Ribonucleic acid labelling perfused livers of protein-fed and protein-deprived rats

Several observations suggest an increased RNA synthesis in livers of protein-deprived rats, though the RNA/DNA ratio is decreased. A number of hormones may be involved in these changes. Therefore, we studied in RNA metabolism in isolated perfused livers taken from protein-fed and protein-deprived rats. (3H)-orotic acid was given to the rats 2 h before liver explantation, and (14C)-orotic acid was added to the perfusate. Other rats, called controls in vivo, whose livers were not transplanted were also given (3H)-orotic acid followed by (14C)-orotic acid. The livers of these rats, which were not hormone supplemented, were labelled for the same length of times as the livers in vitro. The ratio specific RNA radioactivity/specific nucleotide radioactivity x RNA/DNA was determined and taken as a measure of the RNA synthesis per liver cell. In the controls in vivo, this ratio was significantly higher for protein-deprived than for protein-fed rats. In livers from the protein-fed rats, labelling in vitro increased significantly when growth hormone, hydrocortisone, insulin and tri-iodothyronine were added to the perfusate. Labelling was also significantly higher in these livers than in the controls in vivo. In livers from protein-deprived rats, the ratio in question was the same whether the hormones were added to the perfusate or not, and was significantly lower than in the controls in vivo. Differences in RNA labelling are thus obtained in our in vitro system. Gel electrophoresis of RNA demonstrated normal RNA labelling, showing that the system is suitable for studying liver RNA synthesis. Further refinement can be made by studying the labelling of UTP and CTP. The results might suggest that the liver from a protein-fed rat, explanted in vitro, may increase its RNA synthesis under the influence of the four hormones in question, and that the RNA synthesis of the liver of a protein-deprived rat is high in-vivo and that it might decrease, when it is explanted to in vitro conditions.     

Alterations in biochemical composition and ribonucleic acid metabolism induced in rat liver by cortisone

An investigation of the effect of cortisone administration upon the chemical composition of intracellular particulates of rat liver has been made. Livers were homogenized in 0.25 M sucrose solutions and submitted to differential centrifugation. Five fractions were prepared: mitochondria (Mit), microsomes (Mi), ultracentrifugable (U), non-sedimentable (S), and nuclear (Nuc). Measurement was made of total and polymerized RNA, nitrogen, lipide P, and uptake of P(32) by the RNA of each fraction. The following observations were made:- Cortisone administration caused a fall in concentration in all measured constituents except glycogen. On a per liver basis, however, total liver RNA was unchanged in amount; nitrogen content of Mi fell and that of S increased; the lipide P of Mit and Mi also decreased. The biochemical composition of a statistical mitochondrion was significantly altered; in contrast, the microsomal fraction decreased in amount, but the relationship between the chemical constituents was unchanged. When polymerized RNA was sought by a process involving precipitation from ethanol at 20 degrees C., none was found in the Mit of cortisone livers and the amount in Mi was much less than found in the normal. When, however, precipitation was conducted at 4 degrees C., yields of polymerized RNA in all fractions after cortisone were equal to or greater than those found in the normal. Furthermore, incubation of mixtures of homogenates from normal and cortisone livers resulted in loss of warm precipitable RNA. These data strongly suggest the presence of an enzyme in cortisone livers which upon incubation with normal livers made preparation of polymerized RNA virtually impossible by use of the warm method. This agent, thought to operate in vivo and in vitro, was not present in significant amounts in normal livers, since incubation in this instance had no effect upon the amount of polymerized RNA. Mit from cortisone livers obtained by the cold technique had a significantly decreased rate of incorporation of P(32) even though the yield of RNA from this fraction was increased. To reconcile these observations, it was proposed that under the influence of cortisone a variant of normal RNA is synthesized or normal RNA is converted to this variant. This "new" RNA has new solubility properties, a new rate of incorporation of P(32), and conceivably it cannot act as a template for normal protein synthesis.     

Ribonucleic acid synthesis in rat liver during fatty acid stimulated secretion of very low density lipoproteins.

