Infection of Streptococcus oralis NCTC 11427 by pneumococcal phages

We have found a group of pneumococcal bacteriophages (Cp-1, Cp-7) that can successfully infect and replicate in Streptococcus oralis, whereas Dp-1 was unable to infect this species. We have also developed conditions that allowed transfection of S. oralis using Dp-1 DNA. Our results support the direct involvement of the phage-coded lysins in the liberation of the phage progeny from infected S. oralis cells. Since S. oralis and S. pneumoniae are bacteria that share the same ecological niche in humans, the availability of the system described here should allow to extend our current studies on the modular organization of the lytic enzymes and might serve as a tool to study the evolutionary relationships between host and parasite.     

Restriction cleavage maps of the DNAs of Streptococcus pneumoniae bacteriophages containing protein covalently bound to their 5'' ends

Summary Several pneumococcal bacteriophages showing a morphology similar to that previously described for Cp-1 (Ronda et al. 1981) have been isolated and purified from throat samples taken from healthy children. Three of these phages (Cp-5, Cp-7 and Cp-9) have been studied in detail and compared to Cp-1. The four phages differed in several respects, e.g. size, structural polypeptides, restriction enzyme cleavage patterns, etc. The DNA of Cp-5, Cp-7 and Cp-9 showed protease-sensitive transfecting activity. This, together with the results obtained by electrophoretic analyses as well as by isotopic labelling of these DNAs with [-³²P] ATP and polynucleotide kinase indicated that all these new phages have a protein covalently linked to the 5 ends of their DNAs as in the case of Cp-1 (García et al. 1983). Restriction enzyme cleavage maps of Cp-1, Cp-5, Cp-7 and Cp-9 have been constructed.     

Protease-Sensitive Transfection of Bacillus subtilis with Bacteriophage GA-1 DNA: a Probable Case of Heterologous Transfection

The host bacterium of bacteriophage GA-1, Bacillus sp. G1R, was compared with respect to its taxonomic relationship to Bacillus subtilis, B. licheniformis, and B. pumilis. The physiological-biochemical properties of Bacillus sp. G1R are equal to those of B. licheniformis, but the thermal denaturation midpoint of G1R DNA differs by 3 C and the buoyant density by 0.005 g/cm(3) from that of B. licheniformis. Transformation with G1R donor DNA was neither observed in B. licheniformis nor in B. subtilis-competent recipients. Bacteriophage GA-1 shows neither infectivity on B. licheniformis nor on B. subtilis. However, infection of competent B. subtilis cultures with phenol-extracted GA-1 DNA results in the production of infective GA-1 particles. The transfecting activity of GA-1 DNA is destroyed by treatment with proteolytic enzymes. Resistance of transfecting DNA to inactivation by trypsin develops earlier than that to inactivation by DNase. Protease-treated GA-1 DNA competes with transforming DNA to approximately the same extent as does untreated GA-1 DNA, suggesting that uptake of GA-1 DNA is not affected by protease treatment. CsCl density gradient centrifugation reveals that the density of trypsinized GA-1 DNA is 0.004 g/cm(3) greater than that of untreated DNA.     

Enzymatic determination of nonrandom incorporation of 5-bromodeoxyuridine in rat DNA.

