scholarly journals Development of fatty acid oxidation in neonatal guinea-pig liver

1982 ◽  
Vol 208 (3) ◽  
pp. 723-730 ◽  
Author(s):  
D A Shipp ◽  
M Parameswaran ◽  
I J Arinze
Keyword(s):  
Fatty Acids ◽  
Fatty Acid ◽  
Guinea Pig ◽  
Ketone Bodies ◽  
Liver Mitochondria ◽  
Fatty Acyl ◽  
Acid Oxidation ◽  
Beta Oxidation ◽  
Pig Liver ◽  
Guinea Pig Liver

The capacity of foetal and neonatal liver to oxidize short-, medium- and long-chain fatty acids was studied in the guinea pig. Liver mitochondria from foetal and newborn animals were unable to synthesize ketone bodies from octanoate, but octanoylcarnitine and palmitoylcarnitine were readily ketogenic. The ketogenic capacity at 24 h after birth was as high as in adult animals. Hepatocytes isolated from term animals were unable to oxidize fatty acids, but at 6 h after birth production of 14CO2, acid-soluble products and acetoacetate from 1-14C-labelled fatty acids was 40-50% of the rates at 24 h. At 12 h of age these rates had already reached the 24 h values and did not change during suckling in the first week of life. The activities of hepatic fatty acyl-CoA synthetases, which were minimal in the foetus or at term, increased to maximal values in 12-24 h. The data show that the capacity for beta-oxidation and ketogenesis develops maximally in this species during the first 6-12 h after birth, and appears to be partly dependent on the development of fatty acid-activating enzyme.

scholarly journals Regulation of gluconeogenesis and lipogenesis. The regulation of mitochondrial pyruvate metabolism in guinea-pig liver synthesizing precursors for gluconeogenesis

1969 ◽  
Vol 112 (4) ◽  
pp. 435-447 ◽  
Author(s):  
Ethel W. Somberg ◽  
Myron A. Mehlman
Keyword(s):  
Fatty Acids ◽  
Guinea Pig ◽  
Organic Acids ◽  
Pyruvate Carboxylase ◽  
Liver Mitochondria ◽  
Carbon Chain ◽  
Carbon Chain Length ◽  
Metabolite Formation ◽  
Pig Liver ◽  
Guinea Pig Liver

1. The carboxylation of pyruvate to oxaloacetate by pyruvate carboxylase in guinea-pig liver mitochondria was determined by measuring the amount of 14C from H14CO3− fixed into organic acids in the presence of pyruvate, ATP, Mg2+ and Pi. The main products of pyruvate carboxylation were malate, fumarate and citrate. Pyruvate utilization, metabolite formation and incorporation of 14C from H14CO3− into these metabolites in the presence and the absence of ATP were examined. The synthesis of phosphoenolpyruvate from pyruvate and bicarbonate is minimal during continued oxidation of pyruvate. Larger amounts of phosphoenolpyruvate are formed from α-oxoglutarate than from pyruvate. Addition of glutamate, α-oxoglutarate or fumarate did not appreciably increase formation of phosphoenolpyruvate when pyruvate was used as substrate. With α-oxoglutarate as substrate addition of fumarate resulted in increased formation of phosphoenolpyruvate, whereas addition of succinate inhibited phosphoenolpyruvate formation. In the presence of added oxaloacetate guinea-pig liver mitochondria synthesized phosphoenolpyruvate in amount sufficiently high to play an appreciable role in gluconeogenesis. 2. Addition of fatty acids of increasing carbon chain length caused a strong inhibition of pyruvate oxidation and phosphoenolpyruvate formation, and greatly promoted carbon dioxide fixation and malate, citrate and acetoacetate accumulation. The incorporation of 14C from H14CO3−, [1−14C]pyruvate and [2−14C]pyruvate into organic acids formed was examined. 3. It is concluded that guinea-pig liver pyruvate carboxylase contributes significantly to gluconeogenesis and that fatty acids and metabolites play an important role in its regulation.

scholarly journals THE REDUCTION OF l-XYLULOSE TO XYLITOL BY GUINEA PIG LIVER MITOCHONDRIA

1956 ◽  
Vol 221 (2) ◽  
pp. 697-709 ◽  
Author(s):  
Oscar Touster ◽  
V.H. Reynolds ◽  
Ruth M. Hutcheson
Keyword(s):  
Guinea Pig ◽  
Liver Mitochondria ◽  
Pig Liver ◽  
Guinea Pig Liver

Reversal of mitochondrial swelling associated with fatty acid oxidation. II. Effects of cytochrome c and carnitine on contraction of fatty acid swollen mitochondria

