Hormonal control of salt and water balance in vertebrates

McCormick, Stephen D.; Bradshaw, Don

doi:10.1016/j.ygcen.2005.12.009

Cited by 257 publications

(163 citation statements)

References 32 publications

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“…Based on existing knowledge, it is plausible to suggest that more responsive experimental adrenocortical stress phenotypes induced rapid activation of GC and mineralocorticoid receptors via crosstalk feedback mechanisms [43], increasing water loss and thus reducing survival. GC-receptor activation could result in lower upregulation of genes and proteins necessary for increases in Na þ absorption in the kidneys and urinary bladder, which are necessary to maintain osmotic balance [29,30]. In addition, acute experimental elevation of corticosterone in ectothermic vertebrates can cause increased metabolism [44,45], suggesting another mechanism that could increase evaporative water loss in cane toads.…”

Section: Discussionmentioning

confidence: 99%

“…actions of GC hormones acting on receptors) could mediate holistic phenotypic function in toads exposed to thermal or hydric stressors by altering concurrent physiological processes [16][17][18]. These include vascular blood flow influencing evaporative cooling and water loss, glucose availability for activity and regulation of other hormones directly involved in water or thermal homeostasis [29,30].…”

Section: Introductionmentioning

confidence: 99%

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Adrenocortical stress responses influence an invasive vertebrate's fitness in an extreme environment

et al. 2013

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Continued range expansion into physiologically challenging environments requires invasive species to maintain adaptive phenotypic performance. The adrenocortical stress response, governed in part by glucocorticoid hormones, influences physiological and behavioural responses of vertebrates to environmental stressors. However, any adaptive role of this response in invasive populations that are expanding into extreme environments is currently unclear. We experimentally manipulated the adrenocortical stress response of invasive cane toads (Rhinella marina) to investigate its effect on phenotypic performance and fitness at the species' range front in the Tanami Desert, Australia. Here, toads are vulnerable to overheating and dehydration during the annual hot -dry season and display elevated plasma corticosterone levels indicative of severe environmental stress. By comparing unmanipulated control toads with toads whose adrenocortical stress response was manipulated to increase acute physiological stress responsiveness, we found that control toads had significantly reduced daily evaporative water loss and higher survival relative to the experimental animals. The adrenocortical stress response hence appears essential in facilitating complex phenotypic performance and setting fitness trajectories of individuals from invasive species during range expansion.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Adrenocortical stress responses influence an invasive vertebrate's fitness in an extreme environment

et al. 2013

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“…This oscillation indicates that high ATPase activity is only required for the initial acclimatisation to low salinity. McCormick and Bradshaw (2006) pointed out that some alterations in teleost gill membrane permeability and ion transport can occur after long periods in hyposmotic environments and that this adaptation is mediated by the hormone prolactin. It is possible that the gill ion permeability of C. parallelus is also altered after long-term exposure to low salinity, enabling reduction of Na + , K + ATPase activity.…”

Section: Discussionmentioning

confidence: 99%

The effect of salinity on osmoregulation and development of the juvenile fat snook, Centropomus parallelus (POEY)