Secondary cultures of normal rat embryo cells were synchronized by a double thymidine block and pulsed with 10(-7) M 5-[3H]bromodeoxyuridine (BrdUrd) OR 10(-7) M[3H]thymidine during an entire S phase (7.5 h). To examine the pattern of [3H]thymidine, DNA was immediately extracted and purified at the completion of the S phase, CsCl density gradient centrifugation revealed that substitution for thymine by bromouracil was less than 7%. Single-strand specific nucleases obtained from Aspergillus oryzae and Neurospora crassa were allowed to react with native and partially depurinated (24-29%) [3H]BrdUrd-labeled rat DNA samples, and the products were assayed by hydroxylapatite column chromatography. Approximately 4-6% of the native, nondepurinated rat DNA was hydrolyzed by both nucleases. However, 24-28% of the partially depurinated, [3H] thymidine-labeled rat DNA was hydrolyzed by both enzymes as determined by loss of mass as well as radioactivity. Whereas comparable levels of depurinated, [3H]BrdUrd-labeled DNA were physically hydrolyzed by both nucleases, nearly 65% of the radioactivity was not recovered. Native, as well as depurinated, enzyme-treated DNA samples were sequentially and preparatively reassociated into highly repetitive, middle repetitive, and nonrepetitive nucleotide sequence components. The absolute and relative specific activities of each subfraction of native [3H]thymidine-labeled DNA were comparable. [3H]BrdUrd was differentially concentrated in the middle repetitive sequences as compared to other reiteration frequency types. When depurinated, nuclease-treated DNA samples were similarly fractionated, [3H]thymine moieties were uniformly distributed thoughout all sequences. However, a differential loss of [3H]BrdUrd moieties was detected predominantly from the middle repetitive nucleotide fraction. Melting profiles of the renatured DNA samples were characteristic of each respective DNA subfraction regardless of isotopic precursor. These results suggest that [3H]BrdUrd may be differentially incorporated into A + T rich clusters of rat DNA, especially in the moderately repeated chromosomal elements.     

Induction of heat-labile sites in DNA of mammalian cells by the antitumor alkylating drug CC-1065.

CC-1065 is a very potent antitumor antibiotic capable of covalent and noncovalent binding to the minor groove of naked DNA. Upon thermal treatment, covalent adducts formed between CC-1065 and DNA generate strand breaks [Reynolds, R. L., Molineux, I. J., Kaplan, D.J., Swenson, D.H., & Hurley, L.H. (1985) Biochemistry 24, 6228-6237]. We have shown that this molecular damage can be detected following CC-1065 treatment of mammalian whole cells. Using alkaline sucrose gradient analysis, we observe thermally induced breakage of [14C]thymidine-prelabeled DNA from drug-treated African green monkey kidney BSC-1 cells. Very little damage to cellular DNA by CC-1065 can be detected without first heating the drug-treated samples. CC-1065 can also generate heat-labile sites within DNA during cell lysis and heating, subsequent to the exposure of cells to drug, suggesting that a pool of free and noncovalently bound drug is available for posttreatment adduct formation. This effect was controlled for by mixing [3H]thymidine-labeled untreated cells with the [14C]thymidine-labeled drug-treated samples. The lowest drug dose at which heat-labile sites were detected was 3 nM CC-1065 (3 single-stranded breaks/10(6) base pairs). This concentration reduced survival of BSC-1 cells to 0.1% in cytotoxicity assays. The generation of CC-1065-induced lesions in cellular DNA is time dependent (the frequency of lesions caused by a 60 nM treatment reaching a plateau at 2 h) and is not readily reversible. The induction of heat-labile sites in cellular DNA was confirmed by gel electrophoretic analyses of the damage to intracellular simian virus 40 (SV40) DNA in SV40-infected BSC-1 cells.(ABSTRACT TRUNCATED AT 250 WORDS)     

Isolation and characterization of a new bacteriophage, Cp-1, infecting Streptococcus pneumoniae.

Several pneumococcal phages showing a morphology completely different from those of all other previously found pneumococcal bacteriophages have been isolated. Bacteriophage Cp-1, one of the phages isolated, showed an irregular hexagonal structure and a short tail of 20 nm. The virion density was 1.46 g/cm3. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis revealed the presence of nine polypeptides. The polypeptide showing a molecular weight of 39,000 accounted for more than the 90% of the total protein. The nucleic acid of Cp-1 was linear, double-stranded DNA with a mean length of 6.3 microns and a guanine-plus-cytosine content of 41%; its buoyant density was 1.699 and 1.422 g/cm3 in CsCl and CS2SO4, respectively. Its sedimentation coefficient (S20,w) was 19S. Cp-1 DNA showed a remarkable resistance to a large number of restriction endonucleases. A total of 12 fragments, ranging in molecular weight from 1.3 X 10(6) to 0.09 X 10(6), were produced by AluI, two fragments (molecular weight, 5.5 X 10(6) and 0.9 X 10(6)) were generated by HindIII, and two fragments (molecular weight, 6.0 X 10(6) and 5.7 X 10(6)) were produced by HaeIII. The easy visualization of th plaques produced by Cp-1, the small size of Cp-1 DNA (12 X 10(6) daltons), and other biological and physiochemical properties make this phage potentially useful for genetic studies.     

