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1.
Myelin membrane synthesis was studied using mechanically dissociated fetal rodent CNS which formed spherical reaggregates while being maintained in rotating culture flasks. These reaggregate cultures exhibited myelinogenesis in vitro after precisely the same period of time needed for myelin synthesis to commence in vivo. The myelin membrane related enzymes, 2', 3' cyclic nucleotide phosphohydrolase (CNP) and cerebroside sulfotransferase (CST), appear similar in their specific activities and follow the same developmental patterns that these enzymes exhibit in vivo. In addition, phosphorylation of myelin basic protein occurs by the third week in vitro which agrees with previously published in vivo studies. These experiments indicate that this nerve-cell culture system may be a appropriate model for studying the biological regulation of myelinogenesis as well as a variety of other nervous-system functions.  相似文献   

2.
3.
Cells from autochthonous mouse mammary carcinomas which display estrogen-independent growth vivo were studied for their hormonal responses in primary culture. A culture system employing insulin-supplemented, serum-free medium and basement membrane Matrigel as a substratum was used to cultivate tumor cells. The cells did not exhibit in vitro estrogenor prolactin-dependent growth. Primary tumors still displayed a constitutional expression of α-, β-, and γ-casein mRNAs. These messages were dramatically reduced during the culture period. However, seven to eightfold increases in α- and β-casein mRNAs were inducible in the 5-day cultures by treatment with prolactin and hydrocortisone. If the hormones were present through a 2-week culture period, the levels of α-, β-, and γ-casein mRNAs in the cells were maintained and displayed in a time-dependent increase with a peak at 10–14 days. The accumulation of β-casein mRNA in vitro did not require DNA synthesis. Administration of prolactin directly into the growing tumors in vivo could also enhance β-casein mRNA levels in the tumor cells. Morphological studies of the cells cultured in the presence of prolactin and hydrocortisone did not reveal visible changes compared with those without hormonal treatment. Transplantation of tumor cells cultured in the presence or absence of hormones resulted in the development of tumors in mice at approximately the same time. The current studies suggest that the autochthonous mammary tumor cells, independent of estrogen for cell growth, were still inducible for casein gene expression in vitro and in vivo by appropriate hormones. The induction and maintenance of casein messages by a single hormonal treatment did not appear to correlate with morphology and DNA synthesis of cells in vitro or with tumor-producing capacities in vivo.  相似文献   

4.
Myelinating organ cultures of rat cerebellum were maintained in vitro for up to 130 days. Extensive myelination took place between 7 DIV (days in vitro) and 28 DIV. Centrifugation of a crude culture myelin fraction on a discontinuous gradient yielded three layers termed light myelin, heavy myelin and membrane fraction, which exhibited an ultrastructure virtually identical to that of comparable layers prepared from surviving littermates. However, culture myelin layers showed a gross deficiency of galactolipids with a relative increase in phospholipids. The 2,3′-cyclic nucleoside-monophosphate phosphodiesterase (CNP) activity was decreased in the culture myelin layers, but not to an extent comparable to the cerebroside deficiency. A form of “slow myelin maturation” takes place in vitro with both myelin cerebrosides and sulphatides increasing in cultures older than 60 DIV. The results indicate that CNS myelination comprises at least two phases, and that the second phase involving galactolipid enrichment of myelin can, under experimental conditions, be partly uncoupled from the first phase without affecting the morphology or ultrastructure of the sheaths.  相似文献   

5.
An in vitro system for the study of myelin synthesis   总被引:6,自引:2,他引:4  
Abstract— A system for the study of short-term myelin synthesis in spinal cord tissue in vitro with [U-14C]glucose as a lipid and protein precursor is described. The rates of lipid and protein incorporation into myelin are age-dependent, but do not appear to behave similarly. Uptake of labelled carbon is most rapid in monophosphoinositide and lecithin, and slowest in cerebroside sulphate. Myelin protein seems to retain more metabolic activity than does the lipid. These findings are interpreted as support for the unit membrane hypothesis for myelin rather than the subunit model.  相似文献   

