Protein synthesis by perfused hearts from normal and insulin-deficient rats. Effect of insulin in the presence of glucose and after depletion of glucose, glucose 6-phosphate and glycogen

In the absence of glucose, insulin stimulated the incorporation of (14)C-labelled amino acids into protein by perfused rat hearts that had been previously substantially depleted of endogenous glucose, glucose 6-phosphate and glycogen by substrate-free perfusion. This stimulation was also demonstrated in hearts perfused with buffer containing 2-deoxy-d-glucose, an inhibitor of glucose utilization. It is concluded that insulin exerts an effect on protein synthesis independent of its action on glucose metabolism. Streptozotocin-induced diabetes was found to have no effect either on (14)C-labelled amino acid incorporation by the perfused heart or on the polyribosome profile and amino acid-incorporating activity of polyribosomes prepared from the non-perfused hearts of these insulin-deficient rats, which show marked abnormalities in glucose metabolism. Protein synthesis was not diminished in the perfused hearts from rats treated with anti-insulin antiserum. The significance of these findings is discussed in relation to the reported effects of insulin deficiency on protein synthesis in skeletal muscle.     

The effects of potassium ions and denervation on protein synthesis and the transport of amino acids in muscle

1. The effects of varying concentrations of K(+) during incubation, of denervation and of various drugs on the accumulation of (14)C-labelled amino acids, their incorporation into protein and the stimulation of these processes by insulin in rat diaphragm preparations were studied. 2. The accumulation of glycine and aminoisobutyrate and incorporation of glycine into protein was less in tissue incubated in K(+)-free buffer or 20mm-K(+) than with 5-10mm-K(+). Incorporation of leucine was unaffected. 3. Incorporation into protein of amino acids by diaphragm that had been denervated 3 days previously was elevated. Accumulation of both glycine and aminoisobutyrate was also raised but that of phenylalanine was unaffected. 4. Accumulation of glycine by diaphragm and extensor digitorum longus muscle was decreased by a number of agents including cocaine and mepyramine. 5. The stimulation of incorporation by insulin was unaffected by changes in K(+) or in the presence of cocaine and mepyramine. Denervated tissue was markedly less responsive to insulin than its control. 6. The results are discussed in the context of the relation of amino acid accumulation to operation of the Na(+) pump and the influence of insulin thereon.     

Some factors affecting the response of muscle to insulin

1. The effect of various changes in the composition of the supporting medium on the capacity of isolated rat diaphragm to incorporate amino acids into its protein has been studied. 2. Replacement of most of the normal ionic constituents by sucrose is inhibitory towards protein synthesis, as is also substitution of choline or K(+) for Na(+). 3. The capacity of the tissue to respond to a stimulatory effect of insulin is impaired in the sucrose media and under certain conditions in the absence of Na(+), particularly when Na(+) is replaced by K(+) and the (14)C-labelled amino acid is presented at a relatively high concentration. 4. Cutting of the tissue before incubation also decreases incorporating capacity and markedly decreases responsiveness to insulin. 5. In abnormal media the cellular content of ATP falls sharply. 6. The ATP content of the tissue also declines in the presence of 2-deoxyglucose. This change is prevented by the addition of glucose but not of pyruvate and succinate. 7. Although affecting the rate of amino acid incorporation the ATP content is not thought generally to limit sensitivity to insulin.     

Viability of some metabolic processes in the isolated toad brain adapted to two osmotic environments.

The viability of the isolated toad brain in an aerated Ringer-like medium has been evaluated by the following criteria: 1) amino acid content before and after incubation; 2) accumulation of amino acids in the incubation medium; 3) a comparison of glucose utilization and [U-14C]glucose metabolism with that occurring in vivo; 4) tissue swelling; and 5) tissue lactate contents. On the basis of these criteria, the isolated toad brain, from toads adapted to a fresh-water or a salt-water environment, retains considerable metabolic integrity for at least 2 hr of incubation at 25 degrees C. Specifically, there was no swelling of the tissue, no apparent accumulation of lactate in the tissue, glucose appeared to be utilized at a rate not too different from that calculated for the toad brain in vivo, and the distribution of label from [U-14C]glucose had an overall pattern which resembled that observed in vivo. The tissue levels of amino acids were generally stable in vitro; however, there was a marked decline in the content of aspartate. The accumulation of amino acids in the medium varied considerably from one amino acid to another. Thus, there was very little net efflux of aspartate, GABA, and glutamate from the tissue but considerable net efflux of glutamine. This efflux of amino acids was greater from brains of hyperosmotically adapted toads than from the brains of toads adapted to fresh water by amounts proportional to their initial tissue contents.     

