Abstract
We have measured the in vivo protein turnover for the major calcium regulatory proteins of the sarcoplasmic reticulum from the skeletal muscle of young adult (7 months) and aged (28 months) Fischer 344 rats. From the time course of the incorporation and decay of protein-associated radioactivity after a pulse injection of [14C]leucine and correcting for leucine reutilization, in young rats, the apparent half-lives for calsequestrin, the 53-kDa glycoprotein, and ryanodine receptor are 5.4 +/- 0.4, 6.3 +/- 1.3, and 8.3 +/- 1.3 days, respectively. A half-life of 14.5 +/- 2.5 days was estimated for the Ca-ATPase isolated from young muscle. Differences in protein turnover associated with aging were determined using sequential injection of two different isotopic labels ([14C]leucine and [3H]leucine) to provide an estimate of protein synthesis and degradation within the same animal. The Ca-ATPase and ryanodine receptor isolated from aged muscle exhibits 27 +/- 5% and 25 +/- 3% slower protein turnover, respectively, relative to that from young muscle. In contrast, the 53-kDa glycoprotein exhibits a 25 +/- 5% more rapid turnover in aged SR, while calsequestrin exhibits no age-dependent alteration in turnover. Statistical analysis comparing the sensitivity of various methods for discriminating different rates of protein turnover validates the approach used in this study and demonstrates that the use of two isotopic labels provides at least a 6-fold more sensitive means to detect age-related differences in protein turnover relative to other methods.
Highlights
Turnover of Calcium Regulatory Proteins in Skeletal MuscleMonoclonal antibody to RyR was a gift from the laboratory of Dr John Sutko (University of Nevada); polyclonal antibody to phosphorylase b was from Biogenesis, Sandown, NH; secondary goat anti-mouse IgGhorseradish peroxidase-linked antibody was from Pierce
Significance of This Study—In this study, we observe that the effect of aging on protein turnover in skeletal muscle SR was specific to individual proteins; the RyR and Ca-ATPase experience slower relative rates of turnover, whereas the 53kDa glycoprotein turned over more quickly in aged rats, and no change in calsequestrin turnover between age groups was measured
An approximate 25% decrease in protein turnover is observed for both the RyR and Ca-ATPase, and a 25% increase in turnover of the 53-kDa glycoprotein from aged rats
Summary
Monoclonal antibody to RyR was a gift from the laboratory of Dr John Sutko (University of Nevada); polyclonal antibody to phosphorylase b was from Biogenesis, Sandown, NH; secondary goat anti-mouse IgGhorseradish peroxidase-linked antibody was from Pierce. The animals used in this study were young adult (7 months, 396 Ϯ 8 g) and aged (28 months, 426 Ϯ 12 g) Fischer 344 male rats obtained from the NIA colonies maintained at Harlan Sprague-Dawley, Inc. Rats were housed separately during the study and maintained under strictly controlled environmental conditions for temperature (25 °C) and light/ dark cycles (12 h intervals). Food (NIH-31, Harlan Teklad Laboratory diet, Madison, WI) and tap water were provided ad libitum. Weight was monitored 2 days before the first isotope injection for all rats, and again on day 5 for the rats involved in the dual-isotope procedure. The average net weight change during this time was ϩ1 Ϯ 1 g and Ϫ5 Ϯ 1 g for young and aged rats, respectively. The research described in this report was conducted in compliance with all applicable federal statutes and regulations relating to animals and adheres to the principles stated in The Guide for Care and Use of Laboratory Animals (47)
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