Calcium ions as efficient cofactor of polycation-mediated gene transfer

We investigated the effect of calcium on the transfection of non-viral DNA transfer systems. Cationic proteins such as the nuclear protein H1, the polycation polylysine and a number of commercial transfection agents exhibited high transfection rates in the presence of Ca2+. Without Ca2+ H1 and HMG1 were inactive in transfection of the human permanent endothelial cell line ECV 304 while cationic liposomes such as Lipofectin and Lipofectamine did not show any Ca2+ dependence. More detailed experiments showed that Ca2+ was replaceable by the lysosomotropic agent chloroquine. Furthermore, it was possible to separate the transfection-enhancing role of Ca2+ from the actual transfection process by adding Ca2+ to the cells after the transfection period and still to obtain a significant transgene expression. This makes it possible to distinguish between cellular uptake of H1 (or mediator)-DNA complexes and endocytotic release. We also replaced soluble Ca2+ by Ca-phosphate precipitates not containing DNA and obtained similar transfection results. This allowed us to suggest that the addition of free Ca2+ to the transfection medium resulted in nascent Ca-phosphate microprecipitates. The known fusogenic and membranolytic activity of such microprecipitates could facilitate the transport through and the release of the transfecting complexes from the endosomal/lysosomal compartment.     

Phi W-14 DNA inhibits transfection of Bacillus subtilis by SPP1 DNA.

The DNA of bacteriophage phi W-14 is unusual in that half of the thymine residues are replaced with the hypermodified pyrimidine alpha-putrescinylthymine (Kropinski et al., Biochemistry 12:151-157, 1973). Bacteriophage phi W-14 DNA and Bacillus subtilis DNA exhibited comparable competing abilities for the uptake of transfecting bacteriophage SPP1 DNA by competent cells of B. subtilis. B. subtilis DNA decreased transfection and uptake to the same extent, indicating that it merely competed with SPP1 DNA for uptake. Phi W-14 DNA, however, decreased transfection up to 30 times more effectively than it inhibited uptake. Phi W-14 DNA did not alter the kinetics of transfection. The degree of inhibition of transfection was dependent upon the time of addition of Phi W-14 DNA relative to the time of addition of SPP1 DNA. If failed to inhibit when added 30 min after SPP1 DNA. It had a fourfold-greater effect when added 10 min before, rather than simultaneously with, SPP1, but this enhancement was abolished by high concentrations of SPP1 DNA. The nature of the transfection process was not altered in those cells escaping inhibition by Phi W-14 DNA: two molecules of transfecting SPP1 DNA were required to form a transfectant with or without Phi W-14 DNA. Free putrescine did not affect transfection by SPP1 DNA. It was concluded that the putrescine groups covalently attached to phi W-14 DNA allowed this DNA to interfere with the transfection process at the intracellular level.     