Evoked release from guinea pig cerebral cortex slices of endogenous 14C-labelled amino acids, labelled via D-[U-14C]glucose.

Release of endogenous amino acids labelled via D-[U-14C]glucose was compared with that of several exogenous labelled amino acids using slices of guinea pig cerebral cortex. Electrical field stimulation evoked a selective release of endogenous [14C]glutamate, [14C]aspartate, and gamma-amino[14C]butyrate (14C-labelled GABA). The selectivity of release correlated well with 14C incorporation into endogenous amino acids. Calculations of the fraction of the tissue radioactivity released indicated that the selectivity was not an artifact due to differential incorporation. Because glucose in mammalian brain is metabolized almost entirely by the so-called 'large compartment', it is tentatively concluded that the releasable 'transmitter pool' of glutamate, aspartate, and GABA is located in this 'large compartment'.     

THE SPONTANEOUS AND ELECTRICALLY EVOKED RELEASE, FROM SLICES OF GUINEA-PIG CEREBRAL CORTEX, OF ENDOGENOUS AMINO ACIDS LABELLED VIA METABOLISM OF d-[U-14C]GLUCOSE

Abstract— In an effort to identify neurotransmitters in slices of guinea-pig cerebral cortex, a study was made of the release of endogenous amino acids which had become labelled via metabolism of d -[U-¹⁴C]glucose. While incorporation of ¹⁴C into endogenous glutamate, aspartate, GABA, alanine and threonine-serine-glutamine (unseparated) was large enough to permit measurement of their release, that into other amino acids was not. In parallel experiments, the release of exogeneous labelled glutamate, aspartate, GABA and α-aminoisobutyrate was examined. Electrical field stimulation evoked a transient increase in the release of all the adequately labelled endogenous amino acids and all the exogenous amino acids. The stimulated ‘increase’ in the release of each of the endogenous ¹⁴C-labelled transmitter candidates (glutamate, aspartate and GABA) was larger than that of any other amino acid (except that of exogenous GABA). When the experiments were performed without the glucose (5 mm ) usually present in the medium bathing the slices, larger amounts of each labelled amino acid were released from the slices than in the presence of glucose. Moreover, the pattern of selective release of the endogenous labelled transmitter candidates was much more pronounced in the absence of glucose. It is likely that in the absence of glucose, release from the tissue was larger because cells in the slice were relatively depolarized and uptake of amino acids into cells was impaired. Because previous evidence suggests that over 90% of glucose consumption occurs in the ‘large metabolic compartment’ which is thought to be composed of neuronal elements, neurons were probably the main site from which the larger release of endogenous ¹⁴C-labelled transmitter candidates was evoked. The exogenous amino acids were probably released from several cellular elements in the slices. It was concluded that the pattern of a selective release of the endogenous labelled transmitter candidates may have been indicative of a transmitter releasing mechanism in nerve terminals.     

Viability of some metabolic processes in the isolated toad brain adapted to two osmotic environments

The viability of the isolated toad brain in an aerated Ringer-like medium has been evaluated by the following criteria: 1) amino acid content before and after incubation; 2) accumulation of amino acids in the incubation medium; 3) a comparison of glucose utilization and [U-¹⁴C]glucose metabolism with that occurring in vivo; 4) tissue swelling; and 5) tissue lactate content. On the basis of these criteria, the isolated toad brain, from toads adapted to a fresh-water or a salt-water environment, retains considerable metabolic integrity for at least 2 hr of incubation at 25° C. Specifically, there was no swelling of the tissue, no apparent accumulation of lactate in the tissue, glucose appeared to be utilized at a rate not too different from that calculated for the toad brain in vivo, and the distribution of label from [U-¹⁴C]glucose had an overall pattern which resembled that observed in vivo. The tissue levels of amino acids were generally stable in vitro; however, there was a marked decline in the content of aspartate. The accumulation of amino acids in the medium varied considerably from one amino acid to another. Thus, there was very little net efflux of aspartate, GABA, and glutamate from the tissue but considerable net efflux of glutamine. This efflux of amino acids was greater from brains of hyperosmotically adapted toads than from the brains of toads adapted to fresh water by amounts proportional to their initial tissue contents.     

Alanine and glutamine synthesis and release from skeletal muscle. I. Glycolysis and amino acid release.

