Brain Protein Synthesis Rates in the UM-HET3 Mouse Following Treatment With Rapamycin or Rapamycin With Metformin

Abstract Treatment with the mechanistic target of rapamycin (mTOR) inhibitor, rapamycin (RAP), alone and in combination with the antidiabetic drug, metformin (RAP+MET), extends lifespan in mice. The mechanisms underlying lifespan extension are unclear. One possibility is improved capacity for proteostatic maintenance. We have previously characterized peripheral protein synthesis rates following treatment with RAP. However, it is unknown if RAP+MET elicits similar changes, or if either treatment affects protein synthesis in the brain. We hypothesized that 8 weeks of treatment with RAP and RAP+MET would alter brain protein synthesis rates to reflect proteostatic processes. Using the stable isotopic tracer, deuterium oxide (D2O), we demonstrate in UM-HET3 mice that protein synthesis rates measured in whole brain were unaffected by treatment in young male mice, whereas RAP+MET decreased mitochondrial protein synthesis in young females. Conversely, RAP increased mitochondrial protein synthesis rates in older females. Activity through the AMPK/mTOR pathway was affected in a sex-specific manner in young mice, and minimal changes were observed in the older cohort. Thus, we establish D2O for measurements of biogenesis in the brain. These results provide initial insights into the effects of RAP and RAP+MET on brain protein synthesis. Additionally, these data emphasize that responses to slowed aging treatments vary with sex and age.

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Dietary γ-Aminobutyric Acid Affects the Brain Protein Synthesis Rate in Ovariectomized Female Rats

Journal of Nutritional Science and Vitaminology ◽

10.3177/jnsv.55.75 ◽

2009 ◽

Vol 55 (1) ◽

pp. 75-80 ◽

Cited By ~ 28

Author(s):

Kazuyo TUJIOKA ◽

Miho OHSUMI ◽

Kenji HORIE ◽

Mujo KIM ◽

Kazutoshi HAYASE ◽

...

Keyword(s):

Protein Synthesis ◽

Female Rats ◽

Aminobutyric Acid ◽

Synthesis Rate ◽

Protein Synthesis Rate ◽

Brain Protein ◽

Brain Protein Synthesis ◽

The Brain

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The effect of elevated plasma phenylalanine levels on protein synthesis rates in adult rat brain

Biochemical Journal ◽

10.1042/bj3020601 ◽

1994 ◽

Vol 302 (2) ◽

pp. 601-610 ◽

Cited By ~ 18

Author(s):

D S Dunlop ◽

X R Yang ◽

A Lajtha

Keyword(s):

Protein Synthesis ◽

Amino Acid ◽

Free Amino ◽

Specific Activity ◽

Brain Protein ◽

Free Amino Acid Pool ◽

Plasma Phenylalanine ◽

Specific Activities ◽

Brain Protein Synthesis ◽

The Brain

Increasing the plasma phenylalanine concentration to levels as high as 0.560-0.870 mM (over ten times normal levels) had no detectable effect on the rate of brain protein synthesis in adult rats. The average rates for 7-week-old rats were: valine, 0.58 +/- 0.05%/h, phenylalanine, 0.59 +/- 0.06%/h, and tyrosine, 0.60 +/- 0.09%/h, or 0.59 +/- 0.06%/h overall. Synthesis rates calculated on the basis of the specific activity of the tRNA-bound amino acid were slightly lower (4% lower for phenylalanine) than those based on the brain free amino acid pool. Similarly, the specific activities of valine and phenylalanine in microdialysis fluid from striatum were practically the same as those in the brain free amino acid pool. Thus the specific activities of the valine and phenylalanine brain free pools are good measures of the precursor specific activity for protein synthesis. In any event, synthesis rates, whether based on the specific activities of the amino acids in the brain free pool or those bound to tRNA, were unaffected by elevated levels of plasma phenylalanine. Brain protein synthesis rates measured after the administration of quite large doses of phenylalanine (> 1.5 mumol/g) or valine (15 mumol/g) were in agreement (0.62 +/- 0.01 and 0.65 +/- 0.01%/h respectively) with the rates determined with infusions of trace amounts of amino acids. Thus the technique of stabilizing precursor-specific activity, and pushing values in the brain close to those of the plasma, by the administration of large quantities of precursor, appears to be valid.

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Comparison of the Effects of Ornithine and Arginine on the Brain Protein Synthesis Rate in Young Rats

Journal of Nutritional Science and Vitaminology ◽

10.3177/jnsv.61.417 ◽

2015 ◽

Vol 61 (5) ◽

pp. 417-421 ◽

Cited By ~ 1

Author(s):

Shoko SUZUMURA ◽

Kazuyo TUJIOKA ◽

Takashi YAMADA ◽

Hidehiko YOKOGOSHI ◽

Saori AKIDUKI ◽

...

Keyword(s):

Protein Synthesis ◽

Synthesis Rate ◽

Protein Synthesis Rate ◽

Brain Protein ◽

Young Rats ◽

Brain Protein Synthesis ◽

The Brain

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Effect of Dietary Protein Quality on the Brain Protein Synthesis Rate in Aged Rats.