6.
Rat liver and kidney tissue slices incubated withN-acetyl [3H]mannosamine incorporated radioactivity into free and boundN-acetylneuraminic acid and CMP-N-acetylneuraminic acid (CMP-NeuAc). Liver and kidney also incorporated radioactivity from intravenously injected [3H]ManNAc intoN-acetylneuraminic acid and CMP-NeuAc. From the decrease in the specific radioactivity of CMP-NeuAc after a single injection ofN-acetyl[3H]mannosamine the half-life of CMP-NeuAc was determined. From this half-life and the pool size of CMP-NeuAc a synthesis rate of CMP-NeuAc was calculated, being 1.2 nmol/min/g wet weight of kidney. In previous experiments a value of 1.0 nmol/min/g wet weight was determined for liver [Ferwerdaet al. (1983) Biochem J 216: 87–92]. The synthesis rate of CMP-NeuAcin vivo was in the same range as the synthesis rate calculated from the turnover of boundN-acetylneuraminic acid, which was 2.7 and 0.4 nmol/min/g wet weight for liver and kidney respectively.The assay conditions for UDP-N-acetylglucosamine 2-epimerase andN-acetylmannosamine kinase were adapted to measure low activitiesin vitro. It appeared that the kinase activity detected in kidney can synthesizeN-acetylmannosamine6-phosphate at a rate sufficient for the observed production ofN-acetylneuraminic acidin vivo. Also a low, but measurable activity of UDP-N-acetylglucosamine 2-epimerase was detected in kidneyin vitro, suggesting that the biosynthetic pathway ofN-acetylneuraminic acid in kidney is the same as in liver. The synthesis rate ofN-acetylneuraminic acid in liver determinedin vivo is approximately 12 times slower than the maximal potential rate calculated from the activities of theN-acetylneuraminic acid (precursor-) forming enzymes as detectedin vitro. This indicates that in liverin vivo the enzymes are working far below their maximal capacity.  相似文献   

7.
PROTEIN SYNTHESIS IN NORMAL AND SCRAPIE MOUSE BRAIN   总被引:1,自引:0,他引:1  
Damage to the brain as a result of an intracerebral injection of physiological saline does not appreciably affect the rate of protein synthesis in mouse brain. The in vivo and in vitro incorporation of labelled amino acids into mitochondria and their in vivo incorporation into nuclei, microsomes, nerve ending particles, myelin and cell sap were compared in normal and scrapie-affected mice. No significant differences were found.  相似文献   

8.
An in vitro organ culture system for buccal ganglia of the adult snail, Helisoma, is described. The system supports: (1) maintenance of characterstic electrophysiological parameters of identified neurons over seven days of culture; (2) choline metabolism including uptake and synthesis over the same duration; (3) sprouting and growth of neurons in response to axotomy; (4) the formation of novel central electrotonic connections between identified neurons as a result of sprouting and growth. These observations on neuronal growth and the formation of connections are similar to those made with in vivo culture. The use of in vitro culture allows precise manipulations not previously possible. When buccal ganglia are cultured in vitro with the cut distal ends of peripheral nerve trunks held closely apposed, axons of neurons 5R and 5L in the nerve trunks are capable of forming electrotonic connections similar to central connections. The capability of these neurons to form electrotonic connections via their peripheral axons implies that special structures (i. e., central neurites) are not required for the formation of connections; and neither are special environments (i. e., the central neurites) required for these connections.  相似文献   

9.
In most bacteria, the tubulin‐like GTPase FtsZ forms an annulus at midcell (the Z‐ring) which recruits the division machinery and regulates cell wall remodeling. Although both activities require membrane attachment of FtsZ, few membrane anchors have been characterized. FtsA is considered to be the primary membrane tether for FtsZ in bacteria, however in Caulobacter crescentus, FtsA arrives at midcell after stable Z‐ring assembly and early FtsZ‐directed cell wall synthesis. We hypothesized that additional proteins tether FtsZ to the membrane and demonstrate that in C. crescentus, FzlC is one such membrane anchor. FzlC associates with membranes directly in vivo and in vitro and recruits FtsZ to membranes in vitro. As for most known membrane anchors, the C‐terminal peptide of FtsZ is required for its recruitment to membranes by FzlC in vitro and midcell recruitment of FzlC in cells. In vivo, overproduction of FzlC causes cytokinesis defects whereas deletion of fzlC causes synthetic defects with dipM, ftsE and amiC mutants, implicating FzlC in cell wall hydrolysis. Our characterization of FzlC as a novel membrane anchor for FtsZ expands our understanding of FtsZ regulators and establishes a role for membrane‐anchored FtsZ in the regulation of cell wall hydrolysis.  相似文献   