The synthesis and release of alanine and glutamine were investigated with an intact rat epitrochlaris muscle preparation. This preparation will maintain on incubation for up to 6 hours, tissue levels of phosphocreatine, ATP, ADP, lactate, and pyruvate closely approximating those values observed in gastrocnemius muscles freeze-clamped in vivo. The epitrochlaris preparation releases amino acids in the same relative proportions and amounts as a perfused rat hindquarter preparation and human skeletal muscle. Since amino acids were released during incubation without observable changes in tissue amino acids levels, rates of alanine and glutamine release closely approximate net amino acid synthesis. Large increases in either glucose uptake or glycolysis in muscle were not accompanied by changes in either alanine or glutamine synthesis. Insulin increased muscle glucose uptake 4-fold, but was without effect on alanine and glutamine release. Inhibition of glycolysis by iodacetate did not decrease the rate of alanine synthesis. The rates of alanine and glutamine synthesis and release from muscle decreased significantly during prolonged incubation despite a constant rate of glucose uptake and pyruvate production. Alanine synthesis and release were decreased by aminooxyacetic acid, an inhibitor of alanine aminotransferase. This inhibition was accompanied by a compensatory increase in the release of other amino acids, such as aspartate, an amino acid which was not otherwise released in appreciable quantities by muscle. The release of alanine, pyruvate, glutamate, and glutamine were observed to be interrelated events, reflecting a probable near-equilibrium state of alanine aminotransferase in skeletal muscle. It is concluded that glucose metabolism and amino acid release are functionally independent processes in skeletal muscle. Alanine release reflects the de novo synthesis of the amino acid and does not arise from the selective proteolysis of an alanine-rich storage protein. It appears that the rate of alanine and glutamine synthesis in skeletal muscle is dependent upon the transformation and metabolism of amino acid precursors.     

Metabolism of [14C]adenine and derivatives by cerebral tissues, superfused and electrically stimulated

1. Uptake of [(14)C]adenine and [(14)C]adenosine from surrounding fluids to guinea-pig cerebral tissues was measured during incubation in vitro. Output of (14)C-labelled compounds from the loaded tissues to superfusion fluids occurred on continued incubation, at about 0.2% of the tissue's content/min, and this rate was increased about fourfold by electrical excitation of the tissue. 2. The compounds released from the tissue to superfusion fluids included adenine, adenosine, inosine and hypoxanthine with small amounts of nucleotides. Output of all these compounds, except adenine, increased on excitation. Media depleted of oxygen or glucose also increased the output of (14)C-labelled derivatives from [(14)C]adenine-loaded tissues, and this augmented output was further increased by electrical stimulation. 3. [(14)C]Adenosine was found as the main product from [(14)C]ATP when this was added at low concentrations to fluids superfusing cerebral tissue. Metabolic and neurohumoural explanations of the liberation and action of adenosine derivatives in the tissue are discussed.     

Relationship between intracellular amino acids and protein synthesis in the extensor digitorum longus muscle of rats

1. The incorporation into protein, and the accumulation into the free amino acid pools, of radioactive l-leucine and glycine was studied in rat extensor digitorum longus muscle. 2. The tissue was incubated first with (14)C-labelled and then with (3)H-labelled amino acid. 3. The experimental results were consistent with a model based on the premise that the amino acids in protein were incorporated directly from the extracellular pool.     

The effects of electrical stimulation and ionic alterations on the metabolism of amino acids and proteins in excised superior cervical ganglia of the rat