1968 ◽  
Vol 46 (9) ◽  
pp. 1151-1160 ◽  
Author(s):  
Misako Nakatani ◽  
W. C. McMurray
Keyword(s):  
Fatty Acid ◽  
Cytochrome C ◽  
Energy Requirement ◽  
Liver Mitochondria ◽  
High Energy ◽  
Fatty Acyl ◽  
Water Soluble ◽  
Rat Liver Mitochondria ◽  
Acid Oxidation ◽  
Swelling Agent

Rat liver mitochondria undergo reversible swelling in the presence of a fatty acyl CoA generating system. Contraction of the swollen mitochondria was observed on the addition of either carnitine or cytochrome c. At low concentrations the two agents acted synergistically. At high concentrations cytochrome c completely replaced the requirement for carnitine.Cytochrome c also promoted the contraction of mitochondria swollen in the presence of fatty acid alone, provided that either ATP or ADP was added to initiate the contraction. The stimulation by cytochrome c was greater in the presence of ADP, and the contraction was more sensitive to respiratory inhibitors or dinitrophenol but was less sensitive to oligomycin than in the presence of ATP. Studies of the metabolism of 14C-labelled palmitate during cytochrome c induced contraction showed that decreases in mitochondrial-bound fatty acid and corresponding increases in water-soluble metabolites coincided with the reversal of swelling. The results indicated that the energy requirement for mitochondrial contraction in the presence of cytochrome c was provided by generation of high-energy intermediates coupled to oxidation of the fatty acid swelling agent.

Transport of ascorbate into guinea pig liver mitochondria

1982 ◽  
Vol 684 (1) ◽  
pp. 21-26 ◽  
Author(s):  
Ole Christian Ingebretsen ◽  
Per T. Normann
Keyword(s):  
Guinea Pig ◽  
Liver Mitochondria ◽  
Pig Liver ◽  
Guinea Pig Liver

Convenient biosynthetic preparation of isomeric spin-labelled radioactive phosphatidic acids

1982 ◽  
Vol 60 (11) ◽  
pp. 1014-1017 ◽  
Author(s):  
L. Stuhne-Sekalec ◽  
N. Z. Stanacev
Keyword(s):  
Fatty Acids ◽  
Guinea Pig ◽  
Stearic Acid ◽  
Liver Microsomes ◽  
Enzymatic Preparation ◽  
Pig Liver ◽  
Secondary Hydroxyl ◽  
Phosphatidic Acids ◽  
Guinea Pig Liver Microsomes ◽  
Guinea Pig Liver

A convenient method for the enzymatic preparation of sn-3-[2-3H]phosphatidic acids carrying also 5-, 12-, or 16-nitroxide stearic acids, from sn-3-[2-3H]glycerophosphate and isolated guinea pig liver microsomes, is described in detail. The procedure allows a simultaneous preparation of three spin-labelled sn-3-[2-3H] phosphatidic acids of yields 3–3.5 μmol of each compound which is > 99% pure in respect to the radioactivity and which contains 25 mol% of spin-labelled fatty acids. These phosphatidic acids were approximately equally distributed between the primary and the secondary hydroxyl when 12- or 16-nitroxide stearic acids were used or predominantly (75%) associated with the secondary hydroxyl of sn-3-[2-3H]phosphatidic acid when 5-nitroxide stearic acid was present in the incubation mixture.

Relation of hepatic ketogenesis to radiation-induced decrease in fasting ketonemia

1960 ◽  
Vol 198 (1) ◽  
pp. 33-36
Author(s):  
Joseph A. Ontko
Keyword(s):  
Fatty Acid ◽  
Oxidase Activity ◽  
Ketone Bodies ◽  
Liver Mitochondria ◽  
Whole Body ◽  
Acid Oxidation ◽  
Hepatic Glycogen ◽  
Acid Oxidase ◽  
Liver Slices ◽  
Radiation Induced

Male, weanling rats were exposed to 500 r of whole-body x-irradiation and then fasted. Control rats were concurrently fasted. Ketonemia, ketonuria, hepatic glycogen, ketogenesis by liver slices and fatty acid oxidase activity of liver mitochondria were measured. A radiation-induced decrease in fasting ketonemia was observed. This decrease was mainly in the ß-hydroxybutyric acid fraction. Ketonuria was similar in both control and irradiated lots the 1st postirradiation day and lower in the irradiated lot during the 2nd day. Decreased ketonemia in the irradiated rats, which exhibited diuresis, was thus apparently not due to increased urinary excretion of ketone bodies. Ketogenesis by liver slices from irradiated rats was depressed. This indicated that an antiketogenic process contributed to the radiation-induced decrease in fasting ketonemia. Fatty acid oxidase activity of liver mitochondria isolated from control and irradiated rats was similar. Thus, rate-limiting fatty acid oxidizing enzymes were not altered by radiation under these conditions. This illustrates an apparent modifying effect of other cellular fractions on fatty acid oxidation in mitochondria.

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