Production of very low density lipoproteins by the liver depends on the cellular availability of fatty acids. It is stimulated by the uptake of free fatty acids from the plasma and by increased lipogenesis and is inhibited by actinomycin D, suggesting that RNA synthesis is involved in the regulation of apolipoprotein synthesis. This hypothesis has been investigated in rats in vivo and in isolated perfused livers with and without stimulation by fatty acid overload: [14C] orotate incorporation in liver polyribosomal RNA is 60 per cent greater in stimulated livers as compared to controls. This increase is primarily due to a higher incorporation in bound polysomes and in those containing at least six ribosomes and does not result from the inhibition of ribonuclease. RNase digestion of polysomal RNA (4.10(-10) M enzyme, 0 degrees C, 3 h) shows that there is twice as much radioactivity in the hydrolyzed RNA of stimulated livers as compared to controls. After partial purification of poly A-rich RNA by affinity chromatography, the mass yield and radioactivity are increased by 100 per cent in stimulated livers as compared to controls. In conclusion, de novo RNA synthesis seems to be necessary for fatty acid stimulation of VLDL production.     

Ribonucleic acid labelling and nucleotide pools during compensatory renal hypertrophy

During the first 48h of compensatory renal hypertrophy induced by unilateral nephrectomy, RNA content per cell increased by 20-40%. During this period, rates of RNA synthesis derived from the rates of labelling of UTP and RNA after a single injection of [5-(3)H]uridine showed no change in the rate of RNA synthesis (3.1nmol of UTP incorporated into RNA/min per mg of RNA). ATP and ADP pools were not changed. The rate of RNA synthesis was considerably in excess of the increment of total RNA appearing in the kidneys. With [5-(3)H]uridine as label, only continuous infusion for 24h could produce an increase (60%) in the specific radioactivity of renal rRNA in mice with contralateral nephrectomies. With a single injection of [methyl-(3)H]methionine used to identify methyl groups inserted into newly synthesized rRNA, the specific radioactivity of this rRNA was unchanged 5h after contralateral nephrectomy, increased by 60% at 9-48h, and returned to normal values at 120h. Most RNA synthesized in both nephrectomized and sham-nephrectomized mice has a short half-life. Since total cellular RNA content increases in compensatory hypertrophy despite unchanged rates of rRNA synthesis, the accretion of RNA might involve conservation of ribosomal precursor RNA or a change in rate of degradation of mature rRNA.     

Biochemical changes in progressive muscular dystrophy. XIV. Skeletal muscle myosin mRNA translatability in dystrophic mice

Variations in the content and translatability of the poly(A)+ RNA and mRNA molecules coding for myosin (M) were studied in the hind leg muscles of genetically dystrophic mice. The poly(A)+ RNA content of total skeletal muscle failed to increase normally during progression of the disease. M mRNA, isolated from dystrophic normally during progression of the disease. M mRNA, isolated from dystrophic murine muscle poly(A)+ RNA, was mostly found to be associated with the 26S RNA species. The translation of M mRNA in an in vitro heterologous wheat germ system was lower at 8 and 16 weeks in the dystrophic group as compared with the controls. Analysis of the translation products via sodium dodecyl sulfate-polyacrylamide gel electrophoresis, autoradiography, and densitometric autoradiographic tracing demonstrated the gradual disappearance of a protein band corresponding to M, the major component of skeletal muscle. cDNA was synthesized, using M mRNA that was isolated and purified from normal and dystrophic mouse muscle as a template. Total radioactivity was measured in some cDNA fractions produced from normal and dystrophic mouse muscle, while other fractions were utilized for separation and sizing of cDNA by disc gel electrophoresis. The cDNA from normal muscle was hybridized with M mRNA from normal and 16-week-old dystrophic mouse muscles. The cDNA probe, hybridization experiments, and studies involving the content and synthesis of M mRNA suggest that murine muscular dystrophy elicited a shorter species of mRNA or shorter sequences of the same species of mRNA coding for M. Not all poly(A)+ mRNA sequences coding for M, found in control mice, were present in their dystrophic counterparts.(ABSTRACT TRUNCATED AT 250 WORDS)     