Abstract— The effects of supramaximal electrical stimulation on the metabolism of amino acids and proteins in incubated superior cervical ganglia of the rat were studied by the use of a gas-liquid chromatographic (GLC) assay procedure. Stimulation at 5 Hz for 2 h caused an apparent increase in tissue levels of free amino acids, with alanine, serine, glycine, valine, threonine, isoleucine and aspartate (+ asparagine) most noticeably affected. The amino acid composition (partial) of the TCA-insoluble proteins of resting and stimulated ganglia was approximately the same after 60 min of incubation, but there was less TCA-insoluble protein in the stimulated ganglia. The addition of amino acids (at plasma concentrations) to the standard media had no apparent affect on the amino acid composition of this protein fraction. Stimulation for 0 , 5 h initially increased the efflux of alanine, valine, proline and ornithine into the incubation media but prolonged stimulation (for 4–0 h) decreased the efflux of alanine, serine, glycine and isoleucine and increased the efflux of lysine into the incubation media. The leakage of amino acids from the ganglia appeared to be a sodium-dependent process. The incorporation of ¹⁴C from [U-¹⁴C]glucose into glutamate (+ glutamine) and aspartate (+ asparagine) was greater in stimulated than in resting ganglia. However, the conversion of glutamate carbons from [U-¹⁴C]l -glutamate into aspartate was not affected by stimulation. Incorporation of ¹⁴C from [U-¹⁴C]glucose into glycine and serine was apparently not affected by stimulation during the 60 min of incubation. However, serine was the only amino acid which exhibited a higher specific radioactivity in stimulated ganglia than in resting ganglia incubated for 4 h in standard media. Lithium ions had the apparent specific effect of increasing the labelling with ¹⁴C from [U-¹⁴C]glucose into ornithine, and increasing the efflux and overall metabolism of serine in the ganglia. Incorporation of ¹⁴C from [U-¹⁴C]glucose into proteins was lower in the stimulated than in the resting ganglia if compensation was made for the higher radioactivity available in the total free amino acid pool of the stimulated ganglia. The rate of ¹⁴C incorporation from [U-¹⁴C]glutamate into the TCA-insoluble proteins of resting ganglia was greater when no other amino acids at concentrations approximating plasma levels were added to the bathing media; this rate was lower in stimulated than in resting ganglia.     

Metabolism of radiolabelled energy-yielding substrates by rat Sertoli cells

The rates of metabolism in vitro of 3H- or 14C-labelled glucose, pyruvate, glutamine and leucine by Sertoli cells from immature rats were estimated. The overall rate of glucose utilization exceeded by far the rates of oxidation of pyruvate (derived from glucose) via the citric acid cycle and glucose metabolism via the oxidative branch of the pentose phosphate pathway. This pattern of glucose metabolism was not markedly altered after stimulation of glucose metabolism by FSH. The rate of oxidation of exogenous pyruvate indicated that the energy yield from glucose metabolism by Sertoli cells could be dependent on the extracellular concentrations of pyruvate and lactate. There is no evidence that a high rate of aerobic glycolysis is of vital importance for Sertoli cells. In medium containing glucose and all amino acids, 14C-labelled glutamine and leucine were converted to 14CO2 at considerable rates. It was calculated that the oxidation of glutamine and leucine in addition to glucose and fatty acids can yield much of the required energy of Sertoli cells.     

THE RELATIONSHIP BETWEEN AMINO ACID INCORPORATION INTO PROTEIN IN ISOLATED NEOCORTEX SLICES AND THE TISSUE CONTENT OF FREE AMINO ACID

Abstract— The uptake of radioactive leucine by incubated neocortex slices was found to be increased by electrical stimulation, yielding a higher content of radioactive amino acid per g fresh weight of tissue which was maintained for prolonged periods of stimulation. The increased tissue content may be associated with tissue swelling found on electrical stimulation, but the additional amino acid uptake was by an active process rather than by passive diffusion. Additions of valine (2.5–10 m m ) or tryptophan (1 m m ) to the incubation medium was found to depress the tissue leucine content. Decreasing the tissue free leucine content by incubating slices in medium containing 5 m m -valine was found to decrease the incorporation of leucine and lysine into tissue protein, indicating that under these conditions tissue free amino acid becomes rate limiting for amino acid incorporation into protein. By analogy with the properties of cerebral tissue in oitro it is suggested that electrical activity in vivo may cause localized increases in free amino acid concentration which may serve to regulate protein synthesis in conditions where the concentration of free amino acids are rate limiting.     

Lactate carbon does not enter the sugars of lipopolysaccharide when gonococci are grown in a medium containing glucose and lactate: implications in vivo