10.
The insertion and folding of proteins in biological membranes during protein synthesis in vivo is fundamental to membrane biogenesis. At present, however, certain molecular aspects of this process can only be understood by complementary studies in vitro. We bring together in vitro and in vivo results, highlighting how the studies inform each other and increase our knowledge of the folding and assembly of polytopic membrane proteins. A notable recent advance is the high-resolution crystal structure of the protein machinery responsible for membrane protein insertion into the endoplasmic reticulum. This provides an opportunity to combine in vitro and in vivo studies at a more sophisticated level and address mechanistic aspects of polytopic protein insertion and folding. Quality control is another important aspect of membrane biogenesis, and we give an overview of the current understanding of this process, focusing on cystic fibrosis as a well-studied paradigm. Mutations in the associated membrane protein, the cystic fibrosis transmembrane conductance regulator (CFTR), can cause the quality control mechanisms to prevent the mutant protein reaching its normal site of action, the cell surface. In vitro studies of CFTR shed light on the possible origins of other clinically relevant folding mutants and highlight the potential synergy between in vitro and in vivo approaches.  相似文献   

11.
—An in vitro system using mouse brain homogenates has been developed to study the synthesis of the myelin basic proteins. Incorporation of [3H]leucine into protein in this system did not require additional energy sources. The system was slightly stimulated by glucose and strongly inhibited by puromycin. Myelin basic proteins were isolated from incubation mixtures by conventional techniques of solvent extraction and column chromatography, and finally separated into the large and small components by polyacrylamide gel electrophoresis in an acetic acid-urea system. Gels were stained, sliced, dissolved, and counted, and relative rates of incorporation of label into the two basic proteins were determined at several ages. The ratio of radioactivity incorporated into the small (S) and large (L) basic proteins, over a 30 min incubation period, was found to increase from 0.97 at 10 days to 1.59 at 21 days and decline thereafter. These data generally agree with earlier studies on the in vivo synthesis of the myelin basic proteins in mice. An interesting feature of the time course was that incorporation of [3H]leucine into the purified myelin basic proteins relative to incorporation into total protein in the homogenate increased almost 2-fold during the course of the 30-min incubation. This suggested that post-translational processing of at least one of the two basic proteins was occurring. To examine this possibility further, experiments were conducted in which incorporation was allowed to proceed for 2–5 min, before being inhibited with puromycin; the incubation was then continued for up to 25 min longer. Although total incorporation was inhibited immediately after puromycin addition, label was found to continue to accumulate in the basic proteins to the extent of 30–100% above controls. These data support the notion that the MBPs are synthesized as precursors and then processed to yield authentic myelin basic proteins and that this processing can occur in vitro.  相似文献   

12.
13.
Summary Late gestation fetal rat hepatocytes can proliferate under defined in vitro conditions in the absence of added mitogens. However, this capacity declines with advancing gestational age of the fetus from which the hepatocytes are derived. The present studies were undertaken to investigate this change in fetal hepatocyte growth regulation. Examination of E19 fetal hepatocyte primary cultures using immunocytochemistry for 5-bromo-2′-deoxyuridine (BrdU) incorporation showed that approximately 80% of these cells traverse S-phase of the cell cycle over the first 48 h in culture. Similarly, 65% of E19 hepatocytes maintained in culture under defined mitogen-free conditions for 24 h showed nuclear expression of proliferating cell nuclear antigen (PCNA). These in vitro findings correlated with a high level of immunoreactive PCNA in immunofluorescent analyses of E19 liver. In contrast, E21 (term) liver showed little immunoreactive PCNA. The in vivo finding was recapitulated by in vitro studies showing that E21 hepatocytes had low levels of BrdU incorporation during the first day in culture and were PCNA negative shortly after isolation. However, within 12 h of plating, E21 hepatocytes showed cytoplasmic staining for PCNA. Although maintained under mitogen-free conditions, PCNA expression progressed synchronously to a nucleolar staining pattern at 24 to 48 h in culture followed by intense, diffuse nuclear staining at 60 h which disappeared by 72 h. This apparently synchronous cell cycle progression was confirmed by studies showing peak BrdU incorporation on the third day in culture. Whereas DNA synthesis by both E19 and E21 hepatocytes was potentiated by transforming growth factor α (TGFα), considerable mitogen-independent DNA synthesis was seen in hepatocytes from both gestational ages. These results may indicate that fetal hepatocytes come under the influence of an exogenous, in vivo growth inhibitory factor as term approaches and that this effect is relieved when term fetal hepatocytes are cultured.  相似文献   

