Metabolism of [1-14C]glyoxylate, [1-14C]-glycollate, [1-14C]glycine and [2-14C]-glycine by homogenates of kidney and liver tissue from hyperoxaluric and control subjects

1. The metabolism of [1-(14)C]glyoxylate to carbon dioxide, glycine, oxalate, serine, formate and glycollate was investigated in hyperoxaluric and control subjects' kidney and liver tissue in vitro. 2. Only glycine and carbon dioxide became significantly labelled with (14)C, and this was less in the hyperoxaluric patients' kidney tissue than in the control tissue. 3. Liver did not show this difference. 4. The metabolism of [1-(14)C]glycollate was also studied in the liver tissue; glyoxylate formation was demonstrated and the formation of (14)CO(2) from this substrate was likewise unimpaired in the hyperoxaluric patients' liver tissue in these experiments. 5. Glycine was not metabolized by human kidney, liver or blood cells under the conditions used. 6. These observations show that glyoxylate metabolism by the kidney is impaired in primary hyperoxaluria.     

Metabolism of ent-kaurenol-[17-14C], ent-kaurenal-[17-14C] and ent-kaurenoic acid-[17-14C] by germinating Hordeum distichon grains

Subcellular fractions from germinated barley embryos, chloroplast preparations and whole germinating barley grains are able to carry out the conversions ent-kaurenol → ent-kaurenal → ent-kaurenoic acid → ent-hydroxykaurenoic acid, the initial steps of the biosynthetic pathway to gibberellins. Whole grains, and chloroplasts to a slight extent, incorporate radioactivity from ent-kaurenol-[17-¹⁴C] and ent-kaurenoic acid-[17-¹⁴C] into materials with similar but distinct properties from the gibberellins GA₁, GA₃, GA₄ and GA₇.     

In vitro oxidation of [U-14C] palmitate, [1-14C] and [6-14C] glucose in newborn and adult rats and pigs

Studies have been made on the intensity of oxidation of [U-14C]-palmitate, [1-14C]- and [6-14C]-glucose by slices of the liver and skeletal muscles of new-born, 1-day, 5-day and adult Wistar rats and domestic pigs. It was found that the level of 14CO2 production from these substrates is higher in tissues of rats than in those of pigs. At early stages of ontogenesis, in tissues of both species intensive oxidation of glucose is observed together with oxidation of fatty acids. In the course of ontogenetic development, the intensity of glucose utilization significantly decreases, whereas the level of fatty acid catabolism remains relatively unaffected.     

Pathways of Utilization of [1-14C] Glucose and [6-14C] Glucose in Slices of Peas

Slices of ripening seeds of the pea (Pisum sativum) were suppliedwith [1-¹⁴C] G and [6-¹⁴C] G, and the S.A. was determined ofthe respirod carbon dioxide, pyruvate, and the acids of theT.C.A.C. as well as that of the individual carbon atoms of citrateand malate. The possibility that there exist active and inactive pools ofthe T.C.A.C. acids in the pea is considered and, for most ofthe acids, rejected. The results cannot be explained on the bais of the T.C.A.C.because the S.A. of the carbon dioxide liberated was some tentimes higher than could have come from the malate via the T.C.A.C.,too much ¹⁴C accumulated in the cycle acids to have come frompyruvate by the operation of the T.C.A.C., and the patterrnof label in citrate and malate was different from that expected. An alternative explanation is put forward based on the oxidationof glucose by the P.P.P. and movement of ¹⁴C by a series ofrapid isotope exchange reactions.     

Isoprenoid biosynthesis in a marine sponge of the Amphimedon genus: incorporation studies with [1-14C] acetate, [4-14C] cholesterol and [2-14C] mevalonate

1. We present quantitative evidence from incorporation of [1-14C] acetate that the enzymes to synthesise isoprenoids are present in the marine sponge Amphimedon sp. and that efficient carotenoid synthesis takes place. 2. The de novo synthesis of b,b-carotene and (3R,3'R)-zeaxanthin may occur in a chlorophyll a-producing microalgal symbiont with subsequent aromatisation to (3R)-isoagelaxanthin by the sponge itself. 3. Amphimedon sp. contains nuclear-modified sterols derived by modification of conventional dietary sterols.     

Biosynthesis of [14C]zearalenone from [1-14C]acetate by Fusarium roseum 'Gibbosum'.

Addition of [1-14C]acetate or [1,2-14C]acetate to actively growing cultures of Fusarium roseum 'Gibbosum' on rice yielded zearalenone with a specific activity ranging between 1.63 and 46.5 microCi/mmol.     