Ribonucleotides Linked to DNA of Herpes Simplex Virus Type 1

Cells of a continuous cell line derived from rabbit embryo fibroblasts were infected with herpes simplex type 1 virus (HSV-1) and maintained in the presence of either [5-(3)H]uridine or [methyl-(3)H]thymidine or (32)PO(4) (3-). Nucleocapsids were isolated from the cytoplasmic fraction, partially purified, and treated with DNase and RNase. From the pelleted nucleocapsids, DNA was extracted and purified by centrifugation in sucrose and cesium sulfate gradients. The acid-precipitable radioactivity of [5-(3)H]uridine-labeled DNA was partially susceptible to pancreatic RNase and alkaline treatment; the susceptibility to the enzyme decreased with increasing salt concentration. No drop of activity of DNA labeled with [(3)H]thymidine was observed either after RNase or alkali treatment. Base composition analysis of [5-(3)H]uridine-labeled DNA showed that the radioactivity was recovered as uracil and cytosine. In the cesium sulfate gradient, the purified [5-(3)H]uridine-labeled DNA banded at the same position as the (32)P-labeled DNA. The present data tend to suggest that ribonucleotide sequences are present in HSV DNA, that they are covalently attached to the viral DNA, and that they can form double-stranded structures.     

Single-stranded regions in DNA isolated from different developmental stages of the sea urchin

Long-term labeled sea urchin embryo (Strongylocentrotus purpuratus) DNAs were examined for size of recovered pieces, single-strandedness, and length of continuous double-stranded regions. Sizing on neutral sucrose gradients indicates that morula stage DNA sediments predominantly at 31 S, blastula stage DNA at 27 S, and gastrula stage DNA as a broad range of sizes of greater than 29 S. Treatment of [3H]thymidine-labeled DNA with Aspergillus oryzae S1 nuclease removes 19% of the 3H from morula stage DNA, 4% of the 3H from blastula stage DNA, and less than 0.1% of the 3H from gastrula stage DNA. Sedimentation of S1 nuclease treated [3H]DNAs on alkaline sucrose gradients indicates that in native morula stage DNA there is a nick or gap in one strand approximately every 9700 base pairs, in native blastula stage DNA about every 3300 base pairs, and very few nicks or gaps in native gastrula stage DNA.     

Cloning, purification, and biochemical characterization of the pneumococcal bacteriophage Cp-1 lysin.

Cp-1, a small virulent bacteriophage infecting Streptococcus pneumoniae, encodes its own lytic enzyme (CPL). A fragment of Cp-1 DNA containing the gene cpl coding for CPL was cloned and expressed in high amounts in Escherichia coli. CPL was purified to electrophoretic homogeneity by using affinity chromatography on choline-Sepharose (T. Briese and R. Hakenbeck, Eur. J. Biochem. 146:417-427, 1985), and the enzyme showing a Mr of 39,000 was characterized as a muramidase. This muramidase required for in vivo and in vitro activity the presence of choline in the teichoic acids of the pneumococcal cell walls. Free choline or lipoteichoic acid noncompetitively inhibited the activity of CPL.     

Unscheduled DNA synthesis in rat pleural mesothelial cells treated with mineral fibres

Unscheduled DNA synthesis (UDS) was studied in confluent rat pleural mesothelial cells (RPMCs) arrested in G0/G1 with hydroxyurea (HU) and treated with various fibre types, i.e., chrysotile, crocidolite or attapulgite. In addition, the effects of UV light and of benzo[a]pyrene were determined as references. Using autoradiography after [3H]thymidine incorporation ([3H]dThd), RPMCs treated with 4 micrograms/cm2 of chrysotile fibres exhibited a low but significant enhancement of net grains compared to untreated cells. Treatment with higher doses of chrysotile was not possible because of the impairment of microscopic observation due to the presence of the fibres. Using liquid scintillation counting, RPMCs treated with chrysotile or crocidolite showed a significant dose-dependent increase in [3H]dThd incorporation compared to untreated cells. In contrast, attapulgite did not enhance [3H]dThd incorporation compared to untreated cells. Treatment of RPMCs with 1, 2 or 4 micrograms/ml of benzo[a]pyrene resulted in a significant increase in [3H]dThd incorporation. In order to discount a possible role of S cells in the augmentation of [3H]dThd incorporation, despite the presence of 5 mM HU, S cells were counted by autoradiography. Results indicated that the percentage of S cells was similar in asbestos-treated and untreated cultures. Stimulation of the S phase also seems unlikely because treatment of RPMCs with asbestos fibres in the absence of HU resulted in a reduction of [3H]dThd incorporation attributed to an impairment of the S phase by the fibres. 1-4 micrograms/ml benzo[a]pyrene or 10-50 J/m2 UV light resulted in an approximate doubling of [3H]dThd incorporation. The effects of inhibitors of DNA repair were determined in chrysotile-treated RPMCs. [3H]dThd incorporation was inhibited by cytosine arabinoside and nalidixic acid. These results show that asbestos produces UDS in RPMCs.     

