Effect of hyperbarism on collagenous protein metabolism in granulation tissue.

Rats with subcutaneously implanted polyurethane sponges were exposed 6 hours daily for 7 days to high ambient atmospheric pressures (1.5, 2, 2.5 and 3 ATA). Another group was exposed 4 hours daily for 4 weeks to 3 ATA before inducing granulation tissue formation. 14C-proline was administered 16 hours before terminating the experiment. Free hydroxyproline, soluble and insoluble collagen and total noncollagenous protein were isolated from the 7-day granuloma and the amount and radioactivity of 14C-hydroxyproline and 14C-proline were determined. Seven days' graduated hyperbarism did not affect collagen synthesis; the maturation of collagen to insoluble forms was inhibited at 2 and 2.5 ATA, but not at 3 ATA. Stimulated degradation of collagen (free hydroxyproline) was observed at 2, 2.5 and 3 ATA. In animals subjected to long-term exposure at 3 ATA pressure, the collagen in the granuloma matured to insoluble forms more quickly. Biochemical changes were correlated with changes in the fine structure of the granulation tissue. The appearance of the fibroblast proteosynthetic apparatus was not influenced by hyperbarism. Progressive spherical transformation, fusion of mitochondria and lysosomal activation in the pericapillary fibroblasts occurred at 2, 2.5 and 3 ATA. In short-term experiment, the formation of cytosegresomes and cellular necrosis also contributed to the effect at 3 ATA, which is thus already a toxic pressure for granulation tissue.     

Changes of glucose metabolism and skin-collagen neogenesis in vitamin B6 deficiency

The mechanism of pellagrous changes in skin caused by a deficiency of vitamin B6 was studied in respect to neogenesis of proline in skin collagen and glucose metabolism. In vitamin B6 deficiency the insulin/glucagon coefficient in serum decreased significantly from 3.02 to 2.32, indicating a metabolic change towards gluconeogenesis. A deficiency of vitamin B6 caused a decrease in the levels of vitamin B6-dependent enzymes, such as ornithine aminotransferase, alanine aminotransferase, and aspartate aminotransferase, which also contribute to gluconeogenesis. Because the conversion of ornithine to proline via pyrroline-5-carboxylate was suppressed due to the decrease in ornithine aminotransferase activity, the amount of proline in the skin collagen fraction also decreased significantly in vitamin B6-deficient rats compared with the pair-fed control. These results suggest that the pellagrous lesions in vitamin B6-deficiency are caused by an impaired synthesis of proline from ornithine, which results in the suppression of collagen neogenesis in the skin.     

Effect of colchicine on atherosclerosis. II. Biochemical studies on skin biopsies from patients treated perorally with colchicine

The biosynthesis of proteins and glycosaminoglycans (GAGs) was determined in skin biopsies from atherosclerotic patients treated perorally for 3 months with 1 mg/day colchicine. The biopsies were incubated with 3H-glucosamine and 14C-proline for 5 h and subsequently digested with pronase. In an aliquot of the pronase digest, the specific radioactivity of 14C-proline and 14C-hydroxyproline were determined. The 3H-glucosamine-labeled GAGs were identified by specific enzymic assay and quantified after electrophoretic separation. 3 months treatment with colchicine did not modify the total amounts of proline and hydroxyproline in skin proteins, but diminished the amount of the GAGs as expressed by uronic acid content. Colchicine treatment decreased also the specific radioactivity of proline and hydroxyproline, which reflects a decrease of total protein and collagen synthesis. The incorporation of 3H-glucosamine in the 3H-GAGs was also decreased, mainly in hyaluronic acid. These results suggest that peroral administration of colchicine modifies the synthesis of extracellular matrix proteins and polysaccharides by skin fibroblasts.     

