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1. Integrative Approaches to Understanding Organismal Responses to Aquatic Deoxygenation

Author

Woods, H.A., Moran, A.L., Atkinson, D., Audzijonyte, A., Berenbrink, M., Borges, F.O., Burnett, K.G., Burnett, L.E., Coates, C.J., Collin, R., Costa-Paiva, E.M., Duncan, M.I., Ern, R., Laetz, E.M.J., Levin, L.A., Lindmark, M., Lucey, N.M., McCormick, L.R., Pierson, J.J., Rosa, R., Roman, M.R., Sampaio, E., Schulte, P.M., Sperling, E.A., Walczyńska, A., Verberk, W.C.E.P., Woods, H.A., Moran, A.L., Atkinson, D., Audzijonyte, A., Berenbrink, M., Borges, F.O., Burnett, K.G., Burnett, L.E., Coates, C.J., Collin, R., Costa-Paiva, E.M., Duncan, M.I., Ern, R., Laetz, E.M.J., Levin, L.A., Lindmark, M., Lucey, N.M., McCormick, L.R., Pierson, J.J., Rosa, R., Roman, M.R., Sampaio, E., Schulte, P.M., Sperling, E.A., Walczyńska, A., and Verberk, W.C.E.P.

Abstract

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Published
2022

3. Oxygen-dependent ion transport in erythrocytes

Author

Bogdanova, A, Berenbrink, M, Nikinmaa, M, Bogdanova, A, Berenbrink, M, and Nikinmaa, M

Abstract

The present contribution reviews current knowledge of apparently oxygen-dependent ion transport in erythrocytes and presents modern hypotheses on their regulatory mechanisms and physiological roles. In addition to molecular oxygen as such, reactive oxygen species, nitric oxide, carbon monoxide, regional variations of cellular ATP and hydrogen sulphide may play a role in the regulation of transport, provided that they are affected by oxygen tension. It appears that the transporter molecules themselves do not have direct oxygen sensors. Thus, the oxygen level must be sensed elsewhere, and the effect transduced to the transporter. The possible pathways involved in the regulation of transport, including haemoglobin as a sensor, and phosphorylation/dephosphorylation reactions both in the transporter and its upstream effectors, are discussed.

Published
2009

9. A new PDH leaves Carassius drunk and breathless.

Author

Fagernes, C. E., Stensløkken, K., Røhr, A. K., Berenbrink, M., Ellefsen, S., Nilsson, G. E., and Alderman, Sarah

Subjects
CARASSIUS, ETHANOL, HYPOXEMIA, GENE expression in fishes, OXYGEN consumption, PYRUVATES, FISHES
Abstract

The article discusses the findings of a study conducted by Norwegian scientists Göran Nilsson and Stian Ellefsen which suggest that certain members of the Carassius could withstand long periods with little to no oxygen at low temperatures during winter beneath frozen lakes. Nilsson and Ellefsen found that Carassius muscle, the major ethanol-producing tissue during anoxia, expressed more of the E1α and E1β genes responsible for driving pyruvate towards ethanol synthesis.

Published
2017
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10. Temperature sensitivity of red blood cell physiology in Atlantic cod, Gadus morhua : comparative, molecular, evolutionary and environmental aspects

Author

Barlow, S. L., Berenbrink, M., Watts, P., Righton, D., and Metcalfe, J.

Subjects
570
Abstract

The ability of fish to withstand increased temperatures has been directly linked with the capacity of their oxygen transport system and its ability to supply the tissues of the body with sufficient oxygen to meet demand. Therefore studies on the effects of temperature on the oxygen transport systems of aquatic organisms are important for understanding their capacity to cope with climate change. An early study in Atlantic cod (Gadus morhua) suggested haemoglobin I genotype affects temperature sensitivity of red blood cell oxygen binding, with one genotype found to be temperature insensitive. However this research had many limitations and subsequent research remains inconclusive as to the significance of the haemoglobin I polymorphism. In the most comprehensive study to date, results showed statistically indistinguishable red blood cell O2 binding between any of the three haemoglobin I genotypes in wild-caught Atlantic cod. Red blood cells had an unusually low O2 affinity, with reduced or even reversed thermal sensitivity, suggesting an endothermic nature to oxygen binding rarely seen in ectothermic teleosts. Reduced thermal sensitivity of oxygen binding is often attributed to the presence of increased pH sensitivity or large Bohr effect, however this is usually only considered in heterothermic fish. However, our finding of temperature insensitive oxygen binding in Atlantic cod and the presence of one of the highest Bohr effects measured suggest this mechanism may be more wide spread than previously thought. To explore this we test the effect of pH sensitivity and temperature sensitivity of oxygen binding on in six diverse fish species. A lack of thermal sensitivity of red blood cell oxygen binding was observed in two tested species and reduced thermal sensitivity was found in a further two. A strong inverse correlation was observed between the temperature sensitivity and pH sensitivity of oxygen binding in red blood cells, with a regression coefficient of 0.88. This confirms that the occurrence of thermal insensitive oxygen binding is not exclusive to heterothermic fish and as previously suggested the mechanism behind this is linked to at least one allosteric modulator. Haemoglobin polymerisation and subsequent red blood cell sickling has long been observed in fish, although little is still known about the phenomenon. Recent studies have shown haemoglobin polymerisation in fish is the result of acidosis; we confirm this in Atlantic cod and observe a strong link between the occurrence of sickling and acid-induced haemoglobin deoxygenation or the Root effect. Further, we attempt to determine the effect of temperature on the sickling in cod, as despite the ectothermic nature of fish this information is lacking and we try to determine if this too may contribute to reduction in thermal sensitivity of oxygen binding. The occurrence of sickling decreased at increased temperatures, a new finding in fish and contrary to that found in mammals. The Root effect was similarly effected by temperature, a novel observation suggesting a strong association between the two phenomena. However, sickling appeared to be exothermic in nature and as such is likely to contribute to thermal insensitive oxygen binding. Despite increasing interest in sickling in fish, the low number of observations make it difficult to determine a mechanism. Here we test a wide variety of fish to observe potential evolutionary pathways of sickling and attempt to find a genetic marker. Sickling was found to be prevalent throughout the Gadiformes, though no conclusive evidence was found in other tested species. Reconstruction of the evolution of fish RBC sickling on a composite phylogenetic tree of all studied species suggests two possible maximum parsimony evolutionary pathways and analysis of ß globin chains gives two potential markers. Finally, we determine a method to allow for DNA sequencing of the haemoglobin I polymorphism from fin clips, with the aim that this method can be used on samples taken from Atlantic cod fitted with thermal tracking tags. This will allow direct monitoring of the effect of the haemoglobin I polymorphism on temperature experience in the wild.