14.
Highly active (2000 U g−1) proteolytic enzymes were obtained from a partially purified, cell-free filtrate of a culture of Streptomyces fradiae. In vitro the enzyme was found to exhibit high activity as well as durability and thermostability (complete inactivation occurred only after 15 min at 120°C).The effects of the proteolytic action were confirmed in vivo in guinea-pigs. Within 30 min, an intracutaneously administered preparation caused drastic changes which were observable macroscopically. These extensive changes were established histopathologically.  相似文献   

15.
The protein composition of the particulate fraction of dissociated foetal rat cerebral cells during maturation in culture was investigated. SDS polyacrylamide gel electrophoresis showed a general decrease in the histonal components and significant changes in composition of a group of polypeptides with molecular weights ranging from 42 to 60 K. Two of these polypeptides coelectrophoresed with tubulin and actin whereas a 48 K polypeptide comigrated with the major component of the Wolfgram myelin protein. Its relative quantity appeared to approach a plateau after 8 days in culture. The myelin basic and proteolipid proteins were below detection levels in cultured cells at any time point investigated. A group of polypeptides with estimated molecular weights of 47, 51 and 52 K possibly representing synaptic proteins increased with time in culture. The appearance of a prominent band (60 K) in brain cultures and in other cells of divergent origin was demonstrated. This protein may be related to the process of cell adaptation to culture conditions. The developmental changes in the protein profile are discussed in the context of an in vitro myelinogenesis and synaptogenesis and compared with whole brain particulate and subcellular fractions.  相似文献   

16.
The distribution of PBP5, the major D,D‐carboxypeptidase in Escherichia coli, was mapped by immunolabelling and by visualization of GFP fusion proteins in wild‐type cells and in mutants lacking one or more D,D‐carboxypeptidases. In addition to being scattered around the lateral envelope, PBP5 was also concentrated at nascent division sites prior to visible constriction. Inhibiting PBP2 activity (which eliminates wall elongation) shifted PBP5 to midcell, whereas inhibiting PBP3 (which aborts divisome invagination) led to the creation of PBP5 rings at positions of preseptal wall formation, implying that PBP5 localizes to areas of ongoing peptidoglycan synthesis. A PBP5(S44G) active site mutant was more evenly dispersed, indicating that localization required enzyme activity and the availability of pentapeptide substrates. Both the membrane bound and soluble forms of PBP5 converted pentapeptides to tetrapeptides in vitro and in vivo, and the enzymes accepted the same range of substrates, including sacculi, Lipid II, muropeptides and artificial substrates. However, only the membrane‐bound form localized to the developing septum and restored wild‐type rod morphology to shape defective mutants, suggesting that the two events are related. The results indicate that PBP5 localization to sites of ongoing peptidoglycan synthesis is substrate dependent and requires membrane attachment.  相似文献   

17.
Abstract— An amino acid incorporating system from rat brain has been used to study in vitro four aspects of protein synthesis: amino acid-AMP-enzyme complex formation; amino acid-tRNA synthesis; amino acid incorporation into protein and protein synthesis from presynthesized amino acid-tRNA. Ethionine (0.5 mm ) inhibited the system and the inhibition appeared to be in the formation of amino acid-tRNA. The inhibition in vitro was independent of the sex of the animal from which the system was derived. Pretreatment of animals in vivo with ethionine yielded in females only preparations deficient in incorporating capacity when tested in vitro. Exchange experiments demonstrated that the defect was in the pH 5 enzymes and not in the ribosomes. The inhibition in vitro was not reversed by addition of ATP and appeared to be competitive with the amino acid substrate.  相似文献   