16,16 Dimethyl prostaglandin E2 decreases the formation of collagen in fibrotic rat liver slices

The effect of 16,16 dimethyl prostaglandin E2 (DMPG) on fibrogenesis was studied in slices from normal and fibrotic rat liver. Rats received a cirrhogenic diet for seven months; supplemented controls received a diet with the deficient nutrients restored. Slices from fibrotic livers incorporated more 14C-proline and produced more 14C-hydroxyproline in TCA precipitable proteins than slices from control livers. DMPG (10(-10) M) decreased the incorporation of labeled proline and the synthesis of labeled hydroxyproline in slices from fibrotic livers to the same extent, suggesting that DMPG did not affect the hydroxylation of proline per se. The magnitude of the DMPG induced decrease in labeled proline incorporation correlated with the hydroxyproline content in the liver (i.e. with increasing fibrosis there was a greater effect of DMPG: while in control rat liver slices, DMPG had no effect). DMPG did not change the size of the proline pool, its specific activity, or the activity of proline oxidase. We conclude that under these conditions of enhanced fibrogenesis, DMPG decreases the formation of collagen in vitro, possibly by lowering the incorporation of proline into collagen precursors. This may explain, at least in part, the inhibition of fibrogenesis by DMPG in vivo.     

Enzymes of ornithine metabolism in adult and developing rat intestine.

The levels of 11 enzymes, most of them involved in the metabolism of ornithine, were measured in whole upper intestine, or in duodenum, small intestine and colon of adult rats. The developmental formations in small intestine of arginase, ornithine aminotransferase, and ornithine transcarbamylase were compared with those in liver. Changes with age (late gestation of adult) of the intestinal activities of pyrroline-5-carboxylate reductase, proline oxidase and glutamyl transpeptidase are also described. The results suggest that the proximal part of the intestine is well endowed with enzymes involved in the conversion of ornithine to proline as well as to citrulline. Fetal intestine is rich in proline oxidase and pyrroline-5-carboxylate reductase. The peak levels of ornithine aminotransferase found in intestine in the first 3 postnatal weeks were higher than seen in any other rat tissue. Some of the properties of arginase, ornithine aminotransferase and pyrroline-5-carboxylate reductase in small intestine were compared with those in liver. Isozymes of arginase in small intestine differed from those in liver; the kinetic properties of ornithine aminotransferase were similar in the two tissues. In intestine of 14-day-old rats, the ornithine aminotransferase reaction was reversible, forming ornithine from pyrroline-5-carboxylate. The intestinal pyrroline-5-carboxylate reductase was cold-labile as was the hepatic enzyme in rat.     

Studies in vivo on the biosynthesis of collagen and elastin in ascorbic acid-deficient guinea pigs. Evidence for the formation and degradation of a partially hydroxylated collagen

1. After the administration of l-[G-(3)H]proline to guinea pigs deprived of ascorbic acid for increasing periods of time, the specific radioactivities of proline and hydroxyproline in skin collagen and aortic elastin were determined at various time-intervals after administration of the labelled compound with a view to studying the formation and degradation of collagen and elastin both deficient in hydroxyproline. 2. As judged from the incorporation of radioactivity into elastin proline, elastin synthesis was not decreased in the ascorbic acid-deficient animals. There was however, a rapid decline in the specific radioactivity of elastin hydroxyproline. The proline/hydroxyproline specific-radioactivity ratio was approx. 1.5:1 after 6 days and 20:1 after 12 days of ascorbic acid deprivation, in contrast with the ratio of 1:1 in controls. The results suggested that the effect of ascorbic acid deficiency on elastin biosynthesis could be regarded as simply an elimination of hydroxylation of elastin proline with the formation and retention of a polymer increasingly deficient in hydroxyproline. 3. Collagen proline and hydroxyproline specific radioactivities were derived from material that was soluble in hot trichloroacetic acid, non-diffusible and collagenase-degradable. In contrast with elastin, there was a rapid decline in the specific radioactivity of proline as well as hydroxyproline in collagen from the ascorbic acid-deficient animals. However, the proline/hydroxyproline specific-radioactivity ratio in all samples from scorbutic animals was consistently slightly above 1:1. The results suggest the appearance in place of collagen, but in rapidly diminishing amounts, of a partially hydroxylated collagen in which the degree of hydroxylation may be decreased only by approx. 10%. 4. Incorporation of radioactivity into the diffusible hydroxyproline in skin remained relatively high despite the rapid decline in the incorporation of radioactivity into collagen. This observation is interpreted as indicative of an increasing degree of degradation of partially hydroxylated collagen to diffusible peptides. An alternative explanation might be that partially hydroxylated peptides are released to an increasing extent from ribosomes before they attain a length at least sufficient to render them non-diffusible. In either case it implies the accumulation in scurvy of low-molecular-weight peptides enriched in proline and deficient in hydroxyproline and could explain the failure to accumulate a high-molecular-weight collagen deficient in hydroxyproline. 5. It is thought, however, that, in addition, an inhibition of ribosomal amino acid incorporation leading to decreased synthesis of partially hydroxylated collagen may also occur, perhaps secondarily to impaired hydroxylation.     