Published
2016
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12. Myoglobin primary structure reveals multiple convergent transitions to semi-aquatic life in the world's smallest mammalian divers.

Author

He K, Eastman TG, Czolacz H, Li S, Shinohara A, Kawada SI, Springer MS, Berenbrink M, and Campbell KL

Subjects
Amino Acid Sequence, Animals, Aquatic Organisms chemistry, Aquatic Organisms genetics, DNA genetics, Evolution, Molecular, Fossils, Mammals genetics, Moles, Myoglobin classification, Myoglobin metabolism, Oxygen, Aquatic Organisms physiology, Mammals physiology, Myoglobin chemistry, Myoglobin genetics, Phylogeny
Abstract

The speciose mammalian order Eulipotyphla (moles, shrews, hedgehogs, solenodons) combines an unusual diversity of semi-aquatic, semi-fossorial, and fossorial forms that arose from terrestrial forbearers. However, our understanding of the ecomorphological pathways leading to these lifestyles has been confounded by a fragmentary fossil record, unresolved phylogenetic relationships, and potential morphological convergence, calling for novel approaches. The net surface charge of the oxygen-storing muscle protein myoglobin (Z Mb ), which can be readily determined from its primary structure, provides an objective target to address this question due to mechanistic linkages with myoglobin concentration. Here, we generate a comprehensive 71 species molecular phylogeny that resolves previously intractable intra-family relationships and then ancestrally reconstruct Z Mb evolution to identify ancient lifestyle transitions based on protein sequence alone. Our phylogenetically informed analyses confidently resolve fossorial habits having evolved twice in talpid moles and reveal five independent secondary aquatic transitions in the order housing the world's smallest endothermic divers., Competing Interests: KH, TE, HC, SL, AS, SK, MS, MB, KC No competing interests declared, (© 2021, He et al.)

Published
2021
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14. Retinal oxygen supply shaped the functional evolution of the vertebrate eye.

Author

Damsgaard C, Lauridsen H, Funder AM, Thomsen JS, Desvignes T, Crossley DA 2nd, Møller PR, Huong DT, Phuong NT, Detrich HW 3rd, Brüel A, Wilkens H, Warrant E, Wang T, Nyengaard JR, Berenbrink M, and Bayley M

Subjects
Animals, Biological Evolution, Eye anatomy & histology, Eye growth & development, Oxygen metabolism, Retina anatomy & histology, Retina metabolism, Vertebrates
Abstract

The retina has a very high energy demand but lacks an internal blood supply in most vertebrates. Here we explore the hypothesis that oxygen diffusion limited the evolution of retinal morphology by reconstructing the evolution of retinal thickness and the various mechanisms for retinal oxygen supply, including capillarization and acid-induced haemoglobin oxygen unloading. We show that a common ancestor of bony fishes likely had a thin retina without additional retinal oxygen supply mechanisms and that three different types of retinal capillaries were gained and lost independently multiple times during the radiation of vertebrates, and that these were invariably associated with parallel changes in retinal thickness. Since retinal thickness confers multiple advantages to vision, we propose that insufficient retinal oxygen supply constrained the functional evolution of the eye in early vertebrates, and that recurrent origins of additional retinal oxygen supply mechanisms facilitated the phenotypic evolution of improved functional eye morphology., Competing Interests: CD, HL, AF, JT, TD, DC, PM, DH, NP, HD, AB, HW, EW, TW, JN, MB, MB No competing interests declared, (© 2019, Damsgaard et al.)

Published
2019
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15. ATP-induced reversed thermal sensitivity of O 2 binding in both major haemoglobin polymorphs of the non-endothermic Atlantic cod, Gadus morhua .

