Pathways of Palmitate Metabolism in the Isolated Rat Lung

Abstract

Plasma fatty acids represent major precursors of lung lipids. In this study, the pathways of palmitate metabolism were measured in an isolated perfused rat lung. Lungs were ventilated with 5% CO₂ in air and perfused with Krebs-Ringer bicarbonate containing 3% serum albumin and 0.25 mM [U-¹⁴C] and [9, 10-³H] palmitate. Fatty acid utilization was estimated by recovery of radiolabel in products of metabolism. Fourteen percent of a total ¹⁴C - fatty-acid utilization of 4.5 μmol fatty acid/100 min/g dry wt. was recovered as ¹⁴CO₂- Degradation of fatty acid to acetyl CoA was indicated by a ³H₂O production that was twice fatty acid oxidation to CO₂. The majority of palmitate was recovered in lung phosphatidylcholines with a ^l4C to ³H ratio of 1.4 accounting for differences between, ¹⁴CO₂ and ³H₂O productions. Addition of glucose to the perfusate decreased fatty acid oxidation to CO₂ by 32% but had no effect on ¹⁴C recovery in phospholipids. Perfusion with the uncoupler of oxidative phosphorylation 2,4-dinitrophenol stimulated fatty acid oxidation twofold but decreased ¹⁴C incorporation into lipids. These data together with estimates of fatty acid synthesis based on ³H₂O incorporation into lipids, suggested that exogenous fatty acids and glucose both represent sources of carbon for de novo fatty acid synthesis and energy production.