2019
DOI: 10.1242/jeb.203976
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Tissue-dependent variations of hydrogen sulfide homeostasis in anoxic freshwater turtles

Abstract: Hydrogen sulfide (H 2 S) controls numerous physiological responses. To understand its proposed role in metabolic suppression, we measured free H 2 S and bound sulfane sulfur (BSS) in tissues of the freshwater turtle Trachemys scripta elegans, a species undergoing strong metabolic suppression when cold and anoxic. In warm normoxic turtles, free H 2 S was higher in red blood cells (RBCs) and kidney (∼9-10 µmol l −1 ) than in brain, liver and lung (∼1-2 µmol l −1 ). These values overall aligned with the tissue H … Show more

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Cited by 6 publications
(6 citation statements)
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“…4). In addition, the minor fraction of Hb containing a ferric heme (~1%) can also act as a reversible carrier of H2S in the blood Fago, 2020, 2018), consistent with high measured levels of free H2S (~20 µM) in turtle RBCs (Jensen et al, 2019). Although these values appear exceedingly high compared to those found in other vertebrates, it is important to keep in mind that these levels correspond to max 0.5% of total Hb thiol persulfidation and to max 10% of ferric heme bound to H2S, which are not unrealistic considering estimates of 10-25% persulfidation in other less abundant proteins (Mustafa et al, 2009).…”
Section: The Blood As a Redox Buffer And As A Storage Pool Of Bound S...supporting
confidence: 64%
See 1 more Smart Citation
“…4). In addition, the minor fraction of Hb containing a ferric heme (~1%) can also act as a reversible carrier of H2S in the blood Fago, 2020, 2018), consistent with high measured levels of free H2S (~20 µM) in turtle RBCs (Jensen et al, 2019). Although these values appear exceedingly high compared to those found in other vertebrates, it is important to keep in mind that these levels correspond to max 0.5% of total Hb thiol persulfidation and to max 10% of ferric heme bound to H2S, which are not unrealistic considering estimates of 10-25% persulfidation in other less abundant proteins (Mustafa et al, 2009).…”
Section: The Blood As a Redox Buffer And As A Storage Pool Of Bound S...supporting
confidence: 64%
“…A consequence of the high thiol content of turtle RBC is the high capacity of carrying high levels of sulfide (as persulfide and polysufide) bound to the Hb molecule, as found in normoxic and anoxic Trachemys turtles (Jensen et al, 2019) (Fig. 4).…”
Section: The Blood As a Redox Buffer And As A Storage Pool Of Bound S...mentioning
confidence: 99%
“…By contrast, ectotherms like fish behaviourally defend their thermal preference, enabling direct assessment of body temperature regulation. Whereas in most terrestrial animals exogenous H 2 S is applied to study the gasotransmitter's endogenous functions [8,9], exogenous H 2 S is ecologically relevant in aquatic habitats [11][12][13][14]. We exploit this physiology as a direct test of the hypothesis that H 2 S drives changes in thermal preferences, which is significant for the ecology and behaviour of this major taxon.…”
Section: Introductionmentioning
confidence: 99%
“…This suggests a role for H 2 S production in anoxic calcium signalling in turtle brain. Coupled with the above finding of increased bound H 2 S in cold-acclimated turtle brain [ 229 ], H 2 S is implicated in the regulation of metabolic depression in turtles. Whether H 2 S-induced calcium increase disrupts the cytoskeleton, or whether H 2 S inhibits RhoA, remains to be tested in turtles.…”
Section: Gasotransmitters Involved In Anoxic Metabolic Rate Depression and Their Impact On Cytoskeletal Dynamicsmentioning
confidence: 83%
“…Strangely, the combination of cold and anoxic acclimation results in free and bound H 2 S levels that do not differ significantly from normoxia. In turtle erythrocytes cold increases both free and bound H 2 S, but there is no further increase with cold anoxia [ 229 ]. This suggests a possible role of circulating H 2 S in cold-tolerance, but implications for anoxia are unclear.…”
Section: Gasotransmitters Involved In Anoxic Metabolic Rate Depression and Their Impact On Cytoskeletal Dynamicsmentioning
confidence: 99%