Development of the metanephric kidney. Protein and nucleic acid synthesis

The metanephric kidney was studied in fetal and older mice beginning at 16 days after mating of the parents. Polyribosomes from fetal kidneys labeled in vitro with 14C-labeled amino acids had 10-20 times more acid-precipitable radioactivity associated with them than polysomes from adult kidneys similarly labeled. Between 3 and 6 days after birth the rate incorporation of labeled amino acids by polyribosomes from neonatal kidneys declined sharply to only twice the value found for adult kidneys. There was no change in the shape of the polyribosome profile with increasing age, but before birth few, if any, ribosomes were bound to membranes compared with 20% 2 days after birth and between 20 and 30% in the adult. Total protein represented less than 10% of the wet weight in the fetal kidney but increased to 17% of the wet weight in the adult kidney. There was a steady decline in the concentration of RNA and DNA with respect to dry weight throughout kidney development. DNA concentration declined more rapidly than RNA concentration, so that the milligram to milligram ratio of RNA to DNA increased. In males the RNA/DNA ratio was stable at 1.3 at 40 days after birth; but in females the decline in DNA concentration was more protracted, and at 200 days after birth the RNA/DNA ratio was only 0.99. Thus, total nucleic acids show only gradual changes in concentration throughout development of the kidney, but a sharp change in the synthetic activity of the ribosomes and in their binding to membranes occurs in kidneys soon after birth.     

Decreased protein and puromycinyl-peptide degradation in livers of senescent mice.

Liver protein-degradation rates were determined in young and old C57B1 mice by the method of Swick & Ip [(1974) J. Biol. Chem. 249, 6836-6841]. The results indicated a marked age-related increase in the half-lives of short-lived proteins in the nuclear, mitochondrial, lysosomal and 100000 g-supernatant cellular fractions and in total trichloroacetic acid-precipitable proteins. The efficiency of the degradation system in removing aberrant proteins from livers of young and old mice was tested. The time required for 50% disappearance of puromycinyl-peptides changed from about 20 min in 6-month-old mice to approx. 150 min in 24-month-old animals. These findings suggest that in old animals the proteolytic activity involved in degradation of aberrant proteins, and presumably of "native proteins, is markedly defective.     

Incorporation of orotic acid into nucleotides and RNA in mouse organs during 60 minutes.

Mouse kidney and liver were found to increase their levels of radioactivity above that of serum from 2 to 60 min after administration of [6-14C]orotic acid. In spleen, thymus and brain, the radioactivity level reached a maximum soon after the injection and then decreased, as did that in serum. Sixty minutes after the injection, 44% of the administered isotope dose was found in the kidneys, 22% in the liver and 0.75% in the spleen. The 14C activity in liver UTP increased rapidly and then remained constant for 60 min. The ratio between the activities in uridine phosphates and UDP-sugars was 3:4 from 10- 60 min after injection. In the liver and kidneys, the RNA 14C activities at 60 min after injection were 15% of the activity in their acid-soluble fractions. Intraperitoneal administration was found to be preferable to intravenous administration for studies on nucleotides and RNA in mouse liver, due to the delayed incorporation of the [14C]orotic acid activity into the nucleotide pool.     

Reciprocal regulation of sex-dependent expression of testosterone 15 alpha-hydroxylase (P-450(15 alpha)) in liver and kidney of male mice by androgen. Evidence for a single gene

Testosterone 15 alpha-hydroxylase activities and its mRNA levels are higher in kidneys than in livers from male 129/J mice. Castration of 129/J male mice resulted in repression of P-450(15 alpha) in kidney, but increased it in liver. Two types of cDNA (p15 alpha-29 (Type I) and -15 (Type II)) encoding P-450(15 alpha) were previously cloned from 129/J female livers (Burkhart, B.A., Harada, N., and Negishi, M. (1985) J. Biol. Chem. 260, 15357-15361). With the use of p15 alpha-29 as a probe, Type I and II P-450(15 alpha) cDNAs were isolated from libraries of 129/J kidney poly(A)+ RNA. The nucleotide sequences of the cDNAs showed that Type I and II cDNAs from liver and kidney were identical and shared 98.3% similarity. The deduced amino acid sequence from a full-length Type I cDNA indicated that Type I P-450(15 alpha) consists of 494 amino acids with a molecular weight of 56,594. Nine amino acid substitutions were found in the Type II clone in 432 amino acids overlapping Type I. Type I cDNA clones accounted for approximately 90% P-450(15 alpha) clones isolated from a male kidney library, whereas approximately 90% of cDNA clones in a female kidney library were Type II. Liver cDNA libraries from males and females contained similar ratios of Type I and II. Effects of castration on Type I and II mRNAs were determined by Southern hybridization of a 32P-labeled ClaI-ClaI fragment from p15 alpha-29 to cDNAs synthesized from kidney and liver poly(A)+ RNAs prepared from sham-operated, castrated 129/J mice. The double-stranded cDNAs were digested with ClaI and PstI prior to gel electrophoresis to create the diagnostic restriction fragments specific for Type I or II. Castration resulted in decreased levels of Type I mRNA in male kidney. In male liver, only Type I mRNA rose significantly in response to castration. Testosterone administration returned the Type I mRNA to normal levels in castrated mice. It therefore appears that the high levels of P-450(15 alpha) in male kidney were due to androgen-dependent induction of Type I mRNA. Both Types I and II were repressed in male liver, which results in decreased levels of P-450(15 alpha). Androgen was responsible for the repression and expression of Type I in liver and kidney, but not Type II.     

