Abstract
An adult rat heart myocyte preparation was used to study the uptake and metabolism of the 1-(14)C-labeled free fatty acids decanoate, laurate, myristate, palmitate, and oleate at 37 degrees C in the absence of serum albumin. The rate of total uptake consisted of both a nonsaturable and a saturable component. The nonsaturable component corresponded to the fatty acid accumulating in the free fatty acid fraction, and the rate of this accumulation increased logarithmically as a function of chain length. The saturable component corresponded to that portion of fatty acid converted to the only detectable metabolic products: CO2, triglyceride, and polar lipid. The Km for this process was about 1 microM and was independent of chain length. The Vmax for the saturable component varied only slightly with chain length, from 20 +/- 1 nmol/h-mg of cell protein for decanoate to 47 +/- 18 nmol/h-mg of cell protein for palmitate. The relative product distribution did vary with chain length, however, ranging from primarily carbon dioxide for decanoate to approximately equal quantities of carbon dioxide, triglyceride, and polar lipid for palmitate. Two internal pools of free fatty acid are postulated: a minor pool that equilibrates rapidly with external fatty acid and serves as the precursor for fatty acid activation, and a major pool containing most of the accumulated free acid. These two pools are interconvertible. The data support a simple diffusion or membrane-partitioning process for the accumulation of fatty acid in the second pool. The data presented in this paper are not sufficient to distinguish between a simple diffusion or a carrier-mediated process for uptake into the first pool. The saturation kinetics observed appear to represent a metabolic step such as fatty acid activation, rather than a transport carrier. Evidence of toxicity at a higher concentration of the longer chain fatty acids limits the concentration range that can be studied in the absence of albumin. Decanoate did not appear to be toxic at concentrations up to 300 microM, but laurate at 10 microM and myristate at 5 microM appeared to uncouple respiratory control.
Highlights
An adult rat heartmyocyte preparation was used to importance since fatty acids, either as circulating free fatty study the uptake and metabolism of the l-14C-labeled acids or atsriglyceride, are thepreferred substrates for energy free fatty acids decanoate, laurate, myristate, palmi- production [1,2]
Thoeverall rate of free fattyacid utilization tate, and oleate at 37°C in the absence of serum albu- by heart muscle is determined by the supply of fatty acid to min
The nonsaturable component corresponded to thefatty acid accumulating in thferee fatty acid fraction, and the rateof this accumulation increased logarithmically as a function of chain length
Summary
The present studwyas undertaken to investigate tkhienetic behavior of fatty acid uptake by dispersed heart myocytes in an attempt to determine the mechanismof uptake This cell preparation, originally described by Glick et al (lo), appears to be well suited for the study of themovement of lipid molecules across plasma membranes. T w o internal pools of free fattyacid are postulated: acid that is taken up by the heart is oxidized to COz and a minor pool that equilibrates rapidly with external esterified to triglyceride or polar lipids, and the fatty acid and serves as the precursor for fatty acid total flux of fatty acid into the cell can be measured. Activation, and a major pool containing most of the Cell suspensions are manipulated.Inparticular,the accumulated free acid These two pools are intercon- substrate canbe presented directly to cthelel, eliminating vertible. 300 p ~ b,ut laurate at 10 p~ and myristate at 5 PM appeared touncouple respiratory control
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