Stearoyl[1-14C]sulfogalactosylsphingosine ([14C]sulfatide) as substrate for cerebroside sulfatase assay

A convenient method for large scale preparation of stearoyl[1-¹⁴C]sulfogalactosylsphingosine has been developed. The first step consists in preparing the lysosulfatide intermediate with a good yield, which we have successfully performed. In the second step, the lysoderivative is coupled to [1-¹⁴C]stearic acid through the acyl chloride procedure. The labeled substrate thus synthetized appears to be particularly convenient for cerebroside sulfatase determination, because of the stability of the ¹⁴C isotope, compared to the other isotopes (tritium or ³⁵S) which have been previously used for the same purpose.     

Lactoperoxidase-catalyzed oxidation of [4-14C]estradiol

The conversion of [4-14C]estradiol to water-soluble products by lactoperoxidase (EC 1.11.1.7) in the presence of added or generated H2O2 was studied using albumin or tyrosine as acceptor. The enzyme was able to catalyze the oxidation and binding of estradiol to albumin even in the absence of 2,4-dichlorophenol at very low concentrations of hydrogen peroxide. Other systems in which H2O2 was replaced by oxygen and Mn2+, light-sensitized riboflavin or glutathione was also shown to be active in the conversion of estradiol to water-soluble products and the effect of inhibitors on these reactions was investigated. Possible mechanisms for the peroxidase-catalyzed formation of these estradio metabolites are discussed.     

A difference in the incorporation of 14C into hippurate glycine from dl-[2-14C]glutamate and dl-[5-14C]glutamate in guinea pigs

The specific radioactivity of urinary hippurate glycine was determined after injecting guinea pigs with benzoate and either dl-[2-(14)C]glutamate or dl-[5-(14)C]glutamate. The isotope dilution factor for the formation of [(14)C]glycine was significantly greater (30%) with C-2 labelled glutamate. With either form of labelled glutamate the hippurate glycine was largely carboxyl-group labelled. The observations suggest a route for the incorporation of glutamate carbon into glycine that involves C-5 but not C-2. A hypothesis for glycine biosynthesis from l-glutamate is advanced, consistent with these findings, that includes conversion of l-glutamate to 4-hydroxy-2-oxoglutarate, the scission of the latter to glyoxylate and pyruvate, and the formation of glycine by transamination.     

Respiration of 14CO2 by intact animals of various species given l-[1-14C]fucose or d-[1-14C]arabinose

The production of ¹⁴CO₂ from l-[1-¹⁴C]fucose and d-[1-¹⁴C]arabinose has been studied in five mammalian species.Cats, guinea pigs, mice, and rabbits respired about 22% of the label of l[1-¹⁴C]fucose or of d-[1-¹⁴C]arabinose within 6 h after intraperitoneal injection of the sugar. Rats respired only 1.5% of the l-fucose label and 5% of the d-arabinose label in the same time period.Liver homogenates from cat, guinea pig, and rabbit produced significantly more ¹⁴CO₂ from l-[1-¹⁴C]fucose or d-[1-¹⁴C]arabinose than mouse or rat liver homogenates. Unlike those of the other species, guinea pig liver homogenates had very low l-fucose dehydrogenase activity.The results suggest that substantial catabolism of l-fucose and d-arabinose occurs in the tissues of some animal species. Investigators wishing to employ l-fucose as a tracer of glycoprotein metabolism must, therefore, ensure that the species that they employ does not metabolize l-fucose to products interfering with their studies.     

The chemical synthesis and biological oxidation of 7α-hydroxy[26-14C]cholesterol, 7-dehydro[26-14C]cholesterol and 26-hydroxy[26-14C]cholesterol

1. 26-Hydroxycholesterol was obtained by reducing the methyl ester of (±)-3β-hydroxycholest-5-en-26-oic acid, which was synthesized from 25-oxonorcholesterol. 2. Methods for preparing 7α-hydroxycholesterol and 7-dehydrocholesterol were modified to allow the micro-scale preparation of these [¹⁴C]sterols from [26-¹⁴C]-cholesterol. 3. 26-Hydroxycholesterol was oxidized more readily than 7α-hydroxycholesterol, 7-dehydrocholesterol or cholesterol by mitochondrial preparations from livers of mice, rats, guinea pigs, common toads (Bufo vulgaris) and Caiman crocodylus. 4. (±)-3β-Hydroxy[26-¹⁴C]cholest-5-en-26-oic acid was oxidized very rapidly to ¹⁴CO₂ by mouse and guinea-pig mitochondria without evident discrimination between the two optical isomers. 5. An enzyme system that oxidizes 26-hydroxycholesterol to 3β-hydroxycholest-5-en-26-oic acid was identified in the soluble extract of rat-liver mitochondria. This enzyme could use NADP in place of NAD but was not identical with liver alcohol dehydrogenase (EC 1.1.1.1). 6. [26-¹⁴C]Cholesteryl 3β-sulphate was not oxidized by fortified mouse-liver preparations that oxidized [26-¹⁴C]cholesterol to ¹⁴CO₂.