Factors affecting the glycosphingolipid composition of murine tissues

The effects of genetic strain, sex, age, and pathological state on the distribution and concentration of glycosphingolipids in mouse kidneys and livers were studied. The concentrations of glycosphingolipids and phospholipids in the kidneys and livers of different strains were compared. The major glycosphingolipid in the kidneys of male and female BALB/c, C3H/He, C57/BL, A, and C57xA (F(1) hybrid) mice was a sulfatide, monoglycosyl-(3-sulfate) ceramide; monoglycosyl ceramide was the major component in livers. The kidneys of males of all strains contained significant amounts of diglycosyl ceramide, but those of females contained, at most, only traces. Glycosphingolipid concentration in the male kidneys of C57/BL and C57xA (F(1) hybrid) was much higher than in the female and was also much higher than in the male kidneys of C3H/He, BALB/c, and A strains. The kidneys of "old" (36 wk) male and female C3H/He mice contained much higher proportions of monoglycosyl ceramide than 10-12-wk-old adults. The distributions of glycosphingolipids in kidneys of female C3H/He mice with BP8 ascites tumors and male C57xA (F(1) hybrid) mice with EL4 ascites tumors differed from those in the normal mice. An unknown lipid, present in all glycosphingolipid extracts from kidney and liver, was tentatively identified as cholesterol sulfate.     

Relationships between fatty acid synthesis and lipid secretion in the isolated perfused rat liver: effects of hyperthyroidism, glucose and oleate

Various studies on the effects of thyroid status on hepatic fatty acid synthesis have produced conflicting results. Several variables (e.g., plasma free fatty acid and glucose concentrations) are altered simultaneously by thyroid status and can affect fatty acid synthesis. To evaluate the effects of these variables, hepatic fatty acid synthesis (lipogenesis) was studied in isolated perfused livers from normal and triiodothyronine-treated rats. Livers were perfused with media containing either 5.5 or 25 mM glucose without fatty acid, or 5.5 mM glucose and 0.7 mM oleate. Rates of lipogenesis were determined by measurement of incorporation of 3H2O into fatty acids. Lipogenesis in livers from hyperthyroid animals exceeded that of controls, when perfused with 5.5 mM glucose with or without oleate. Perfusion with 25 mM glucose increased lipogenesis in both euthyroid and hyperthyroid groups to the same level, abolishing this difference between them. Perfusion with oleate reduced rates of lipogenesis by livers from euthyroid and hyperthyroid rats to a similar extent, but stimulated secretion of radioactive fatty acid in phospholipid and free fatty acid fractions. Oleate increased ketogenesis by livers from normal and triiodothyronine-treated rats, with higher rates of ketogenesis in the triiodothyronine-treated group. When oleate was omitted, ketogenesis in the presence of 5.5 mM glucose by the hyperthyroid group was similar to that of euthyroid controls, while ketogenesis was decreased in the hyperthyroid group relative to controls when perfused with 25 mM glucose. About 30% of the radioactivity incorporated into the total fatty acid of both groups was recovered in palmitate, with the remainder in longer chain saturated and unsaturated fatty acids. In both euthyroid and hyperthyroid groups, the ratio of triacylglycerol:phospholipid fatty acid radioactivity was not only less than predicted (based on synthetic rates of PL and TG) but also was decreased in perfusions with exogenous oleate compared to perfusions without oleate. In perfusions with oleate, both groups incorporated twice as much radioactivity into phospholipid as into triacylglycerol. The data suggest the following concepts: while hepatic fatty acid synthesis and oxidation are increased simultaneously in the hyperthyroid state, de novo synthesized fatty acids seem to be poorer substrates for oxidation than are exogenous fatty acids, and are preferentially incorporated into phospholipid, while exogenous fatty acids are better substrates for oxidation and esterification to triacylglycerol. The preferential utilization of de novo synthesized fatty acid for phospholipid synthesis may be an important physiologic adaptation insuring a constant source of fatty acid for membrane synthesis.     

