TY - JOUR
T1 - Tolerability and first hints for potential efficacy of motor-cognitive training under inspiratory hypoxia in health and neuropsychiatric disorders
T2 - A translational viewpoint
AU - Mennen, Svea-Solveig
AU - Franta, Maren
AU - Begemann, Martin
AU - Wilke, Justus B H
AU - Schröder, Roman
AU - Butt, Umer Javed
AU - Cortés-Silva, Jonathan-Alexis
AU - Çakır, Umut
AU - Güra, Marie
AU - de Marées, Markus
AU - Gastaldi, Vinicius Daguano
AU - Burtscher, Johannes
AU - Schanz, Julie
AU - Bohn, Matthias
AU - Burtscher, Martin
AU - Fischer, Andreas
AU - Poustka, Luise
AU - Hammermann, Peter
AU - Stadler, Markus
AU - Lühder, Fred
AU - Singh, Manvendra
AU - Nave, Klaus-Armin
AU - Miskowiak, Kamilla Woznica
AU - Ehrenreich, Hannelore
PY - 2024/9/1
Y1 - 2024/9/1
N2 - Hypoxia is more and more perceived as pivotal physiological driving force, allowing cells in the brain and elsewhere to acclimate to lowered oxygen (O2), and abridged metabolism. The mediating transcription program is induced by inspiratory hypoxia but also by intensive motor-cognitive tasks, provoking a relative decrease in O2 in relation to the acutely augmented requirement. We termed this fundamental, demand-dependent drop in O2 availability "functional hypoxia." Major players in the hypoxia response are hypoxia-inducible factors (HIFs) and associated prolyl-hydroxylases. HIFs are transcription factors, stabilized by low O2 accessibility, and control expression of a multitude of genes. Changes in oxygen, however, can also be sensed via other pathways, among them the thiol-oxidase (2-aminoethanethiol) dioxygenase. Considering the far-reaching biological response to hypoxia, hitherto mostly observed in rodents, we initiated a translational project, combining mild to moderate inspiratory with functional hypoxia. We had identified this combination earlier to benefit motor-cognitive attainment in mice. A total of 20 subjects were included: 13 healthy individuals and 7 patients with depression and/or autism spectrum disorder. Here, we show that motor-cognitive training under inspiratory hypoxia (12% O2) for 3.5 h daily over 3 weeks is optimally tolerated. We present first signals of beneficial effects on general well-being, cognitive performance, physical fitness and psychopathology. Erythropoietin in serum increases under hypoxia and flow cytometry analysis of blood reveals several immune cell types to be mildly modulated by hypoxia. To obtain reliable information regarding the "add-on" value of inspiratory on top of functional hypoxia, induced by motor-cognitive training, a single-blind study-with versus without inspiratory hypoxia-is essential and outlined here.
AB - Hypoxia is more and more perceived as pivotal physiological driving force, allowing cells in the brain and elsewhere to acclimate to lowered oxygen (O2), and abridged metabolism. The mediating transcription program is induced by inspiratory hypoxia but also by intensive motor-cognitive tasks, provoking a relative decrease in O2 in relation to the acutely augmented requirement. We termed this fundamental, demand-dependent drop in O2 availability "functional hypoxia." Major players in the hypoxia response are hypoxia-inducible factors (HIFs) and associated prolyl-hydroxylases. HIFs are transcription factors, stabilized by low O2 accessibility, and control expression of a multitude of genes. Changes in oxygen, however, can also be sensed via other pathways, among them the thiol-oxidase (2-aminoethanethiol) dioxygenase. Considering the far-reaching biological response to hypoxia, hitherto mostly observed in rodents, we initiated a translational project, combining mild to moderate inspiratory with functional hypoxia. We had identified this combination earlier to benefit motor-cognitive attainment in mice. A total of 20 subjects were included: 13 healthy individuals and 7 patients with depression and/or autism spectrum disorder. Here, we show that motor-cognitive training under inspiratory hypoxia (12% O2) for 3.5 h daily over 3 weeks is optimally tolerated. We present first signals of beneficial effects on general well-being, cognitive performance, physical fitness and psychopathology. Erythropoietin in serum increases under hypoxia and flow cytometry analysis of blood reveals several immune cell types to be mildly modulated by hypoxia. To obtain reliable information regarding the "add-on" value of inspiratory on top of functional hypoxia, induced by motor-cognitive training, a single-blind study-with versus without inspiratory hypoxia-is essential and outlined here.
KW - brain
KW - cognition
KW - erythropoietin
KW - functional hypoxia
KW - high-parameter flow cytometry
KW - immune cells
KW - oxygen saturation
KW - physical fitness
KW - plasticity
UR - http://www.scopus.com/inward/record.url?scp=85208074831&partnerID=8YFLogxK
U2 - 10.1002/nep3.47
DO - 10.1002/nep3.47
M3 - Journal article
C2 - 39404697
SN - 2770-7296
VL - 2
SP - 228
EP - 242
JO - Neuroprotection
JF - Neuroprotection
IS - 3
ER -