Author

Nelson C, Barlow SL, and Berenbrink M

Subjects
Animals, Fish Proteins metabolism, Phenotype, Thermotolerance, Adenosine Triphosphate metabolism, Erythrocytes metabolism, Gadus morhua physiology, Hemoglobins metabolism, Oxygen metabolism
Abstract

Atlantic cod is a species that is affected by climate change, with some populations being exposed to higher temperatures than others. The two polymorphs of its major haemoglobin type (HbI) show an inverse change in frequency along a latitudinal temperature cline in the North East Atlantic, which has been associated with differences in population performance and behavioural traits. An earlier study at the northern distribution limit of the species reported differential temperature sensitivities of red blood cell oxygen (O 2 ) affinity between the northern cold-water HbI-2 polymorph and its southern, warm-water HbI-1 counter-part, which has since widely been held as adaptive for the species across its distributional range. The present study critically re-examined this hypothesis by comparing the thermal sensitivity of O 2 binding in both purified HbI polymorphs from the southern, high-temperature distribution limit of the species under controlled conditions of allosteric modifiers of Hb function. Contrary to the prevailing view, the O 2 affinity of the major HbI polymorphs did not differ from each other under any of the tested conditions. Depending on pH and ATP concentration, the temperature-sensitive and temperature-insensitive Hb-O 2 affinity phenotypes - previously exclusively ascribed to HbI-1 and HbI-2, respectively - could be induced in both HbI polymorphs. These results are the first to establish a molecular mechanism behind a reversed temperature dependence of red blood cell O 2 affinity in a non-endotherm fish and lay the basis for future studies on alternative mechanisms behind the differences in distribution, performance and behavioural traits associated with the different HbI polymorphs of Atlantic cod., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published
2019
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16. Body condition impacts blood and muscle oxygen storage capacity of free-living beluga whales ( Delphinapterus leucas ).

Author

Choy ES, Campbell KL, Berenbrink M, Roth JD, and Loseto LL

Subjects
Animals, Body Composition, Female, Hematocrit, Hemoglobins analysis, Male, Myoglobin analysis, Northwest Territories, Beluga Whale physiology, Muscles chemistry, Oxygen analysis, Oxygen blood
Abstract

Arctic marine ecosystems are currently undergoing rapid environmental changes. Over the past 20 years, individual growth rates of beluga whales ( Delphinapterus leucas ) have declined, which may be a response to climate change; however, the scarcity of physiological data makes it difficult to gauge the adaptive capacity and resilience of the species. We explored relationships between body condition and physiological parameters pertaining to oxygen (O 2 ) storage capacity in 77 beluga whales in the eastern Beaufort Sea. Muscle myoglobin concentrations averaged 77.9 mg g -1 , one of the highest values reported among mammals. Importantly, blood haematocrit, haemoglobin and muscle myoglobin concentrations correlated positively to indices of body condition, including maximum half-girth to length ratios. Thus, a whale with the lowest body condition index would have ∼27% lower blood (26.0 versus 35.7 ml kg -1 ) and 12% lower muscle (15.6 versus 17.7 ml kg -1 ) O 2 stores than a whale of equivalent mass with the highest body condition index; with the conservative assumption that underwater O 2 consumption rates are unaffected by body condition, this equates to a >3 min difference in maximal aerobic dive time between the two extremes (14.3 versus 17.4 min). Consequently, environmental changes that negatively impact body condition may hinder the ability of whales to reach preferred prey sources, evade predators and escape ice entrapments. The relationship between body condition and O 2 storage capacity may represent a vicious cycle, in which environmental changes resulting in decreased body condition impair foraging, leading to further reductions in condition through diminished prey acquisition and/or increased foraging efforts., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published
2019
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17. Extreme anoxia tolerance in crucian carp and goldfish through neofunctionalization of duplicated genes creating a new ethanol-producing pyruvate decarboxylase pathway.

Author

Fagernes CE, Stensløkken KO, Røhr ÅK, Berenbrink M, Ellefsen S, and Nilsson GE

Subjects
Adaptation, Physiological genetics, Alcohol Dehydrogenase genetics, Alcohol Dehydrogenase metabolism, Amino Acid Sequence, Anaerobiosis, Animals, Carps metabolism, Fish Proteins metabolism, Goldfish metabolism, Hypoxia metabolism, Oxygen metabolism, Pyruvate Decarboxylase metabolism, Sequence Homology, Amino Acid, Signal Transduction genetics, Carps genetics, Ethanol metabolism, Fish Proteins genetics, Genes, Duplicate, Goldfish genetics, Pyruvate Decarboxylase genetics
Abstract

Without oxygen, most vertebrates die within minutes as they cannot meet cellular energy demands with anaerobic metabolism. However, fish of the genus Carassius (crucian carp and goldfish) have evolved a specialized metabolic system that allows them to survive prolonged periods without oxygen by producing ethanol as their metabolic end-product. Here we show that this has been made possible by the evolution of a pyruvate decarboxylase, analogous to that in brewer's yeast and the first described in vertebrates, in addition to a specialized alcohol dehydrogenase. Whole-genome duplication events have provided additional gene copies of the pyruvate dehydrogenase multienzyme complex that have evolved into a pyruvate decarboxylase, while other copies retained the essential function of the parent enzymes. We reveal the key molecular substitution in duplicated pyruvate dehydrogenase genes that underpins one of the most extreme hypoxic survival strategies among vertebrates and that is highly deleterious in humans.