Glucocorticoid-mediated selective reduction of functioning collagen messenger ribonucleic acid

Polysomes were isolated from both lung and dermis of neonatal rats and the poly(A) RNA therein was isolated by oligo(dT)-cellulose chromatography. The RNA fractions were then translated in the nuclease-treated reticulocyte lysate in the presence of radioactive proline. Optimal collagen and noncollagen protein synthesis directed by lung poly(A) RNA occurred at 0.7 mm magnesium and 100 mm potassium. The RNA fraction directed the synthesis of both proα₁ and proα₂ chains as determined by polyacrylamide gel electrophoresis. The poly(A) RNA isolated from both lung and dermis polysomes of rats treated with triamcinolone diacetate synthesized significantly less collagen peptides as determined by collagenase digestion as did the RNA isolated from polysomes of nontreated animals. Noncollagen protein synthesis was decreased to a lesser extent than collagen synthesis. Glucocorticoid treatment did not affect the ability of either polysomes in wheat germ extract or polysomal poly(A) RNA in nuclease-treated reticulocyte lysate to synthesize prolyl hydroxylase as determined by immunoprecipitation. These data indicate the glucorticoid-mediated inhibition of collagen polypeptide synthesis does not result from nonspecific effect on total cellular protein synthesis of normal fibroblasts, but a selective reduction of poly some-associated messenger RNA. Furthermore these data provide a molecular basis for selective inhibitory effect of synthetic anti-inflammatory steroids on collagen synthesis.     

RNA biosynthesis in mitochondria under conditions of prolonged inhibition of protein biosynthesis in rat liver cytoplasm]

When cytoplasmic protein synthesis is inhibited by cycloheximide (CHI) in vivo synthesis of water-soluble mitochondrial proteins and of mitochondrial RNA is decreased. These changes measured in isolated rat liver mitochondria are similar to those observed in vivo and correlate with the changes the synthesis of water-soluble proteins in mitochondria. When the cytoplasmic fraction (30,000 g-supernatant) had been added to the mitochondria showing decreased RNA synthesis, the RNA synthesis increased to the control level (the incubation conditions were favourable for the protein transport from microsomes to mitochondria). RNA synthesis in mitochondria was not stimulated by cytoplasmic fractions from the CHI-pretreated rats. After prolonged dialysis these fraction stimulated RNA synthesis even to a greater extent than cytoplasmic fractions from the untreated animals. Mitochondrial RNA polymerase activity (measured in mitochondrial extracts supplemented with exogenous DNA) was higher in extracts of mitochondria from livers of normal rats than in extracts of mitochondria from livers of animals injected with CHI.     

Studies on biosynthesis of tobacco mosaic virus. VII. Radioactivity of plus and minus strands in different forms of viral RNA after labelling of infected tobacco leaves

Tobacco leaves were labelled with tritiated undine for 30 or 120 minutes at different times after systemic infection with tobacco mosaic virus. RNA was extracted and separated into three fractions: one enriched in RF (replicative form), one enriched in RI (replicative intermediate), and one containing the bulk of single-stranded RNA. Radioactivity in plus strands (viral RNA) and minus strands (complementary RNA) was determined in each fraction by an isotope dilution assay. The amount of minus strands in the RP and RI fractions and the amount of plus strands in the single-stranded RNA fraction were also determined.Minus-strand synthesis was twice as high a few hours after the outbreak of visible symptoms as during the subsequent large accumulation of plus strands. At the early stage of virus production, the specific radioactivity of the minus strands was three- to fourfold that of the total RNA. Later it was about the same as that of the total RNA. As minus strands constitute a constant part of the total RNA at the later stages, this observation suggests that breakdown of minus strands is small.The specific radioactivity of minus strands was the same in corresponding RF and RI fractions. As the turn-over of minus strands appears to be small, a rapid interconversion of the two RNA types is indicated.In RF and RI the radioactivity in plus strands was between 6 and 50 times greater than that in minus strands. The specific radioactivity of plus strands was greater in RF and RI than in the single-stranded RNA, supporting the concept that both RF and RI have a precursor role for viral RNA.     

Increased transcription and decreased degradation control and recovery of liver ribosomes after a period of protein starvation.