Oestradiol inhibits collagen breakdown in the involuting rat uterus

1. The earlier observation (Woessner, 1969) of oestradiol inhibition of collagen breakdown is confirmed and extended. Administration of 100mug of oestradiol-17beta/day to parturient rats strongly inhibits the loss of collagen from the involuting uterus. Three experiments show that this effect is due to an inhibition of collagen degradation rather than to a stimulation of collagen synthesis. 2. Uterine collagen was labelled with hydroxy[(14)C]-proline by the administration of [(14)C]proline near the end of pregnancy. By 3 days post partum, control uteri lost 83% of their collagen and 90% of their hydroxy[(14)C]proline. Uteri from oestradiol-treated rats lost only 50% of both total and labelled hydroxyproline, with no decrease in the specific radioactivity of the hydroxyproline. 3. Incorporation of [(14)C]proline into uterine collagen hydroxyproline in vivo was not affected by oestradiol treatment. 4. Urinary excretion of hydroxyproline was increased in post-partum control rats and decreased in oestradiol-treated rats. 5. An enzyme capable of cleaving 4-phenylazobenzyloxycarbonyl-l-prolyl-l-leucylglycyl- l-prolyl-d-arginine (a substrate for clostridial collagenase) increased in activity in the post-partum uterus and was unaffected by oestradiol treatment. 6. Uterine homogenates digested uterine collagen extensively at pH3.2. This digestion was unaffected by the oestradiol treatment. 7. Lysosomal fractions prepared by density-gradient centrifugation of uterine homogenates contained coincident peaks of cathepsin D activity and peptide-bound hydroxyproline. The cathepsin D and hydroxyproline contents of this peak were unaffected by oestradiol treatment.     

Dietary silicon and arginine affect mineral element composition of rat femur and vertebra

Both arginine and silicon affect collagen formation and bone mineralization. Thus, an experiment was designed to determine if dietary arginine would alter the effect of dietary silicon on bone mineralization and vice versa. Male weanling Sprague-Dawley rats were assigned to groups of 12 in a 2×2 factorially arranged experiment. Supplemented to a ground corn/casein basal diet containing 2.3 μg Si/g and adequate arginine were silicon as sodium metasilicate at 0 or 35 μg/g diet and arginine at 0 or 5 mg/g diet. The rats were fed ad libitum deionized water and their respective diets for 8 wk. Body weight, liver weight/body weight ratio, and plasma silicon were decreased, and plasma alkaline phosphatase activity was increased by silicon deprivation. Silicon deprivation also decreased femoral calcium, copper, potassium, and zinc concentrations, but increased the femoral manganese concentration. Arginine supplementation decreased femoral molybdenum concentration but increased the femoral manganese concentration. Vertebral concentrations of phosphorus, sodium, potassium, copper, manganese, and zinc were decreased by silicon deprivation. Arginine supplementation increased vertebral concentrations of sodium, potassium, manganese, zinc, and iron. The arginine effects were more marked in the silicon-deprived animals, especially in the vertebra. Germanium concentrations of the femur and vertebra were affected by an interaction between silicon and arginine; the concentrations were decreased by silicon deprivation in those animals not fed supplemental arginine. The change in germanium is consistent with a previous finding by us suggesting that this element may be physiologically important, especially as related to bone DNA concentrations. The femoral and vertebral mineral findings support the contention that silicon has a physiological role in bone formation and that arginine intake can affect that role. The U.S. Department of Agriculture, Agricultural Research Service, Northern Plains Area is an equal opportunity/affirmative action employer, and all agency services are available without discrimination. Mention of a trademark or proprietary product does not constitute a guarantee or warranty of the product by the U.S. Department of Agriculture and does not imply its approval to the exclusion of other products that may be suitable.     