Inhibition of mammalian DNA replication by dichlorobenzimidazole riboside

We have investigated the effect of the nucleoside analogue 5,6-dichloro-1-β- -ribofuranosyl-benzimidazole (DRB) on DNA synthesis in the L-929 line of mouse fibroblasts. Earlier studies have shown that this compound selectively inhibits the synthesis of a major fraction of nuclear heterogeneous RNA (hnRNA). At 60–75 μM, DRB decreases the rate of nuclear hnRNA synthesis by two-thirds and prevents the appearance in the cytoplasm of almost all poly(A)-containing messenger RNA (mRNA). At similar dose levels, DRB inhibits the overall rate of DNA synthesis as measured by thymidine incorporation by only 20% (after correction for decreased thymidine uptake into total cellular material). Analyses of density gradients of BUdR and [³H]thymidine-substituted DNA and of autoradiograms of extended fibers of [³H]thymidine-labeled DNA confirm this inhibition and suggest that DRB acts on DNA solely by reducing the rate of replication fork movement. The apparent size of replication units is unchanged by drug treatment. DRB also inhibits the transport of thymidine into cells. As determined by kinetic studies of thymidine uptake, transport is inhibited competitively by drug treatment. Several other aspects of thymidine metabolism are not affected by DRB. It does not alter the size of the total dTTP pool, and there is no breakdown of template DNA in DRB-treated cells.     

Inhibition of protein and nucleic acid synthesis of animal cells in vitro mediated by high molecular weight inhibitors in human liver extract.

1. The addition of human liver extract to HeLa cells induces a reversible inhibition of the incorporation of [3H] thymidine into the DNA, [3H] uridine into the RNA, and 14C-labelled amino acids into the protein of HeLa cells. The inhibitory effects appear after treatment for 1 h and reach a maximum after 4-8 h. These effects do not depend on a defective precursor penetration, isotopic dilution or degradation of labelled precursor (thymidine-degrading enzymes were inactivated by the addition of unlabelled thymine), reduced activity of thymidine and uridine kinase, medium impairment, or an impairment of the cell-membrane function. 2. The nucleic acid synthesis-inhibiting activity of the extract seems to be dependent on cellular protein synthesis but independent of RNA synthesis which indicates that the inhibitors act in an indirect way. Furthermore, the inhibitors seem to lack the tissue-specific character of chalones. 3. The extract contains separate inhibitors of DNA, RNA and protein synthesis. These inhibitors were found to have different physical-chemical characteristics and to be macromolecules with a protein or conjugated protein character (mol. wt. approx. 90 000). 4. The possibility that the activity of the high molecular weight inhibitors resides in low molecular weight factors (bound to protein carriers) was tested: No true low molecular weight inhibitors could be liberated by extraction with trichloroacetic acid/organic solvents or by dialysis/enzymatic treatments. Nucleosides such as thymidine, uridine, and cytidine, however, were liberated and could be shown to interfere with the uptake of [3H] thymidine/[3H] uridine.     

A study of the change in DNA synthesis of S phase cells treated with N-methyl-N-nitrosourethane: a study using Amoeba proteus as a single cell model.

