Stress alters immune function and disease resistance in chinook salmon (Oncorhynchus tshawytscha)

Maule, Alec G.; Tripp, Ralph A.; Kaattari, Stephen L.; Schreck, Carl B.

doi:10.1677/joe.0.1200135

Cited by 308 publications

(174 citation statements)

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“…In contrast, in Atlantic salmon IP vaccination [69] was found to elicit a stress response, consisting in the reduction of antibody producing cells and lymphopenia, whose duration exceeded that elicited by other acute stressors such as holding in a dip-net for 30 s [70] or crowding [6].…”

Section: Discussionmentioning

confidence: 75%

Haematological and Immunological Responses in Juvenile Sea Bass (Dicentrarchus labrax L.) After Short-Term Acute Stress

Maricchiolo¹,

Caruso²,

Genovese³

2008

TOFISHSJ

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Abstract:The physiological effects of acute stress (induced by an intraperitoneal injection) on the haematocrit, haemoglobin, serum cortisol and glucose, haemagglutinins and lysozyme were investigated in juvenile sea bass Dicentrarchus labrax. A total of 40 fish were subjected to an intraperitoneal injection. Eight fish were sampled at 0, 2, 4, 24 and 48 h after acute stress and compared to unstressed fish (controls) sacrificed at the same times. Intraperitoneal injection resulted in significant changes in cortisol and glucose 4 and 2 hours after exposure to stress, respectively, but not in haematocrit and haemoglobin levels. No significant differences between stressed and control fish were recorded for lysozyme content and haemagglutinating activity throughout the experiment. In juvenile sea bass acute stress caused by intraperitoneal injection was mostly associated with the increase in common stress indicators (cortisol and glucose), while no clear response in terms of non-specific immune parameters was evidenced.

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Section: Discussionmentioning

confidence: 75%

Haematological and Immunological Responses in Juvenile Sea Bass (Dicentrarchus labrax L.) After Short-Term Acute Stress

Maricchiolo¹,

Caruso²,

Genovese³

2008

TOFISHSJ

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show abstract

“…Studies in laboratory animals (Dhabhar andMcEwen 1997), livestock (Salak-Johnson andMcGlone 2007), fish (Maule et al 1989) and humans (Biondi and Zannino 1997) have indicated that stress can affect patterns of infectious disease (Sheridan et al 1994). Stress has also been suggested as a factor influencing a wide range of diseases in wildlife, including Chlamydia infection in koalas (Brearley et al 2013), toxoplasmosis in various marsupials (Thompson et al 2010), chytridimycosis in amphibians (Blaustein et al 2012;Kindermann et al 2012;Gabor et al 2013), avian influenza in migratory birds (Weber and Stilianakis 2007) and white nose syndrome (Cryan et al 2010) and zoonotic (spread from animals to humans) viruses in bats, including Ebola and Hendra virus (HeV) (Groseth et al 2007;Plowright et al 2014).…”

Section: Introductionmentioning

confidence: 99%

The relationship between physiological stress and wildlife disease: consequences for health and conservation

et al. 2016

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Wildlife populations are under increasing pressure from a variety of threatening processes, ranging from climate change to habitat loss, that can incite a physiological stress response. The stress response influences immune function, with potential consequences for patterns of infection and transmission of disease among and within wildlife, domesticated animals and humans. This is concerning because stress may exacerbate the impact of disease on species vulnerable to extinction, with consequences for biodiversity conservation globally. Furthermore, stress may shape the role of wildlife in the spread of emerging infectious diseases (EID) such as Hendra virus (HeV) and Ebola virus. However, we still have a limited understanding of the influence of physiological stress on infectious disease in wildlife.We highlight key reasons why an improved understanding of the relationship between stress and wildlife disease could benefit conservation, and animal and public health, and discuss approaches for future investigation. In particular, we recommend that increased attention be given to the influence of anthropogenic stressors including climate change, habitat loss and management interventions on disease dynamics in wildlife populations.Additional keyword: physiology.

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“…Cortisol release is the most important response stress in the fish (Mazeaud and Mazeaud, 1981;Camacho, 1999;Belo, 2002;Brum, 2003). Its elevated concentration reduces the defense response of the fish (Pickering and Pottinger, 1985;Maule et al, 1989;Belo, 2002;Brum, 2003) and results in increased susceptibility to parasitic and infeccious diseases (Barton and Iwama, 1991). Vitamins and minerals are important in the physiological processes minimizing the effects of stressor agents.…”

Section: Introductionmentioning

confidence: 99%

Effects of chromium supplementation on the infrapopulations of Anacanthorus penilabiatus (Monogenoidea) and Piscinoodinium pillulare (Dinoflagellida) parasites of Piaractus mesopotamicus (Characidae)

Fujimoto

Castro

Martins

et al. 2010

Braz. arch. biol. technol.

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Stress alters immune function and disease resistance in chinook salmon (Oncorhynchus tshawytscha)

Cited by 308 publications

References 0 publications

Haematological and Immunological Responses in Juvenile Sea Bass (Dicentrarchus labrax L.) After Short-Term Acute Stress

Haematological and Immunological Responses in Juvenile Sea Bass (Dicentrarchus labrax L.) After Short-Term Acute Stress

The relationship between physiological stress and wildlife disease: consequences for health and conservation

Effects of chromium supplementation on the infrapopulations of Anacanthorus penilabiatus (Monogenoidea) and Piscinoodinium pillulare (Dinoflagellida) parasites of Piaractus mesopotamicus (Characidae)

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