THE USE OF RADIOACTIVE LYSINE IN STUDIES OF PROTEIN METABOLISM: SYNTHESIS AND UTILIZATION OF PLASMA PROTEINS

doi:10.1084/jem.90.4.297

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The Journal of Experimental Medicine, Vol 90, 297-313, Copyright, 1949, by The Rockefeller Institute for Medical Research New York

ARTICLE

THE USE OF RADIOACTIVE LYSINE IN STUDIES OF PROTEIN METABOLISM : SYNTHESIS AND UTILIZATION OF PLASMA PROTEINS

L. L. Miller M.D.¹, W. F. Bale Ph.D.¹, C. L. Yuile M.D.¹, R. E. Masters M.D.¹, G. H. Tishkoff ¹, and G. H. Whipple M.D.¹

¹ From the Departments of Radiation Biology, Radiology, and Pathology, The University of Rochester School of Medicine and Dentistry, Rochester, New York

Racemic lysine labeled with C¹⁴ in the epsilon carbon positionwas fed to dogs. The distribution of C¹⁴ in blood and tissuefractions is recorded. In normal dogs sacrificed at 24 hours,approximately one-third of the C¹⁴ was found in the urine, one-thirdin expired air, and one-third in the body, mostly in protein,predomantly as lysine residues. The rate of C¹⁴ excretion asCO₂, hour by hour, paralleled closely the amount of non-proteinC¹⁴ in the blood plasma.

The liver, kidney, pancreas, and spleenall have high values for C¹⁴ in 24 hour and 17 day experiments.The gastrointestinal tract is significantly high in the 24 hourexperiments.

Plasma protein from animals previously fed C¹⁴containing lysine and thus in turn labeled, was transfused intoother dogs and the rate of disappearance of albumin and globulinfractions from the circulation of the recipient dog followed.The results lead to the conclusion that as a whole, plasma proteinsare utilized and replaced at a rate of at least 10 per centper 24 hours.

This minimum rate is substantially faster thanturnover rates commonly accepted and emphasizes the rôleplayed by the plasma proteins in the protein economy of thebody. The exact rate determination is made uncertain by thelack of knowledge of the magnitude of the amount of proteinin solution in extracellular and lymph spaces and its rate ofequilibrium with circulating plasma proteins.

Evidence fromthese transfusion studies indicates that plasma globulin ismetabolized at a significantly faster rate than plasma albumin.This is confirmed by the observation that following the feedingof labeled lysine to dogs, C¹⁴ is first incorporated in globulinin high concentration but that later it also disappears morerapidly from the globulin fraction.

These data suggest thatthe period of bone marrow maturation of the red cell duringwhich time its related hemoglobin is synthesized does not exceed3 to 5 days.

Submitted on June 19, 1949

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