Acute exercise alters brain glucose metabolism in aging and Alzheimer's disease

Author:

Green Zachary D.12,John Casey S.12,Kueck Paul J.12ORCID,Blankenship Anneka E.12,Kemna Riley E.12,Johnson Chelsea N.12,Yoksh Lauren E.3,Best Shaun R.3,Donald Joseph S.3,Mahnken Jonathan D.13,Burns Jeffrey M.12,Vidoni Eric D.12ORCID,Morris Jill K.12ORCID

Affiliation:

1. University of Kansas Alzheimer's Disease Research Center Fairway KS USA

2. Department of Neurology University of Kansas Medical Center Kansas City KS USA

3. Department of Radiology University of Kansas Medical Center Kansas City KS USA

Abstract

AbstractThere is evidence that aerobic exercise improves brain health. Benefits may be modulated by acute physiological responses to exercise, but this has not been well characterized in older or cognitively impaired adults. The randomized controlled trial ‘AEROBIC’ (NCT04299308) enrolled 60 older adults who were cognitively healthy (n = 30) or cognitively impaired (n = 30) to characterize the acute brain responses to moderate [45–55% heart rate reserve (HRR)] and higher (65–75% HRR) intensity acute exercise. Each participant received two fluorodeoxyglucose positron emission tomography (FDG‐PET) scans, one at rest and one following acute exercise. Change in cerebral glucose metabolism from rest to exercise was the primary outcome. Blood biomarker responses were also characterized as secondary outcomes. Whole grey matter FDG‐PET standardized uptake value ratio (SUVR) differed between exercise (1.045 ± 0.082) and rest (0.985 ± 0.077) across subjects [Diff = −0.060, t(58) = 13.8, P < 0.001] regardless of diagnosis. Exercise increased lactate area under the curve (AUC) [F(1,56) = 161.99, P < 0.001] more in the higher intensity group [mean difference (MD) = 97.0 ± 50.8] than the moderate intensity group (MD = 40.3 ± 27.5; t = −5.252, P < 0.001). Change in lactate AUC and FDG‐PET SUVR correlated significantly (R2 = 0.179, P < 0.001). Acute exercise decreased whole grey matter cerebral glucose metabolism. This effect tracked with the systemic lactate response, suggesting that lactate may serve as a key brain fuel during exercise. Direct measurements of brain lactate metabolism in response to exercise are warranted. imageKey points Acute exercise is associated with a drop in global brain glucose metabolism in both cognitively healthy older adults and those with Alzheimer's disease. Blood lactate levels increase following acute exercise. Change in brain metabolism tracks with blood lactate, suggesting it may be an important brain fuel. Acute exercise stimulates changes in brain‐derived neurotrophic factor and other blood biomarkers.

Funder

National Institutes of Health

Publisher

Wiley

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