Published
2017
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18. Life on the edge: O2 binding in Atlantic cod red blood cells near their southern distribution limit is not sensitive to temperature or haemoglobin genotype.

Author

Barlow SL, Metcalfe J, Righton DA, and Berenbrink M

Subjects
Animals, Gadus morhua genetics, Genotype, Hemoglobins genetics, Oxygen blood, Protein Binding, Temperature, Acclimatization, Erythrocytes metabolism, Gadus morhua blood, Gadus morhua physiology, Global Warming, Hemoglobins metabolism, Oxygen metabolism
Abstract

Atlantic cod are a commercially important species believed to be threatened by warming seas near their southern, equatorward upper thermal edge of distribution. Limitations to circulatory O 2 transport, in particular cardiac output, and the geographic distribution of functionally different haemoglobin (Hb) genotypes have separately been suggested to play a role in setting thermal tolerance in this species. The present study assessed the thermal sensitivity of O 2 binding in Atlantic cod red blood cells with different Hb genotypes near their upper thermal distribution limit and modelled its consequences for the arterio-venous O 2 saturation difference, Sa-v O 2 , another major determinant of circulatory O 2 supply rate. The results showed statistically indistinguishable red blood cell O 2 binding between the three HbI genotypes in wild-caught Atlantic cod from the Irish Sea (53° N). Red blood cells had an unusually low O 2 affinity, with reduced or even reversed thermal sensitivity between pH 7.4 and 7.9, and 5.0 and 20.0°C. This was paired with strongly pH-dependent affinity and cooperativity of red blood cell O 2 binding (Bohr and Root effects). Modelling of Sa-v O 2  at physiological pH, temperature and O 2 partial pressures revealed a substantial capacity for increases in Sa-v O 2  to meet rising tissue O 2 demands at 5.0 and 12.5°C, but not at 20°C. Furthermore, there was no evidence for an increase of maximal Sa-v O 2  with temperature. It is suggested that Atlantic cod at such high temperatures may solely depend on increases in cardiac output and blood O 2 capacity, or thermal acclimatisation of metabolic rate, for matching circulatory O 2 supply to tissue demand., (© 2017. Published by The Company of Biologists Ltd.)

Published
2017
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19. Gene turnover in the avian globin gene families and evolutionary changes in hemoglobin isoform expression.

Author

Opazo JC, Hoffmann FG, Natarajan C, Witt CC, Berenbrink M, and Storz JF

Subjects
Animals, Gene Dosage, Genomics, Phylogeny, Protein Isoforms genetics, Avian Proteins genetics, Birds genetics, Evolution, Molecular, Multigene Family, alpha-Globins genetics, beta-Globins genetics
Abstract

The apparent stasis in the evolution of avian chromosomes suggests that birds may have experienced relatively low rates of gene gain and loss in multigene families. To investigate this possibility and to explore the phenotypic consequences of variation in gene copy number, we examined evolutionary changes in the families of genes that encode the α- and β-type subunits of hemoglobin (Hb), the tetrameric α2β2 protein responsible for blood-O2 transport. A comparative genomic analysis of 52 bird species revealed that the size and membership composition of the α- and β-globin gene families have remained remarkably constant during approximately 100 My of avian evolution. Most interspecific variation in gene content is attributable to multiple independent inactivations of the α(D)-globin gene, which encodes the α-chain subunit of a functionally distinct Hb isoform (HbD) that is expressed in both embryonic and definitive erythrocytes. Due to consistent differences in O2-binding properties between HbD and the major adult-expressed Hb isoform, HbA (which incorporates products of the α(A)-globin gene), recurrent losses of α(D)-globin contribute to among-species variation in blood-O2 affinity. Analysis of HbA/HbD expression levels in the red blood cells of 122 bird species revealed high variability among lineages and strong phylogenetic signal. In comparison with the homologous gene clusters in mammals, the low retention rate for lineage-specific gene duplicates in the avian globin gene clusters suggests that the developmental regulation of Hb synthesis in birds may be more highly conserved, with orthologous genes having similar stage-specific expression profiles and similar functional properties in disparate taxa., (© The Author 2014. Published by Oxford University Press on behalf of the Society for Molecular Biology and Evolution.)

Published
2015
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20. Pronounced in vivo hemoglobin polymerization in red blood cells of Gulf toadfish: a general role for hemoglobin aggregation in vertebrate hemoparasite defense?

Author

Koldkjaer P, McDonald MD, Prior I, and Berenbrink M

Subjects
Animals, Erythrocytes ultrastructure, Hemoglobins chemistry, Microscopy, Electron, Transmission, Batrachoidiformes blood, Erythrocytes physiology, Hemoglobins metabolism
Abstract

Two human hemoglobin (Hb) variants, Hb C and Hb S, are known to protect against Plasmodium falciparum malaria and have evolved repeatedly in malaria endemic areas. Both aggregate to insoluble crystals (Hb C) or polymers (Hb S) under certain physiological conditions, impair parasite growth, and may facilitate retention of infected red blood cells (RBCs) in the spleen. Given the profound effects of parasites on host evolution in general, and that RBC Hb concentration is often close to its solubility limit throughout vertebrates, similar mechanisms may operate in nonhuman vertebrates. Here we show exercise-induced, profound in vivo Hb polymerization in RBCs of the Gulf toadfish. Hb aggregation was closely associated with the extent of plasma acidosis, fully reversible, and without any signs of hemolysis or anemia. Our literature analysis suggests that aggregation prone Hbs may be relatively old, evolved multiple times in nonhuman vertebrates, show enhanced aggregation during hemoparasite infections, and can be uncovered in vivo by splenectomy. We discuss the working hypothesis that widespread Hb aggregation within several vertebrate groups may be the result of ongoing or past selection pressure against RBC parasites. Further comparative studies of these evolutionary old systems may provide valuable insights into hemoparasite susceptibility and reservoir potential of livestock and companion animals but also into human malaria and sickle cell disease.