Journal of Nutritional Science and Vitaminology ◽

10.3177/jnsv.45.481 ◽

1999 ◽

Vol 45 (4) ◽

pp. 481-489 ◽

Cited By ~ 14

Author(s):

Miho KOIE ◽

Miyuki TANAKA ◽

Kazutoshi HAYASE ◽

Akira YOSHIDA ◽

Hidehiko YOKOGOSHI

Keyword(s):

Protein Synthesis ◽

Dietary Protein ◽

Protein Quality ◽

Synthesis Rate ◽

Protein Synthesis Rate ◽

Aged Rats ◽

Brain Protein ◽

Brain Protein Synthesis ◽

The Brain

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Effect of Adding Dietary Methionine to a Low Soy Protein Diet on the Brain Protein Synthesis Rate in Ovariectomized Female Rats

Nutritional Neuroscience ◽

10.1080/10284150412331279818 ◽

2004 ◽

Vol 7 (3) ◽

pp. 185-190 ◽

Cited By ~ 4

Author(s):

Sunok Lyou ◽

Kazuyo Tujioka ◽

Emi Hirano ◽

Yuka Mawatari ◽

Kazutoshi Hayase ◽

...

Keyword(s):

Protein Synthesis ◽

Soy Protein ◽

Protein Diet ◽

Female Rats ◽

Synthesis Rate ◽

Protein Synthesis Rate ◽

Brain Protein ◽

Brain Protein Synthesis ◽

The Brain

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The mechanism of polyribosome disaggregation in brain tissue by phenylalanine

Biochemical Journal ◽

10.1042/bj1510173 ◽

1975 ◽

Vol 151 (1) ◽

pp. 173-180 ◽

Cited By ~ 45

Author(s):

F Taub ◽

T C Johnson

Keyword(s):

Protein Synthesis ◽

Brain Protein ◽

Concomitant Increase ◽

Cell Cytoplasm ◽

Endogenous Protein ◽

Cerebellar Tissue ◽

High Concentrations ◽

Brain Protein Synthesis ◽

Old Mice ◽

The Brain

The injection of neonatal mice with phenylalanine resulted in a rapid decrease in brain polyribosomes and a concomitant increase in monomeric ribosomes. Animals of 1-16 days of age were equally affected by phenylalanine, although the brain polyribosomes of 60-day-old mice were relatively resistant to the effects of phenylalanine. The population of free polyribosomes appeared to be more sensitive to phenylalanine treatment than bound polyribosomes, which were somewhat more resistant to disruption by high concentrations of the amino acid. The effects of phenylalanine were more pronounced with polyribosomes in the cerebral cortex than with those in the cerebellar tissue. The mechanism of polyribosome disruption was shown to be independent of hydrolysis mediated by ribonuclease. Virtually all of the monomeric ribosomes that resulted from phenylalanine treatment were shown to be inactive with regard to endogenous protein synthesis and were present in the cell cytoplasm as vacant couples. These ribosomes were readily dissociated by treatment with 0.5 M-KCl and subsequent ultracentrifugation. These results are discussed in the light of the possibility that high concentrations of phenylalanine disrupt brain protein synthesis by a molecular mechanism that is associated with initiation events.

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The effects of chronic hyperphenylalaninaemia on mouse brain protein synthesis can be prevented by other amino acids

Biochemical Journal ◽

10.1042/bj2060407 ◽

1982 ◽

Vol 206 (2) ◽

pp. 407-414 ◽

Cited By ~ 25

Author(s):

P Binek-Singer ◽

T C Johnson

Keyword(s):

Amino Acids ◽

Protein Synthesis ◽

Amino Acid ◽

Polypeptide Chain ◽

Amino Acid Mixture ◽

Chain Elongation ◽

Acid Mixture ◽

Brain Protein ◽

Brain Protein Synthesis ◽

The Brain

A prolonged elevation in the concentrations of circulating phenylalanine was maintained in newborn mice by daily injections of phenylalanine and a phenylalanine hydroxylase inhibitor, alpha-methylphenylalanine. The result of this chronic hyperphenylalaninaemia was an accumulation of vacant or inactive monoribosomes that persisted for 18 h of each day. An elongation assay in vitro with brain postmitochondrial supernatants demonstrated that, in addition, there was an equally prolonged decrease in the rates of polypeptide-chain elongation by the remaining brain polyribosomes. Analyses of the free amino acid composition in the brains of hyperphenylalaninaemic mice showed a loss of several amino acids from the brain, particularly the large, neutral amino acids, which are co- or counter-transported across plasma membranes with phenylalanine. When a mixture of these amino acids (leucine, isoleucine, valine, threonine, tryptophan, tyrosine, methionine) was injected into hyperphenylalaninaemic mice, there was an immediate cessation of monoribosome accumulation in the brain and there was no inhibition of the rates of polypeptide-chain elongation. Although the concentrations of the large, neutral amino acids in the brain were partially preserved by treatment of hyperphenylalaninaemic mice with the amino acid mixture, the elevated concentrations of phenylalanine remained unaltered. The amino acid mixture had no detectable effect on brain protein synthesis in the absence of the hyperphenylalaninaemic condition.

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