MORPHOLOGICAL AND CHEMICAL STUDIES OF COLLAGEN FORMATION : II. Metabolic Activity of Collagen Associated with Subcellular Fractions of Guinea Pig Granulomata

Electron micrographs of thin sections of nuclear, microsomal, and mitochondrial fractions obtained from a carrageenin-induced granuloma showed considerable contamination of the heavier by the lighter fractions. Striated collagen fibrils could be identified in the nuclei + debris fraction. Only a few striated fibrils occurred in the mitochondrial fraction; very fine filaments (diameter 50 A) could be seen in this fraction, but could not be distinguished with certainty from fibrillar material derived from broken nuclei. 35 per cent of the mitochondrial and 80 per cent of the microsomal collagen was extractable by 0.2 M NaCl and could be purified by the standard methods of solution and reprecipitation. The amino acid composition of these collagen fractions determined by ion exchange chromatography was within the range normally found for collagen and gelatin from other mammalian species, allowing for 10 to 20 per cent of some non-collagenous contaminant of the microsomal collagen. Hydroxyproline and proline were isolated by chromatography on paper from hydrolysates of the nuclear, mitochondrial, and microsomal collagen fractions, after incubation of tissue slices with L-¹⁴C-proline. The specific activities of the hydroxyproline from these collagens were in the approximate ratio 1:2:6, while that of bound hydroxyproline derived from the supernatant was only 1, indicating primary synthesis of collagen in the microsomes. Attempts to demonstrate incorporation of L-¹⁴C-proline into collagen or into free hydroxyproline in cell free systems were unsuccessful, nor was it possible to demonstrate non-specific incorporation of L-¹⁴C-valine into TCA-insoluble material by various combinations of subcellular fractions.     

Induction of arginase I and II in bleomycin-induced fibrosis of mouse lung

Arginase, which hydrolyzes arginine to urea and ornithine, is a precursor for the synthesis of polyamines and proline, which is abundant in collagen. The supply of proline can be a crucial factor in the process of lung fibrosis. We investigated the induction of arginine metabolic enzymes in bleomycin-induced mouse lung fibrosis. Histological studies and quantification of lung hydroxyproline showed that lung fibrosis develops in up to 14 days after bleomycin treatment. Under these conditions, collagen I mRNA was induced gradually in up to 15 days, and the content of hydroxyproline reached a maximum at 10 days. Arginase I mRNA was undetectable before bleomycin treatment but was induced 5-10 days after this treatment. Arginase I protein was induced at 7 days and remained little changed for up to 10 days and decreased at 14 days. On the other hand, arginase II mRNA that was detectable before treatment was increased gradually for up to 10 days and decreased at 14 days. Arginase II protein began to increase at day 5, increased for up to 10 days, and was decreased at day 14. mRNAs for cationic amino acid transporter-2 and ornithine decarboxylase were induced in a manner similar to that seen with collagen I mRNA. Immunohistochemical analysis showed that arginase I is induced in macrophages, whereas arginase II is induced in various cell types, including macrophages and myofibroblasts, and roughly colocalizes with the collagen-specific chaperone heat shock protein 47. Our findings suggest that arginine metabolic enzymes play an important role in the development of lung fibrosis, at least in mice.     