The present experiments using Amoeba proteus as a single cell model show that DNA synthesis continues during and after exposure of S phase cell to N-methyl-N'-nitrosourethane (MNU). At sublethal dose levels which caused long division delays, division and growth abnormalities and mutations, the amount of [3h] thymidine ([3h]Tdr) incorporated was decreased by 20-30%; at dose levels which killed all S phase cells it was inhibited by up to 90%. There was a direct correlation between the dose of MNU used and the degree of inhibition of [3H]Tdr incorporated. The effect was rapid, mainly taking place within 20 min of treatment. Amoeba heterokaryons (HKs) were used to examine the rate of DNA synthesis of treated and untreated nuclei in the same cytoplasm, i.e. where the nuclei would have the same [h]tdr intake, the same thymidine kinase (TK) activity and the same endogenous precursor pools. Direct comparison of the nuclear DNA synthetic activity in this way revealed less difference between treated and untreated nuclei than comparisons made using the nuclear grain counts from treated and untreated amoebae. This suggested that much of the decrease in [3H]Tdr incorporation by MNU-treated S phase cells was due to a change in the cytoplasm and/or the cell membrane, rather than to nuclear damage. Thus MNU-treated nuclei were able to synthesize DNA at a near normal rate when they could draw on the resources of untreated cytoplasm, while the rate of DNA synthesis of control nuclei decreased when they occupied cytoplasm which had been exposed to high doses of MNU. These studies suggest that nuclear sites of damage were only involved when lethal doses of MNU had been used.     

Role of the pneumococcal autolysin (murein hydrolase) in the release of progeny bacteriophage and in the bacteriophage-induced lysis of the host cells.

The pneumococcal bacteriophage Dp-1 seems to require the activity of the N-acetylmuramic acid-L-alanine amidase of the host bacterium for the liberation of phage progeny into the medium. This conclusion is based on a series of observations indicating that the exit of progeny phage particles is prevented by conditions that specifically inhibit the activity of the pneumococcal autolysin. These inhibitory conditions are as follows: (i) growth of the bacteria on ethanolamine-containing medium; (ii) growth of the cells at pH values that inhibit penicillin-induced lysis of pneumococcal cultures and lysis in the stationary phase of growth; (iii) addition of trypsin or the autolysin-inhibitory pneumococcal Forssman antigen (lipoteichoric acid) to the growth medium before lysis; (iv) infection of an autolysin-defective pneumococcal mutant at a multiplicity of infection less than 10 (treatment of such infected mutant bacteria with wild-type autolysin from without can liberate the entrapped progeny phage particles); (v) release of phage particles and culture lysis can also be inhibited by the addition of chloramphenicol to infected cultures just before the time at which lysis would normally occur. Bacteria infected with Dp-1 under conditions nonpermissive for culture lysis and phage release secrete into the growth medium a substantial portion of their cellular Forssman antigen in the form of a macromolecular complex that has autolysin-inhibitory activity. We suggest that a phage product may trigger the bacterial autolysin by a mechanism similar to that operating during treatment of pneumococci with penicillin (Tomasz and Waks, 1975).     

Vaccinia-T7 RNA polymerase expression system: evaluation for the expression cloning of plasma membrane transporters

The vaccinia/T7 transient expression system, which results in rapid, high-level expression of proteins encoded by plasmids bearing T7 promoters, provides a powerful strategy for the expression cloning of membrane transporters. To test the feasibility of this approach, we introduced the rabbit Na+/glucose transporter by liposome-mediated transfection into vaccinia infected HeLa cells and determined the characteristics and sensitivity of induced [14C]alpha-methyl D-glucopyranoside uptake. We observed a rapid (4-12 h) expression of saturable (Kt = 342 microM) [14C]alpha-methyl D-glucopyranoside uptake following transfection, with substrate and inhibitor sensitivities of the native carrier, including Na+ and temperature dependence and appropriate phloridzin sensitivity (KI = 9.1 microM). The time-dependent increase in alpha-methyl D-glucopyranoside uptake coincided with a decline in endogenous Na+/D-aspartate transport. Maximal levels of expression achieved were nearly 10-fold higher than that reported for transient expression of Na+/glucose transporters in the COS cell system. Rate and dilution estimates demonstrates a sensitivity of detection of single clones diluted several thousand fold by nonspecific plasmid DNA. A further 3-fold increase in transport sensitivity was achieved after transfection of plasmid constructs bearing additional 5'-T7 stem-loop and 3'-T7 termination signals. When cell lines with low endogenous transport were coupled with substrates of high specific activity, as with measurements of induced [3H]gamma-aminobutyric acid uptake, we were able to detect expression from transporter bearing plasmids diluted as much as 10,000-fold by non-specific plasmid DNA.(ABSTRACT TRUNCATED AT 250 WORDS)     