Published
2013
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21. Functional differentiation of myoglobin isoforms in hypoxia-tolerant carp indicates tissue-specific protective roles.

Author

Helbo S, Dewilde S, Williams DR, Berghmans H, Berenbrink M, Cossins AR, and Fago A

Subjects
Amino Acid Sequence, Animals, Brain metabolism, Carbon Monoxide metabolism, Hydrogen Peroxide, Hypoxia metabolism, Models, Animal, Molecular Sequence Data, Nitric Oxide metabolism, Oxygen metabolism, Protein Isoforms physiology, Reactive Oxygen Species metabolism, Brain physiopathology, Carps physiology, Hypoxia physiopathology, Myoglobin physiology
Abstract

Because of a recent whole genome duplication, the hypoxia-tolerant common carp and goldfish are the only vertebrates known to possess two myoglobin (Mb) paralogs. One of these, Mb1, occurs in oxidative muscle but also in several other tissues, including capillary endothelial cells, whereas the other, Mb2, is a unique isoform specific to brain neurons. To help understand the functional roles of these diverged isoforms in the tolerance to severe hypoxia in the carp, we have compared their O(2) equilibria, carbon monoxide (CO) and O(2) binding kinetics, thiol S-nitrosation, nitrite reductase activities, and peroxidase activities. Mb1 has O(2) affinity and nitrite reductase activity comparable to most vertebrate muscle Mbs, consistent with established roles for Mbs in O(2) storage/delivery and in maintaining nitric oxide (NO) homeostasis during hypoxia. Both Mb1 and Mb2 can be S-nitrosated to similar extent, but without oxygenation-linked allosteric control. When compared with Mb1, Mb2 displays faster O(2) and CO kinetics, a lower O(2) affinity, and is slower at converting nitrite into NO. Mb2 is therefore unlikely to be primarily involved in either O(2) supply to mitochondria or the generation of NO from nitrite during hypoxia. However, Mb2 proved to be significantly faster at eliminating H(2)O(2,) a major in vivo reactive oxygen species (ROS), suggesting that this diverged Mb isoform may have a specific protective role against H(2)O(2) in the carp brain. This property might be of particular significance during reoxygenation following extended periods of hypoxia, when production of H(2)O(2) and other ROS is highest.

Published
2012
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23. Diverse cell-specific expression of myoglobin isoforms in brain, kidney, gill and liver of the hypoxia-tolerant carp and zebrafish.

Author

Cossins AR, Williams DR, Foulkes NS, Berenbrink M, and Kipar A

Subjects
Animals, Blotting, Western, Brain metabolism, Carps genetics, Cell Hypoxia, Fish Proteins genetics, Gene Expression, Gills metabolism, Kidney metabolism, Liver metabolism, Myoglobin analysis, Myoglobin genetics, Protein Isoforms analysis, Protein Isoforms genetics, Protein Isoforms metabolism, Zebrafish genetics, Carps metabolism, Fish Proteins metabolism, Myoglobin metabolism, Zebrafish metabolism
Abstract

Myoglobin (Mb) is famous as a muscle-specific protein--yet the common carp expresses the gene (cMb1) encoding this protein in a range of non-muscle tissues and also expresses a novel isoform (cMb2) in the brain. Using a homologous antibody and riboprobes, we have established the relative amounts and cellular sites of non-muscle Mb expression in different tissues. The amounts of carp myoglobin (cMb) in supernatants of different tissues were just 0.4-0.7% relative to that of heart supernatants and were upregulated by two-to-four fold in liver, gill and brain following 5 days of hypoxic treatment. Brain exhibited both cMb proteins in western analysis, whereas all other tissues had only cMb1. We have also identified cells expressing cMb protein and cMb mRNA using immunohistology and RNA in situ hybridisation (RNA-ISH), respectively. Mb was strongly expressed throughout all cardiac myocytes and a subset of skeletal muscle fibres, whereas it was restricted to a small range of specific cell types in each of the non-muscle tissues. These include pillar and epithelial cells in secondary gill lamellae, hepatocytes, some neurones, and tubular epithelial cells in the kidney. Capillaries and small blood vessels in all tissues exhibited Mb expression within vascular endothelial cells. The cMb2 riboprobe located expression to a subset of neurones but not to endothelial cells. In zebrafish, which possesses only one Mb gene, a similar expression pattern of Mb protein and mRNA was observed. This establishes a surprisingly cell-specific distribution of Mb within non-muscle tissues in both carp and zebrafish, where it probably plays an important role in the regulation of microvascular, renal and brain function.