Enzymes of orithine metabolism in adult developing rat intestine

The levels of 11 enzymes, most of them involved in the metabolism of orithine, were measured in whole upper intestine, or in duodenum, small intestine and colon of adult rats. The developmental formations in small intestine of arginase, orithine aminotransferase, and orithine transcarbamylase were compared with those in liver. Changes with age (late gestation to adult) of the intestinal activities of pyrroline-5-carboxylate reductase, proline oxidase and glutamyl transpeptidase are also described.The results suggests that the proximal part of the intestine is well endowed with enzymes involved in the conversion of ornithine to proline as well as to citrulline. Fetal intestine is rich in proline oxidase and pyrroline-5-carboxylate reductase. The peak levels of ornithine aminotraferase found in intestine in the first 3 postnatal weeks were higher than seen in any other rat tissue.Some of the properties of arginase, ornithine aminotransferase and pyrroline-5-carboxylate reductase in small intestine were compared with those in liver. Isozymes of arginase in small intestine differed from those in liver; the kinetic properties of ornithine aminotransferase were similar in the two tissues. In intestine of 14-day-old rats, the orithine aminotransferase reaction was reversible, forming ornithine from pyrroline-5-carboxylate. The intestinal pyrroline-5-carboxylate reductase was cold-labile as was the hepatic enzyme in rat.     

16, 16 Dimethyl prostaglandin E2 decreases the formation of collagen in fibrotic rat liver slices

The effect of 16, 16 dimethyl prostaglandin E₂ (DMPG) on fibrogenesis was studied in slices from normal and fibrotic rat liver. Rats received a cirrhogenic diet for seven months; supplemented controls received a diet with the deficient nutrients restored. Slices from fibrotic livers incorporated more ¹⁴C-proline and produced more ¹⁴C-hydroxyproline in TCA precipitable proteins than slices from control livers. DMPG (10^−10M) decreased the incorporation of labeled proline and the synthesis of labeled hydroxyproline in slices from fibrotic livers to the same extent, suggesting that DMPG did not affect the hydroxylation of proline per se. The magnitude of the DMPG induced decrease in labeled proline incorporation correlated with the hydroxyproline content in the liver (i.e. with increasing fibrosis there was a greater effect of DMPG; while in control rat liver slices, DMPG had no effect). DMPG did not change the size of the proline pool, its specific activity, or the activity of proline oxidase. We conclude that under these conditions of enhanced fibrogenesis, DMPG decreases the formation of collagen in vitro, possibly by lowering the incorporation of proline into collagen precursors. This may explain, at least in part, the inhibition of fibrogenesis by DMPG in vivo.     

Influence of bleomycin on the metabolism of dermal collagen in albino rats

The metabolism of collagen in male rats by treatment with bleomycin was studied following the injection of [3H]proline and the determination of specific and total activity of [3H]hydroxyproline in skin collagen fractions and urine. In the case of the bleomycin-treated animals, there was found to be an increase in the neutral salt soluble collagen content with no change in insoluble collagen content as compared to the control group. The specific and total radioactivity of [3H]hydroxyproline in soluble and insoluble collagen fractions was also increased. Examination of [3H]hydroxyproline activity in soluble and insoluble collagen showed that the conversion of soluble to insoluble collagen was improved by the bleomycin-treated group. It was found that this was accompanied by a decrease in urinary excretion of total hydroxyproline and [3H]hydroxyproline during the first 12 hr after the administration of [3H]proline. Therefore, the results of the present investigation clearly indicate that the maturation of soluble to insoluble collagen is promoted and accompanied by a decrease in the catabolism of soluble collagen in the bleomycin-treated animals. In addition, administration of bleomycin increased the synthesis of collagen.     

