Johanna Öberg scite author profile

At present, there are few means to track symptomatic stages of CNS aging. Thus, although metabolic changes are implicated in mtDNA mutation-driven aging, the manifestations remain unclear. Here, we used normally aging and prematurely aging mtDNA mutator mice to establish a molecular link between mitochondrial dysfunction and abnormal metabolism in the aging process. Using proton magnetic resonance spectroscopy and HPLC, we found that brain lactate levels were increased twofold in both normally and prematurely aging mice during aging. To correlate the striking increase in lactate with tissue pathology, we investigated the respiratory chain enzymes and detected mitochondrial failure in key brain areas from both normally and prematurely aging mice. We used in situ hybridization to show that increased brain lactate levels were caused by a shift in transcriptional activities of the lactate dehydrogenases to promote pyruvate to lactate conversion. Separation of the five tetrameric lactate dehydrogenase (LDH) isoenzymes revealed an increase of those dominated by the Ldh-A product and a decrease of those rich in the Ldh-B product, which, in turn, increases pyruvate to lactate conversion. Spectrophotometric assays measuring LDH activity from the pyruvate and lactate sides of the reaction showed a higher pyruvate → lactate activity in the brain. We argue for the use of lactate proton magnetic resonance spectroscopy as a noninvasive strategy for monitoring this hallmark of the aging process. The mtDNA mutator mouse allows us to conclude that the increased LDH-A/LDH-B ratio causes high brain lactate levels, which, in turn, are predictive of aging phenotypes.mtDNA mutator mouse | proton magnetic resonance spectroscopy | in situ hybridization | COX/SDH enzyme histochemistry | HPLC

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Functional pattern of brain FDG-PET in amyotrophic lateral sclerosis

Pagani¹,

Chiò²,

Valentini³

et al. 2014

Neurology

171

159

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Age related changes in brain metabolites observed by 1H MRS in APP/PS1 mice

Öberg

Spenger

Wang

et al. 2008

Neurobiology of Aging

100

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Vitamin D deficiency and lifestyle risk factors in a Norwegian adolescent population

Öberg

Jorde

Almås

et al. 2014

Scand J Public Health

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Johanna Öberg

In vitro models for the blood–brain barrier

High brain lactate is a hallmark of aging and caused by a shift in the lactate dehydrogenase A/B ratio

Functional pattern of brain FDG-PET in amyotrophic lateral sclerosis

Age related changes in brain metabolites observed by 1H MRS in APP/PS1 mice

Vitamin D deficiency and lifestyle risk factors in a Norwegian adolescent population

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