Published
2009
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24. Ancient and modern duplication events and the evolution of stearoyl-CoA desaturases in teleost fishes.

Author

Evans H, De Tomaso T, Quail M, Rogers J, Gracey AY, Cossins AR, and Berenbrink M

Subjects
Amino Acid Sequence, Animals, DNA, Complementary genetics, Expressed Sequence Tags, Genomics methods, Molecular Sequence Data, Phylogeny, Protein Isoforms genetics, Synteny, Takifugu genetics, Zebrafish genetics, Evolution, Molecular, Fishes genetics, Gene Duplication, Stearoyl-CoA Desaturase genetics
Abstract

Stearoyl-CoA desaturases (SCDs) are key enzymes of fatty acid biosynthesis whose regulation underpins responses to dietary, thermal, and hormonal treatment. Although two isoforms are known to exist in the common carp and human and four in mouse, there is no coherent view on how this gene family evolved to generate functionally diverse members. Here we identify numerous new SCD homologs in teleost fishes, using sequence data from expressed sequence tag (EST) and cDNA collections and genomic model species. Phylogenetic analyses of the deduced coding sequences produced only partially resolved molecular trees. The multiple SCD isoforms were, however, consistent with having arisen by an ancient gene duplication event in teleost fishes together with a more recent duplication in the tetraploid carp and possibly also salmonid lineages. Critical support for this interpretation comes from comparison across all vertebrate groups of the gene order in the genomic environments of the SCD isoforms. Using syntenically aligned chromosomal fragments from large-insert clones of common carp and grass carp together with those from genomically sequenced model species, we show that the ancient and modern SCD duplication events in the carp lineage were each associated with large chromosomal segment duplications, both possibly linked to whole genome duplications. By contrast, the four mouse isoforms likely arose by tandem duplications. Each duplication in the carp lineage gave rise to differentially expressed SCD isoforms, either induced by cold or diet as previously shown for the recent duplicated carp isoforms or tissue specific as demonstrated here for the ancient duplicate zebrafish isoforms.

Published
2008
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25. Physiology: Myoglobin's new clothes.

Author

Cossins A and Berenbrink M

Subjects
Animals, Mice, Mice, Knockout, Myoglobin deficiency, Myoglobin genetics, Oxidation-Reduction, Hypoxia metabolism, Myoglobin metabolism, Nitric Oxide metabolism, Nitrites metabolism
Published
2008
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26. In vivo red blood cell sickling and mechanism of recovery in whiting, Merlangius merlangus.

Author

Koldkjaer P and Berenbrink M

Subjects
Animals, Erythrocytes ultrastructure, Cell Shape physiology, Erythrocytes physiology, Gadiformes blood
Abstract

Haemoglobin concentrations in vertebrate red blood cells are so high that in human sickle cell disease a single surface amino acid mutation can result in formation of large insoluble haemoglobin aggregates at low oxygen levels, causing peculiar cell deformations or 'sickling'. This may cause vascular occlusion and thereby severe pain, organ failure and death. Here, using light and transmission electron microscopy, we demonstrate extensive in vivo sickling of whiting red blood cells after capture stress without any apparent haemolysis and show its subsequent recovery. We show exceptionally high cooperative proton binding during the sickling process in vitro and identify the reduction of extracellular pH below resting values as the primary cause for in vivo sickling, although the response is modulated to a lesser extent also by oxygen tension. Using isotope tracer fluxes, we further show that beta-adrenergic hormones, which are released under capture stress, activate a powerful endogenous Na/H exchanger in these fish red blood cells, which is known to elevate intracellular pH. beta-adrenergic treatment further leads to a marked reduction of acid-induced in vitro sickling, which is impaired when Na/H exchange is inhibited by amiloride. We propose that this mechanism protects red blood cells of some fishes against the problem of haemoglobin aggregation and red blood cell sickling, except under most severe acidosis. This system offers a unique example of how, over evolutionary time, nature may have overcome what is still a deadly disease in humans.

Published
2007
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27. Oxygen-sensitive regulatory volume increase and Na transport in red blood cells from the cane toad, Bufo marinus.

Author

Kristensen K, Koldkjaer P, Berenbrink M, and Wang T

Subjects
Animals, Erythrocytes drug effects, Isoproterenol pharmacology, Osmolar Concentration, Partial Pressure, Time Factors, Biological Transport physiology, Bufo marinus metabolism, Erythrocytes metabolism, Oxygen metabolism, Sodium metabolism
Abstract