In media containing glucose, lactate stimulates the metabolism of gonococci at concentrations that simulate conditions in vivo. Nuclear magnetic resonance (NMR) spectroscopy of (13)C-labelled lipids obtained from gonococci grown in a synthetic medium with (13)C-labelled lactate and unlabelled glucose (culture A), (13)C-labelled glucose alone (culture B) or (13)C-labelled glucose and unlabelled lactate (culture C) showed lactate carbon was not present in glycerol/ethanolamine residues of lipids from culture A. This indicated that, in the presence of glucose, lactate gluconeogenesis is shut down. Hence, the stimulation of metabolism could result from the production of extra energy because lactate is used solely for conversion to acetyl-CoA, the precursor of fatty acid synthesis and the components of the tricarboxylic acid cycle. In this paper, additional evidence for lack of gluconeogenesis has been sought using a different approach. The carbohydrate moieties of lipopolysaccharide (LPS) have been examined for lactate carbon after gonococci were grown with lactate and glucose. Two methods were used: NMR spectroscopy of (13)C-labelled lipopolysaccharide purified from the three cultures described above showed that, in the presence of glucose, lactate carbon, in contrast to glucose carbon, was not in the carbohydrate moiety. Also, (14)C-labelled lactate was added to a culture containing unlabelled glucose and lactate (culture A) and [(14)C]glucose to cultures containing unlabelled glucose without unlabelled lactate (culture B) and with unlabelled lactate (culture C). When LPS samples purified from these cultures were subjected to hydrazinolysis, the ratio of the radioactivity of water-soluble products (carbohydrate moieties) to those of chloroform-soluble products (fatty acids) was much lower when [(14)C]lactate was used in culture A, than when [(14)C]glucose was used in cultures B and C. Thus, in the presence of glucose, lactate carbon, unlike glucose carbon, is incorporated predominantly into fatty acids of LPS, not into its carbohydrate moieties. There is no doubt, therefore, that gluconeogenesis is shut off when lactate is present with glucose and there is a consequent stimulation of metabolism. This probably occurs in vivo on mucous surfaces, where gonococci are surrounded by a mixture of glucose and lactate in the secretions.     

Ca2+-dependence of the evoked release from guinea pig cerebral cortex slices of endogenous 14C-labelled amino acids, labelled via D-[U-14C]glucose.

Spontaneous and electrically evoked release of exogenous labelled amino acids and endogenous amino acids labelled from D-[U-14C]glucose were compared in control and Ca2+-free medium using guinea pig cerebral cortex slices. Spontaneous release of all labelled amino acids, except that of endogenous 14C-labelled threonine-serine-glutamine (unseparated) and exogenous [14C]aspartate, was doubled in Ca2+-free medium. The major portion of the electrically evoked release of endogenous [14C]glutamate, [14C]aspartate, gamma-amino[14C]butyrate (14C-labelled GABA) and exogenous 3H-labelled GABA was Ca2+-inpendent. More than half of the evoked release of the other labelled amino acids was Ca2+-independent. As the pattern of Ca2+-dependence of the evoked release concurred with the selectivity of the evoked release for endogenous [14C]-glutamate, [14C]aspartate, and 14C-labelled GABA, it was concluded that these labelled amino acids were probably released from the amino acid 'transmitter pool'.     

Some biochemical effects of triamcinolone acetonide on rat liver and muscle

1. The powerful anti-inflammatory glucocorticoid triamcinolone acetonide, administered to rats at 20 and 2.5mg/kg, leads to a decrease in the incorporation in vivo of [(3)H]uridine and [(32)P]orthophosphate into hind-limb skeletal muscle. 2. At the higher dose, this decrease in the rate of incorporation of precursors into RNA precedes a decrease in the incorporating ability of muscle ribosomes, which commences about 4-5h after drug administration, but is unaccompanied by any changes in the concentration of tissue ATP or free amino acids. 3. The ribosomal dysfunction extends to polyribosomes, which can only be successfully isolated from the muscle of triamcinolone-treated animals after the addition of alpha-amylase to the tissue homogenate to remove glycogen. 4. The specific radioactivity of muscle protein labelled in vivo with (14)C-labelled amino acids does not decrease progressively after triamcinolone administration. After 2h there is an apparent stimulation of incorporation which leads to an overall discrepancy between measurements of protein-synthetic activity made in vivo and in vitro. 5. There is a significant increase in muscle-glycogen concentration between 8 and 12h after the administration of triamcinolone acetonide (20mg/kg), although a significant decrease occurs after 4h. The fall in glycogen concentration may be due to a decrease in the rate of synthesis of protein essential for glucose uptake into the tissues. 6. As judged by (a) incorporation of (14)C-labelled amino acids into protein, (b) [(3)H]uridine and [(32)P]-orthophosphate incorporation into RNA, (c) the rate of induction of tryptophan pyrrolase and (d) changes in the pool sizes of taurine and tryptophan, the responses in liver followed the same time-course as those in muscle after administration of the drug.     

