, heat‐shock protein 70, thioredoxin, catalase, cytochrome‐c‐oxidase, peroxiredoxin 6, troponin T, CaM kinase II alpha, proteasome subunit N3 and cathepsin L, will be important for understanding the molecular mechanisms underlying pH reduction.

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First Evidence of Immunomodulation in Bivalves under Seawater Acidification and Increased Temperature

Cited by 130 publications

References 46 publications

Pathogenic challenge reveals immune trade-off in mussels exposed to reduced seawater pH and increased temperature

Pathogenic challenge reveals immune trade-off in mussels exposed to reduced seawater pH and increased temperature

Effects of ocean acidification on immune responses of the Pacific oyster Crassostrea gigas

Effects of acidification on the proteome during early development of Babylonia areolata

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