et al. 2013

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Eurihaline fish support waters with different salt concentration. However, numerous studies have shown that salinity can affect fish development. Thus, the effect of salinity change from 20 to 5 and 35 on survival, weight, length, gill chloride cell ultrastructure and gill Na + , K + ATPase activity was evaluated in Centropomus parallelus following short-term (6, 24 and 96 hours) and long-term exposure (30 and 60 days). Salinity did not affect C. parallelus survival, final weight and length. The quantity of chloride cells increased visibly at salinities of 5 and 35, with the cells exhibiting the typical features of uptake and secretory cells, respectively. Na + , K + ATPase activity in the gill of the C. parallelus was significantly greater at a salinity of 5 than at a salinity of 20 or 35 after 96 hours, but not after 30 or 60 days. These results indicate that salinity change from high to low salt water induces gill chloride cell and Na + , K + ATPase activity adaptations after short-term exposure. However, after long-term exposure at salinity 5, gill Na + , K + ATPase activity is no more necessary at high levels. The increase in salinity to 35 does not induce significant change in gills. Juveniles of C. parallelus may thus be capable of acclimating to salinities of 5 to 35 for 60 days without significant effects on development.Keywords: Centropomus parallelus, chloride cell, osmoregulation, Na + , K + ATPase. O efeito da salinidade sobre a osmoregulação e o desenvolvimento do juvenil de robalo-peva, Centropomus parallelus (POEY) ResumoPeixes eurihalinos suportam águas com diferentes concentrações de sal. Contudo, muitos estudos têm mostrado que a salinidade pode afetar o desenvolvimento do peixe. Portanto, o efeito da mudança de salinidade de 20 para 5 e 35 na taxa de sobrevivência, peso, comprimento, morfologia das células de cloreto branquiais e atividade da Na + , K + ATPase foram avaliadas no Centropomus parallelus após curto (6, 24 e 96 horas) e longo tempo de exposição (30 e 60 dias). A salinidade não afetou a sobrevivência, o peso e comprimento final do robalo-peva. A quantidade de células de cloreto aumentou visivelmente nas salinidades 5 e 35, exibindo morfologias típicas de células que absorvem e secretam sal, respectivamente. A atividade da Na + , K + ATPase nas brânquias do C. parallelus foi significativamente maior na salinidade 5 do que nas salinidades 20 ou 35 após 96 horas, mas não após 30 e 60 dias. Esses resultados indicam que a mudança de alta para baixa salinidade provoca adaptações nas células de cloreto e na atividade da Na + , K + ATPase branquial em curto prazo. Contudo, após longa exposição na salinidade 5, a alta atividade da Na + , K + ATPase branquial não é mais necessária. O aumento de salinidade para 35 não induz mudanças significativas nas brânquias. Portanto, juvenis de C. parallelus possuem a capacidade de aclimatação nas salinidades de 5 a 35 sem efeitos significativos no desenvolvimento após 60 dias.Palavras-chave: Centropomus parallelus, célula de cloreto, osmoregula...

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“…Although fish possess mineralocorticoid receptors (MR; Sturm et al 2005), they lack the capacity to synthesize significant amounts of aldosterone (Colombo et al 1972). Thus, in fish, cortisol binds to both MR and GR to activate their downstream signaling (McCormick & Bradshaw 2006, Takahashi & Sakamoto 2013. The physiological role of cortisol in promoting ionic uptake in freshwater fish is extensively documented (Laurent & Perry 1990, Kumai et al 2012a.…”

Section: Does Ras Interact With Cortisol In Zebrafish?mentioning

confidence: 99%

Angiotensin-II promotes Na+ uptake in larval zebrafish, Danio rerio, in acidic and ion-poor water

Kumai

Bernier

Perry

2013

Journal of Endocrinology

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The contribution of the renin-angiotensin system (RAS) to Na C uptake was investigated in larval zebrafish (Danio rerio). At 4 days post fertilization (dpf), the level of whole-body angiotensin-II (ANG-II) was significantly increased after 1-or 3-h exposure to acidic (pHZ4.0) or ion-poor water (20-fold dilution of Ottawa tapwater), suggesting rapid activation of the RAS. Long-term (24 h) treatment of 3 dpf larvae with ANG-I or ANG-II significantly increased Na C uptake which was accompanied by an increase in mRNA expression of the NaInduction of Na C uptake by exposure to ANG-I was blocked by simultaneously treating larvae with lisinopril (an angiotensin-converting enzyme inhibitor). Acute (2 h) exposure to acidic water or ion-poor water led to significant increase in Na C uptake which was partially blocked by the ANG-II receptor antagonist, telmisartan. Consistent with these data, translational knockdown of renin prevented the stimulation of Na C uptake following exposure to acidic or ion-poor water. The lack of any effects of pharmacological inhibition (using RU486), or knockdown of glucocorticoid receptors on the stimulation of Na C uptake during acute exposure to acidic or ion-poor environments, indicates that the acute effects of RAS occur independently of cortisol signaling. The results of this study demonstrate that the RAS is involved in Na C homeostasis in larval zebrafish. Key Words" angiotensin-II" cortisol " zebrafish " osmoregulation " ion-poor water " acidic water

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Hormonal control of salt and water balance in vertebrates

Cited by 257 publications

References 32 publications

Adrenocortical stress responses influence an invasive vertebrate's fitness in an extreme environment

Adrenocortical stress responses influence an invasive vertebrate's fitness in an extreme environment

The effect of salinity on osmoregulation and development of the juvenile fat snook, Centropomus parallelus (POEY)

Angiotensin-II promotes Na+ uptake in larval zebrafish, Danio rerio, in acidic and ion-poor water

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