Reduction of chronic hypoxic pulmonary hypertension in the rat by beta-aminopropionitrile

We administered antifibrotic agent beta-aminopropionitrile (BAPN) to rats exposed to 10% O2-90% N2 for 3 wk to prevent excess vascular collagen accumulation. Groups of Sprague-Dawley rats studied were air breathing, hypoxic, and hypoxic treated with BAPN, 150 mg/kg twice daily intraperitoneally. After the 3-wk period, we measured mean right ventricular pressure (RVP), the ratio of weight of right ventricle to left ventricle plus septum (RV/LV + S), and hydroxyproline content of the main pulmonary artery (PA) trunk. Hypoxia increased RVP from 14 to 29 mmHg; RVP was 21 mmHg in hypoxic BAPN-treated animals. Hypoxia increased the RV/LV + S ratio from 0.28 to 0.41; the ratio was 0.32 in hypoxic BAPN-treated animals. Hypoxia increased PA hydroxyproline from 20 to 239 micrograms/artery; hydroxyproline was 179 micrograms/artery in hypoxic BAPN-treated animals. Thus BAPN prevented pulmonary hypertension, right ventricular hypertrophy, and excess vascular collagen produced by hypoxia. We conclude that vascular collagen contributes to the maintenance of chronic hypoxic pulmonary hypertension.     

Studies in vivo on the biosynthesis of collagen and elastin in ascorbic acid-deficient guinea pigs

1. After the administration of labelled proline to guinea pigs deprived of ascorbic acid for 15 days, the dorsal skin was examined 5 days later in an attempt to detect the presence of hydroxyproline-deficient collagen (protocollagen). The extent of incorporation of proline into skin collagens indicated a severe impairment of collagen synthesis. 2. A comparison of proline and hydroxyproline specific radioactivities in diffusible peptides obtained by treatment with collagenase of either purified skin collagens or direct hot-trichloroacetic acid extracts of skin failed to indicate the presence of protocollagen. Possible reasons for this are discussed. 3. The incorporation results did not indicate an inability of normal collagen, i.e. collagen hydroxylated to the normal degree, to cross-link in scurvy. 4. Incorporation of labelled proline into aortic elastin isolated from the same animals did not indicate a decrease in elastin biosynthesis in ascorbic acid deficiency, beyond that attributable to the inanition accompanying the vitamin deficiency. The proline/hydroxyproline specific-radioactivity ratio in elastin from scorbutic guinea pigs was about 6:1 in contrast with the 1:1 ratio in control groups. It is concluded that the formation of elastin hydroxyproline was ascorbate-dependent and that a hydroxyproline-deficient elastin is formed and retained in scurvy. The formation of desmosines was unimpaired in scorbutic animals. 5. Studies with chick embryos confirmed the formation of elastin hydroxyproline from free proline. Incorporation of free hydroxyproline into elastin hydroxyproline was negligible. 6. Digestion of solubilized samples with collagenase indicated that the hydroxyproline in guinea-pig aortic elastin preparations was not derived from contamination by collagen. It is suggested that most if not all of the hydroxyproline in the guinea pig elastin preparations investigated can be considered an integral part of the elastin molecule.     

Metabolism of ornithine in human gingival tissue

The behavior of two enzymes of the ornithine pathway, leading to the formation of proline and, eventually, of collagen, arginase and ornithine oxo-acid aminotransferase has been investigated in normal and inflamed gingival tissue. Both enzymatic activities show a statistically significant decrease in pathological samples as compared to normal ones. The data on arginase activity may be in agreement with the already documented low level of urea in pathological gingival fluid, while a decrease of the ornithine aminotransferase activity could be linked to the phenomenon of gingival retraction, i.e. the lack of complete regeneration of gingival tissue usually observed in chronically inflamed subjects, that would be reasonably parallel to a decreased proline/collagen synthesis.     