Chimeric pneumococcal cell wall lytic enzymes reveal important physiological and evolutionary traits.

Two novel chimeric pneumococcal cell wall lytic enzymes, named LC7 and CL7, have been constructed by in vitro recombination of the lytA gene encoding the major autolysin (LYTA amidase) of Streptococcus pneumoniae, a choline-dependent enzyme, and the cpl7 gene encoding the CPL7 lysozyme of phage Cp-7, a choline-independent enzyme. In remarkable contrast with previous chimeric constructions, we fused here two genes that lack nucleotide homology. The CL7 enzyme, which contains the N-terminal domain of CPL7 and C-terminal domain of LYTA, exhibited a choline-dependent lysozyme activity. This experimental rearrangement of domains might mimic the process that have generated the choline-dependent CPL1 lysozyme of phage Cp-1 during evolution, providing additional support to the modular theory of protein evolution. The LC7 enzyme, built up by fusion of the N-terminal domain of LYTA and the C-terminal domain of CPL7, exhibited an amidase activity capable of degrading ethanolamine-containing cell walls. The chimeric amidase behaved as an autolytic enzyme when it was cloned and expressed in S. pneumoniae. The chimeric enzymes provided new insights on the mechanisms involved in regulation of the host pneumococcal autolysins and on the participation of these enzymes in the process of cell separation. Furthermore, our experimental approach confirmed the basic role of the C-terminal domains in substrate recognition and revealed the influence of these domains on the optimal pH for catalytic activity.     

Analyses of the interactions between retinoid-binding proteins and embryonal carcinoma cells

[3H]Retinoic acid (RA) and [3H]retinol bind in an unsaturable manner to isolated nuclei from Nulli-SCC1 and PCC4.aza1R embryonal carcinoma (EC) cells. When nuclei are challenged with the same labeled retinoids on their respective binding proteins (CRABP and CRBP), much less binding is observed and the binding is saturable. RA-CRABP does not compete with [3H]retinol-CRBP for binding to specific Nulli-SCC1 nuclear sites, whereas retinol-CRBP (but not apo-CRBP) actually potentiates the binding of [3H]RA-CRABP to these nuclei. The binding of [3H]RA-CRABP and [3H]retinol-CRBP is not dramatically affected by prior removal of the outer nuclear membrane with Triton X-100. However, treatment with the detergent after the binding reaction is complete removes about half of the bound [3H]RA-CRABP and almost all of the bound [3H]retinol-CRBP. We measured specific retinoid-binding activities in nucleoplasmic extracts of Nulli-SCC1 and PCC4.aza1R cells. The only readily detectable specific binding activity in nucleoplasmic extracts from untreated cells was for [3H]retinol in PCC4.aza1R preparations. Nucleoplasmic extracts from Nulli-SCC1 and PCC4.aza1R cells pretreated with RA had considerable levels of specific [3H]RA-binding activity with little or no increase in [3H]retinol binding. By contrast, similar extracts from Nulli-SCC1 cells treated with retinol bound large amounts of both [3H]retinol and [3H]RA. Under the same conditions, PCC4.aza1R extracts also contained [3H]RA-binding activity with no increase in [3H]retinol binding above the high endogenous levels. Although these results might reflect translocation of binding proteins from cytoplasm to nucleus, other interpretations must be considered since we often observed an increase, rather than the expected reduction, in cytoplasmic retinoid-binding protein levels.