In the livers of 5-days-protein-depleted mice there is a decrease of 47% of the ribosome mass. When these animals are fed with an adequate diet, ribosome content is restored to the normal value after 1 day of re-feeding. The mechanisms underlying this phenomenon were studied. It was found that: (1) the activity of RNA polymerase I in the nuclei of livers from re-fed animals showed an enhancement of about 2-fold compared with the activity in normal and protein-depleted liver nuclei; (2) ribosome degradation, measured by the disappearance of radioactivity from ribosomal proteins previously labelled by the administration of NaH14CO3 to the mice, stopped during the first day after re-feeding.     

METABOLISM OF ARACHIDONOYL PHOSPHOGLYCERIDES IN MOUSE BRAIN SUBCELLULAR FRACTIONS

Abstract— Mouse brain subcellular fractions were prepared at 1, 12, and 24 h and 3 and 8 days after intracerebral injections of [1-¹⁴C]arachidonate. Initially, radioactivity was mainly distributed in the microsomal and synaptosomal fractions, but the proportion of radioactivity in the myelin increased from 5 to 16% within 8 days. Radioactivity of the microsomal lipids started to decline at 1 h after injection, and the decay was represented by two pools with half-lives of 19 h and 10 days, respectively. Radioactivity in the synaptosomal and myelin fractions did not reach a maximum until 24 h after injections. The half-life for turnover of synaptosomal lipids was 9 days.
The decline of radioactivity measured in the microsomal fraction was due mainly to diacyl-GPC and diacyl-GPI, since radioactivity of other phosphoglycerides (diacyl-GPS, diacyl-GPE and alkenyl-acyl-GPE) continued to increase for 12-24 h. In this fraction, half-lives of 10-14 h were obtained for the fast turnover pools of diacyl-GPC and diacyl-GPI, and slow turnover pools with half-lives of 7 days for diacyl-GPI and 10-14 days for other phosphoglycerides were also present. Among the synaptosomal phosphoglycerides, radioactivity of diacyl-GPI declined in a biphasic mode, thus exhibiting half-lives of 5 h and 5 days. Incorporation of labelled arachidonate into diacyl-GPE and diacyl-GPS in the synaptosomal fractions was observed for a period of 24 h. The half-lives for these phosphoglycerides ranged from 8 to 12 days. Results of the study have demonstrated the presence of small pools of arachidonoyl-GPI in synaptosomal and microsomal fractions which were metabolically more active than other arachidonoyl containing phosphoglycerides.     

The influence of testosterone on the synthesis and degradation rate of various RNA species in the mouse kidney.

1. The effect of a daily injection of testosterone on the in vivo rate of RNA synthesis and degradation in the kidney of castrated mice was determined. 2. Following the administration of testosterone there was a progressive increase in kidney weight, RNA and protein content in the castrated mouse kidney. 3. The rates of synthesis were calculated from the measured incorporation of radioactivity into various RNA species and acid-soluble nucleotides. The kidney RNA was labelled by the injection of a single dose of [5-3H] orotic acid. When the incorporation into ribosomal RNA was at the maximum (48 h), one group of mice was injected with testosterone (100 mug/day/20 g body weight) and the other served as the control. 4. The rates of synthesis and the turnover time were calculated on the basis of the half-life and the rate of decrease of specific radioactivity of RNA. The rates obtained were high in the first 5 days following hormone administration and then slowed down. 5. The results suggest that testosterone changes the rate of synthesis, not the rate of degradation of the mouse kidney RNA. This is consistent with the higher activity of RNA polymerase in testosterone-treated mice as previously observed and described (Avdalovi?, N. and Kochakian, C.D. (1969) Biochim. Biophys. Acta 183, 382-393; Avdalovi?, N. (1970) Biochem. J. 119, 331-338).     

Hepatic vitamin A fat-storage cells and the metabolism of chylomicron cholesterol.

These experiments were designed to test the hypothesis that the vitamin A fat-storage cell removes chylomicron remnant cholesterol from hepatic portal venous blood; A modified Ficoll density gradient ultracentrifugation procedure was used to isolate from rat liver cellular fractions that were enriched in vitamin A. In rats fed a normal diet and in rats fed excess vitamin A isolated hepatocytes were fractionated 15 min after the intravenous injection of chylomicrons labelled in vivo with radioactive cholesterol. The results showed that cholesterol radioactivity was not concentrated in the vitamin A enriched cellular fractions, so it was concluded that the vitamin A fat-storage cell is not implicated in clearance of chylomicron remnants by the liver.