Abstract
Food composition influences stroke risk, but its effects on ischemic injury and neurological deficits are poorly examined. While severe reduction of protein content was found to aggravate neurological impairment and brain injury as a consequence of combined energy-protein malnutrition, moderate protein restriction not resulting in energy deprivation was recently suggested to protect against perinatal hypoxia-ischemia. Male C57BL6/j mice were exposed to moderate protein restriction by providing a normocaloric diet containing 8% protein (control: 20% protein) for 7, 14, or 30 days. Intraluminal middle cerebral artery occlusion was then induced. Mice were sacrificed 24 h later. Irrespective of the duration of food modification (that is, 7–30 days), protein restriction reduced neurological impairment of ischemic mice revealed by a global and focal deficit score. Prolonged protein restriction over 30 days also reduced infarct volume, brain edema, and blood-brain barrier permeability and increased the survival of NeuN+ neurons in the core of the stroke (i.e., striatum). Neuroprotection by prolonged protein restriction went along with reduced brain infiltration of CD45+ leukocytes and reduced expression of inducible NO synthase and interleukin-1β. As potential mechanisms, increased levels of the NAD-dependent deacetylase sirtuin-1 and anti-oxidant glutathione peroxidase-3 were noted in ischemic brain tissue. Irrespective of the protein restriction duration, a shift from pro-oxidant oxidative stress markers (NADPH oxidase-4) to anti-oxidant markers (superoxide dismutase-1/2, glutathione peroxidase-3 and catalase) was found in the liver. Moderate protein restriction protects against ischemia in the adult brain. Accordingly, dietary modifications may be efficacious strategies promoting stroke outcome.
Highlights
Alimentation with protein-rich animal products has greatly fostered human development
Real-time quantitative polymerase chain reaction (qPCR) showed that protein restriction did not alter the expression of metabolism-related, pro-inflammatory, and anti-oxidant genes in ischemic brain tissue, when imposed for 7 or 14 days, but increased the level of sirtuin-1 (Sirt-1) messenger RNA (mRNA), which encodes a NAD-dependent deacetylase that stabilizes mitochondrial function and metabolism partly by deacetylating the transcription regulator peroxisome proliferator-activated receptor-γ coactivator-1α (PGC-1α) [15]; reduced the level of interleukin-1β (Il-1β) mRNA, which encodes a pro-inflammatory cytokine strongly expressed by M1 microglial cells [15]; and increased the level of glutathione peroxidase-3 (Gpx-3) mRNA, which encodes an antioxidant enzyme that degrades hydrogen peroxide [16, 17], in ischemic brain tissue, when imposed for 30 days (Table 1)
By exposing adult mice to intraluminal middle cerebral artery occlusion (MCAO) that had been submitted to a protein-reduced diet for 7, 14, or 30 days, we show that protein restriction protects against focal cerebral ischemia
Summary
Alimentation with protein-rich animal products has greatly fostered human development. The delivery of diets containing 0.5–2% protein 3 to 4 weeks in models of global [4,5,6] or focal [7] cerebral ischemia compromised neurological recovery, increased brain inflammation, increased neuronal injury, and reduced brain plasticity Such severe protein restriction results in a reduction in the total amount of food ingested, since the animals refuse this chow [4,5,6,7]. A single rat study so far examined consequences of a more moderate diet containing 7% protein, which, when administered during pregnancy and lactation to mothers, reduced brain injury but augmented sensorimotor deficits of offspring exposed to unilateral cerebral hypoxia-ischemia at 7 days post-birth [8] How such moderate protein restriction influences ischemic injury and neurological deficits in the adult brain was unknown. Our hypothesis was that moderate protein restriction reduces neurological deficits and brain injury
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