Bone matrix studies Influences of parathyroid extract,calcitonin, and cholecalciferol and of rickets and its treatment

Bones from young rats were incubated with radioactive glucosamine and proline. The concentrations and specific activities of matrix glycosaminoglycan fractions, prepared by a cetylpyridinium chloride method, and the specific activity of insoluble collagen hydroxyproline were determined. Acute parathyroid extract treatment increased labelling of hyaluronic acid and a glycopeptide fraction. These effects were partially blocked by calcitonin treatment which had no effect by itself. Parathyroid extract inhibited collagen synthesis and this effect was not blocked by calcitonin. Effects of these two hormones on labelling of chondroitin sulfate fractions were more variable. Vitamin D-3 caused an increase in labelling of all matrix fractions measured in bone from thyroparathyroidectomized rats, but its stimulating effect upon collagen synthesis was blocked by paratyroid extract.Bones from rats made rachitic on a phosphorus and vitamin D-deficient diet were incubated in vitro with radioactive glucosamine and proline. Over a three-week period rachitic bone exhibited a progressive fall in concentration and labelling of a glycopeptide-hyaluronic acid fraction, while pair-fed animals supplemented either with phosphorus alone or with phosphorus and vitamine D-3 not only remineralized their bones, but the bones showed a pronounced increment in concentration and labelling of this fraction. Both treatment regimens also enhanced chondroitin sulfate and collagen labelling.     

Bone matrix studies. Influences of parathyroid extract, calcitonin, and cholecalciferol and of rickets and its treatment.

Bones from young rats were incubated with radioactive glucosamine and proline. The concentrations and specific activities of matrix glycosaminoglycan fractions, prepared by a cetylpyridinium chloride method, and the specific activity of insoluble collagen hydroxyproline were determined. Acute parathyroid extract treatment increased labelling of hyaluronic acid and a glycopeptide fraction. These effects were partially blocked by calcitonin treatment which had no effect by itself. Parathyroid extract inhibited collagen synthesis and this effect was not blocked by calcitonin. Effects of these two hormones on labelling of chondroitin sulfate fractions were more variable. Vitamin D-3 caused an increase in labelling of all matrix fractions measured in bone from thyroparathyroidectomized rats, but its stimulating effect upon collagen synthesis was blocked by parathyroid extract. Bones from rats made rachitic on a phosphorus and vitamin D-deficient diet were incubated in vitro with radioactive glucosamine and proline. Over a three-week period rachitic bone exhibited a progressive fall in concentration and labelling of a glycopeptide-hyaluronic acid fraction, while pair-fed animals supplemented either with phosphorus alone or with phosphorus and vitamin D-3 not only remineralized their bones, but the bones showed a pronounced increment in concentration and labelling of this fraction. Both treatment regimens also enhanced chondroitin sulfate and collagen labelling.     

Quantitative study of tissue collagen metabolism

A procedure for the quantification of various parameters of metabolism of collagen in fibrotic mouse liver has been developed. The method involves derivatization of hydroxyproline, a marker of collagen, with dansyl chloride, high-performance liquid chromatography of the derivative on an octadecyl C-18 column, and its detection by fluorescence. This assay improves upon existing procedures in several respects: It extends the analysis so that not only the collagen content of the tissue but also the metabolism of collagen is determined at levels found intracellularly. It is sensitive enough to quantify 0.1-10 nmol of hydroxyproline, and it includes three major amino acids (hydroxyproline, glycine, and proline) of collagen and two assay controls; it generates information on both the purity and quantity of collagen in each assay. The determination of specific activity of intracellular free [14C]proline, which is the precursor of protein-bound hydroxyproline, defines the specific activity of [14C]hydroxyproline of collagen converted from precursor residues of [14C]proline by the action of prolyl hydroxylase. The specific activity of [14C]hydroxyproline can be used for the evaluation of collagen synthesis and secretion and intracellular and extracellular degradation of the newly synthesized and secreted collagen in the tissue. The determination of specific activities of [14C]hydroxyproline and [14C]proline and of the ratio of [14C]hydroxyproline to [14C]proline of newly secreted collagen provides information concerning the extent of hydroxylation of [14C]proline residues of newly synthesized collagen.