Lipogenesis and cholesterogenesis in the liver of rats after cholesterol loading

Intensity of fatty acids and separate classes of lipids synthesis was studied in vitro in the liver of white rats at loading by cholesterol in the dose of 300 mg/kg once a day during 30 days by incubation of organ homogenate with [6-(14)C] glucose, [2-(14)C] lysine, [1-(14)C] palmitic acid with following determination of radioactivity of fatty acids, phospholipids, cholesterol, acylglycerols radioactivity was investigated. The inhibition of fatty acids and separate classes of lipids synthesis in vitro in the liver of white rats at loading by cholesterol at the use of [6-(14)C] of glucose and [2-(14)C] lysine, as predecessors of fatty acids and lipids and stimulation of lipids synthesis at the use of [1-(14)C] palmitic acid as the predecessor was established. The loading of white rats by cholesterol results in its synthesis inhibition in the liver during incubation of its homogenates with [6-(14)C] glucose and does not influence the cholesterol synthesis during incubation of homogenates with [2-(14)C] lysine and [1-(14)C] palmitic acid. Thus synthesis of fatty acids and their use in the phospholipids and acylglycerols synthesis in the liver of white rats with hypercholesterolemia sharply decreases during incubation of their homogenates with [6-(14)C] glucose and [2-(14)C] lysine, and the synthesis of cholesterol, phospholipids and acylglycerols - increases during incubation with [1-(14)C] palmitic acid.     

A method for the estimation of amino acid radioactivity in biological samples

A method for quantitative estimation of total radioactivity present in the free amino acid fraction of tissue samples has been described. Samples deproteinized with cold acetone were extracted, in acidic medium, with ethyl (peroxide free); after centrifugation, the aqueous phase was used for amino acid derivatization at 40°C for 15 h with 1-flouro-2,4-dinitrobenzene in bicarbonate-buffered medium. Aliquots of the derivatized samples were acidified and extracted twice again with ethyl ether. The combined organic phases were placed in glass scintilation vials, dried, and used for the determination of its radiactivity, corresponding to the radioactivity present in the free amino acid fraction of the sample. Deproteinized samples of rat blood plasma, as well as hen egg white and yolk were tested after addition of known quantities of ¹⁴C-labelled amino acids or glucose, for validation of the method. No glucose radioactivity was found in any of the extracted samples. All radioactivity added to the samples in the form of ¹⁴C-labelled alanine, glutamic acid, leucine and phenylalanine was quantitatively recovered in the derivatized fraction; only a fraction of arginine radioactivity was recovered.     

Evidence of paternal nutrient provisioning to embryos in broad-nosed pipefish Syngnathus typhle

In two experiments, radioactively labelled nutrients (either (3)H-labelled amino-acid mixture or (14)C-labelled glucose) were tube-fed to brooding male Syngnathus typhle. Both nutrients were taken up by the males and radioactivity generally increased in the brood pouch tissue with time. Furthermore, a low but significant increase of (3)H-labelled amino acids in embryos was found over the experimental interval (48 h), whereas in the (14)C-glucose experiment the radioactivity was taken up by the embryos but did not increase over the experimental time (320 min). Uptake of radioisotopes per embryo did not differ with embryo size. A higher uptake mg(-1) tissue of both (3)H-labelled amino acids and (14)C-labelled glucose was found in smaller embryos, possibly due to a higher relative metabolic rate or to a higher surface-area-to-volume ratio compared to larger embryos. Uptake in embryos was not influenced by male size, embryonic developmental advancement or position in the brood pouch. It is concluded that brooding males provide amino acids, and probably also glucose, to the developing embryos in the brood pouch.     

Increase of the activity state and loss of total activity of the branched-chain 2-oxo acid dehydrogenase in rat diaphragm during incubation.

Actual and total branched-chain 2-oxo acid dehydrogenase activities were determined in homogenates of incubated diaphragms from fed and starved rats. Incubation in Krebs-Ringer buffer increased the activity state, but caused considerable loss of total activity. Palmitate oxidation rates and citrate synthase activities did not significantly change on incubation. Starved muscles showed a higher extent of activation after 15 min of incubation (not after 30 and 60 min) and a smaller loss of total activity. Experiments with the transaminase inhibitor amino-oxyacetate confirm that the contribution of endogenous amino acids to the oxidation precursor pool is also smaller in diaphragms from starved rats on incubation in vitro. These phenomena together cause the higher 14CO2 production from 14C-labelled branched-chain amino acids and 2-oxo acids in muscles from starved than from fed rats. High concentrations of branched-chain 2-oxo acids, and the presence of 2-chloro-4-methyl-pentanoate, octanoate or ketone bodies, increase the extent of activation of the dehydrogenase complex; glucose and pyruvate had no effect. The observed changes of the activity state by these metabolites are discussed in relation to their interaction with branched-chain 2-oxo acid oxidation in incubated hemidiaphragms.