The red blood cells (RBCs) of cane toad, Bufo marinus, are only partially saturated with oxygen in most of the circulation due to cardiac shunts that cause desaturation of arterial blood. The present study examines the oxygen dependency of RBC ouabain-insensitive unidirectional Na transport, using 22Na, in control cells and in cells exposed to hyperosmotic shrinkage or the beta-adrenergic agonist isoproterenol. Deoxygenation per se induced a slow, but significant Na influx, which was paralleled by a slow increase in RBC volume. Hyperosmotic shrinkage by a calculated 25% activated a robust Na influx that in the first 30 min had a strong PO2 dependency with maximal activation at low PO2 values and a P50 of approximately 5.5 kPa. This activation was completely abolished by the Na/H exchanger (NHE) inhibitor EIPA (10(-4) mol l(-1)). Hyperosmotic shrinkage is particularly interesting in B. marinus as it withstands considerable elevation in extracellular osmolarity following dehydration. Parallel studies showed that deoxygenated B. marinus RBCs had a much faster regulatory volume increase (RVI) response than air-equilibrated RBCs, reflecting the difference in magnitude of Na influxes at the two PO2 values. The extent of RVI ( approximately 60%) after 90 min, however, was similar under the two conditions, reflecting a more prolonged elevation of the shrinkage-induced Na influx in air-equilibrated RBCs. There were no significant differences in the ability to perform RVI between whole blood cells at a PCO2 of 1 and 3 kPa or washed RBCs, and 10(-4) mol l(-1) amiloride reduced the RVI under all conditions, whereas 10(-5) mol l(-1) bumetanide had no effect. Isoproterenol (10(-5) mol l(-1)) induced a significant and prolonged increase in an EIPA-sensitive and bumetanide-insensitive Na influx at low PO2 under iso-osmotic conditions, whilst there was no stimulation by isoproterenol for up to 45 min in air-equilibrated RBCs. The prolonged beta-adrenergic activation of the Na influx at low PO2 is distinctly different from the rapid and transient stimulation in teleost RBCs, suggesting significant differences in the signal transduction pathways leading to transporter activation between vertebrate groups.

Published
2007
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28. Historical reconstructions of evolving physiological complexity: O2 secretion in the eye and swimbladder of fishes.

Author

Berenbrink M

Subjects
Air Sacs blood supply, Animals, Evolution, Molecular, Eye blood supply, Fishes genetics, Hemoglobins genetics, Hemoglobins metabolism, Hydrogen-Ion Concentration, Systems Biology methods, Air Sacs physiology, Biological Evolution, Eye metabolism, Fishes physiology, Oxygen metabolism, Phylogeny
Abstract

The ability of some fishes to inflate their compressible swimbladder with almost pure oxygen to maintain neutral buoyancy, even against the high hydrostatic pressure several thousand metres below the water surface, has fascinated physiologists for more than 200 years. This review shows how evolutionary reconstruction of the components of such a complex physiological system on a phylogenetic tree can generate new and important insights into the origin of complex phenotypes that are difficult to obtain with a purely mechanistic approach alone. Thus, it is shown that oxygen secretion first evolved in the eyes of fishes, presumably for improved oxygen supply to an avascular, metabolically active retina. Evolution of this system was facilitated by prior changes in the pH dependence of oxygen-binding characteristics of haemoglobin (the Root effect) and in the specific buffer value of haemoglobin. These changes predisposed teleost fishes for the later evolution of swimbladder oxygen secretion, which occurred at least four times independently and can be associated with increased auditory sensitivity and invasion of the deep sea in some groups. It is proposed that the increasing availability of molecular phylogenetic trees for evolutionary reconstructions may be as important for understanding physiological diversity in the postgenomic era as the increase of genomic sequence information in single model species.

Published
2007
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29. Two different oxygen sensors regulate oxygen-sensitive K+ transport in crucian carp red blood cells.

Author

Berenbrink M, Völkel S, Koldkjaer P, Heisler N, and Nikinmaa M

Subjects
Animals, Bumetanide pharmacology, Carboxylic Acids pharmacology, Dose-Response Relationship, Drug, Erythrocytes drug effects, Hemoglobins metabolism, Hydrogen-Ion Concentration, In Vitro Techniques, Indenes pharmacology, Partial Pressure, Rubidium Radioisotopes, Sodium Potassium Chloride Symporter Inhibitors pharmacology, Sodium-Potassium-Chloride Symporters metabolism, Symporters antagonists & inhibitors, Symporters metabolism, K Cl- Cotransporters, Carps blood, Erythrocytes metabolism, Oxygen metabolism, Potassium metabolism
Abstract

The O2 dependence of ouabain-independent K+ transport mechanisms has been studied by unidirectional Rb+ flux analysis in crucian carp red blood cells (RBCs). The following observations suggest that O2 activates K+-Cl- cotransport (KCC) and deactivates Na+-K+-2Cl- cotransport (NKCC) in these cells via separate O2 sensors that differ in their O2 affinity. When O2 tension (PO2) at physiological pH 7.9 was increased from 0 to 1, 4, 21 or 100 kPa, K+ (Rb+) influx was increasingly inhibited, and at 100 kPa amounted to about 30% of the value at 0 kPa. This influx was almost completely Cl- dependent at high and low PO2, as shown by substituting Cl- with nitrate or methanesulphonate. K+ (Rb+) efflux showed a similar PO2 dependence as K+ (Rb+) influx, but was about 4-5 times higher over the whole PO2 range. The combined net free energy of transmembrane ion gradients favoured net efflux of ions for both KCC and NKCC mechanisms. The KCC inhibitor dihydroindenyloxyalkanoic acid (DIOA, 0.1 mM) abolished Cl- -dependent K+ (Rb+) influx at a PO2 of 100 kPa, but was only partially effective at low PO2 (0-1 kPa). At PO2 values between 0 and 4 kPa, K+ (Rb+) influx was further unaffected by variations in pH between 8.4 and 6.9, whereas the flux at 21 and 100 kPa was strongly reduced by pH values below 8.4. At pH 8.4, where K+ (Rb+) influx was maximal at high and low PO2, titration of K+ (Rb+) influx with the NKCC inhibitor bumetanide (1, 10 and 100 microM) revealed a highly bumetanide-sensitive K+ (Rb+) flux pathway at low PO2, and a relative bumetanide-insensitive pathway at high PO2. The bumetanide-sensitive K+ (Rb+) influx pathway was activated by decreasing PO2, with a PO2 for half-maximal activation (P50) not significantly different from the P50 for haemoglobin O2 binding. The bumetanide-insensitive K+ (Rb+) influx pathway was activated by increasing PO2 with a P50 significantly higher than for haemoglobin O2 binding. These results are relevant for the pathologically altered O2 sensitivity of RBC ion transport in certain human haemoglobinopathies.

