Moderate but not severe hypothermia increases intracellular cyclic AMP through preserved production and reduced elimination
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https://hdl.handle.net/10037/30490Date
2023-01-14Type
Journal articleTidsskriftartikkel
Peer reviewed
Author
Kuzmiszyn, Adrina Kalasho; Selli, Anders Lund; Furuholmen, Markus; Smaglyukova, Natalia; Kondratiev, Timofei; Fuskevåg, Ole Martin; Sager, Georg; Dietrichs, Erik SvebergAbstract
Rewarming from accidental hypothermia could be complicated by acute cardiac dysfunction but providing
supportive pharmacotherapy at low core temperatures is challenging. Several pharmacological strategies aim to
improve cardiovascular function by increasing cAMP in cardiomyocytes as well as cAMP and cGMP levels in
vascular smooth muscle, but it is not clear what effects temperature has on cellular elimination of cAMP and
cGMP. We therefore studied the effects of differential temperatures from normothermia to deep hypothermia
(37 ◦C–20 ◦C) on cAMP levels in embryonic H9c2 cardiac cells and elimination of cAMP and cGMP by PDEenzymes and ABC-transporter proteins. Our experiments showed significant elevation of intracellular cAMP in
H9c2-cells at 30 ◦C but not 20 ◦C. Elimination of both cAMP and cGMP through ABC transport-proteins and PDEenzymes showed a temperature dependent reduction. Accordingly, the increased cardiomyocyte cAMP-levels
during moderate hypothermia appears an effect of preserved production and reduced elimination at 30 ◦C.
This correlates with earlier in vivo findings of a positive inotropic effect of moderate hypothermia.
Is part of
Kuzmiszyn, A.K. (2023). Temperature-dependent effects of phosphodiesterase inhibitors for cardiovascular support in hypothermic patients - Effects on cellular elimination of cAMP and cGMP. (Doctoral thesis). https://hdl.handle.net/10037/31584.Publisher
ElsevierCitation
Kuzmiszyn, AK, Selli AL, Furuholmen M, Smaglyukova NN, Kondratiev T, Fuskevåg O, Sager gs, Dietrichs ES. Moderate but not severe hypothermia increases intracellular cyclic AMP through preserved production and reduced elimination. Cryobiology. 2023Metadata
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