18.
Internal re-initiation polypeptides which are products of the lacZ gene of Escherichia coli have been synthesized in a DNA-directed cell-free protein synthesis system. Some of the properties of these protein fragments have been characterized. The de novo synthesized re-initiation proteins, unlike both in vitro synthesized wild-type β-galactosidase and nonsense termination fragments, are insoluble when synthesized at 37 °C, but soluble if synthesis takes place at 25 °C. The same re-initiation proteins which are made in vivo have been detected in vitro. Unlike their in vivo counterparts, which are degraded rapidly, the in vitro synthesized restart proteins are completely stable for at least one hour following their synthesis. Both in vivo and in vitro, the re-initiation proteins are not synthesized from DNA containing a wild-type Z gene, but require a specific nonsense mutation in order to be expressed. Furthermore, the location of the mutation within the Z gene is very important in determining whether or not re-initiation will occur at a given site.Several nonsense mutations which do not result in the synthesis of detectable amounts of restart protein in vivo produce specific re-initiation polypeptides in vitro. These restart proteins display many of the same properties as do those which are made both in vivo and in vitro: they are not made from wild-type DNA, and they are only made from DNA containing a specific nonsense mutation. One of these mutations is 118, which is an extreme polar mutation in vivo. Another is 545, which synthesizes a restart protein in vivo if, and only if, it is coupled with a secondary mutation, π(1). π(1) thus appears to be necessary for the synthesis of a particular re-initiation protein in vivo but unnecessary for the synthesis of the same protein in vitro. The efficiencies of re-initiation vary at the different sites, but in all cases are less than the initiation frequency at the start of the gene. The experiments thus show that when complicating factors, such as polarity and protein degradation, are eliminated, translational re-initiation can be detected at many sites in the lacZ gene.  相似文献   

19.
Lactobacillus delbrueckii subsp. bulgaricus 2038 was examined for its activity to prevent the oxidation of the erythrocyte membrane in vitro, and the oxidation of LDL in vivo.

Strain 2038 produced radical scavengers that reacted with 1,1-diphenyl-2-picrylhydrazl (DPPH) during cultivation. Moreover, the ethereal extract from the supernatant of the culture prevented the oxidation of the erythrocyte membrane in vitro.

As an in vivo study, male F344 rats were fed on diets containing 20% fresh soybean oil (or 13% oxidized oil and 7% fresh oil) with 10% freeze-dried powder of the 2038 culture (or with skim milk powder) for 4 weeks. The level of thiobarbituric acid-reactive substances was lower in the low-density lipoproteins (per milligram of cholesterol) from rats fed on the oxidized oil with freeze-dried powder of the 2038 culture than without it. The level of vitamin E in the plasma was higher in the rats fed on the oxidized oil with the freeze-dried powder than without it.  相似文献   

20.
PDI enzymes are oxidoreductases that catalyze oxidation, reduction and isomerization of disulfide bonds in polypeptide substrates. We have previously identified an E. histolytica PDI enzyme (EhPDI) that exhibits oxidase activity in vivo. However, little is known about the specific role of its redox-related structural features on the enzymatic activity. Here, we have studied the in vivo oxidative folding of EhPDI by mutagenic analysis and functional complementation assays as well as the in vitro oxidative folding and reductive activities by comparative kinetics using functional homologues in standard assays. We have found that the active-site cysteine residues of the functional domains (Trx-domains) are essential for catalysis of disulfide bond formation in polypeptides and proteins, such as the bacterial alkaline phosphatase. Furthermore, we have shown that the recombinant EhPDI enzyme has some typical properties of PDI enzymes: oxidase and reductase activities. These activities were comparable to those observed for other functional equivalents, such as bovine PDI or bacterial thioredoxin, under the same experimental conditions. These findings will be helpful for further studies intended to understand the physiological role of EhPDI.  相似文献   

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