Published
2006
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30. Evolution of oxygen secretion in fishes and the emergence of a complex physiological system.

Author

Berenbrink M, Koldkjaer P, Kepp O, and Cossins AR

Subjects
Adaptation, Physiological, Air Sacs blood supply, Amino Acid Sequence, Animals, Buffers, Capillaries physiology, Choroid blood supply, Choroid physiology, Diffusion, Environment, Erythrocytes physiology, Fishes anatomy & histology, Fishes classification, Hemoglobins chemistry, Histidine analysis, Hydrogen-Ion Concentration, Molecular Sequence Data, Oxyhemoglobins metabolism, Phylogeny, Sodium-Hydrogen Exchangers blood, Sodium-Hydrogen Exchangers metabolism, Species Specificity, Air Sacs physiology, Biological Evolution, Fishes physiology, Hemoglobins metabolism, Oxygen metabolism
Abstract

We have reconstructed the events that led to the evolution of a key physiological innovation underpinning the large adaptive radiation of fishes, namely their unique ability to secrete molecular oxygen (O2). We show that O2 secretion into the swimbladder evolved some 100 million years after another O2-secreting system in the eye. We unravel the likely sequence in which the functional components of both systems evolved. These components include ocular and swimbladder countercurrent exchangers, the Bohr and Root effects, the buffering power and surface histidine content of hemoglobins, and red blood cell Na+/H+ exchange activity. Our synthesis reveals the dynamics of gains and losses of these multiple traits over time, accounting for part of the huge diversity of form and function in living fishes.

Published
2005
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31. O(2)-dependent K(+) fluxes in trout red blood cells: the nature of O(2) sensing revealed by the O(2) affinity, cooperativity and pH dependence of transport.

Author

Berenbrink M, Völkel S, Heisler N, and Nikinmaa M

Subjects
Acetates pharmacology, Adenosine Diphosphate metabolism, Adenosine Monophosphate metabolism, Adenosine Triphosphate metabolism, Animals, Enzyme Inhibitors pharmacology, Erythrocyte Membrane drug effects, Erythrocyte Membrane metabolism, Erythrocytes cytology, Guanosine Triphosphate metabolism, Hemoglobins metabolism, Hydrogen-Ion Concentration, Indenes pharmacology, Ion Transport drug effects, Isotonic Solutions, Oncorhynchus mykiss, Ouabain pharmacology, Oxygen pharmacology, Partial Pressure, Rubidium Radioisotopes, Erythrocytes metabolism, Ion Transport physiology, Oxygen metabolism, Potassium metabolism
Abstract

The effects of pH and O(2) tension on the isotonic ouabain-resistant K(+) (Rb+) flux pathway and on haemoglobin O2 binding were studied in trout red blood cells (RBCs) in order to test for a direct effect of haemoglobin O(2) saturation on K(+) transport across the RBC membrane. At pH values corresponding to in vivo control arterial plasma pH and higher, elevation of the O(2) partial pressure (PO(2)) from 7.8 to 157 mmHg increased unidirectional K(+) influx across the RBC membrane several-fold. At lower extracellular pH values, stimulation of K(+) influx by O(2) was depressed, exhibiting an apparent pK(a) (pK'(a)) for the process of 8.0. Under similar conditions the pK'(a) for acid-induced deoxygenation of haemoglobin (Hb) was 7.3. When trout RBCs were exposed to PO(2) values between 0 and 747 mmHg, O(2) equilibrium curves typical of Hb O(2) saturation were also obtained for K(+) influx and efflux. However, at pH 7.9, the PO(2) for half-maximal K(+) efflux and K(+) influx (P50) was about 8- to 12-fold higher than the P(50) for Hb-O(2) binding. While K(+) influx and efflux stimulation by O(2) was essentially non-cooperative, Hb-O(2) equilibrium curves were distinctly sigmoidal (Hill parameters close to 1 and 3, respectively). O(2)-stimulated K(+) influx and efflux were strongly pH dependent. When the definition of the Bohr factor for respiratory pigments (Phi = delta logP50 x delta pH(-1)) was extended to the effect of pH on O(2)-dependent K(+) influx and efflux, extracellular Bohr factors (Phi(o) of -2.00 and -2.06 were obtained, values much higher than that for Hb (Phi(o) = -0.49). The results of this study are consistent with an O(2) sensing mechanism differing markedly in affinity and cooperativity of O(2) binding, as well as in pH sensitivity, from bulk Hb.

Published
2000
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