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1.
L S Kappen  I H Goldberg 《Biochemistry》1980,19(21):4786-4790
The methanol-extracted, nonprotein chromophore of the protein antibiotic neocarzinostatin (NCS), which possesses the full in vitro and in vivo deoxyribonucleic acid (DNA) strand-breaking activities and the ability to inhibit DNA synthesis and growth in HeLa cells of the holoantibiotic, is much more labile to inactivation by heat, 2-mercaptoethanol, long-wavelength UV light, and pH values above 4.8. Inactivation is inversely related to the methanol concentration. The pH activity profile of the isolated chromophore extends to pH values below 7.0. Chromophore inactivation is specifically blocked by the apoprotein of NCS; 100-fold higher concentrations of the apoprotein of another protein antibiotic, auromomycin, gave similar protection, whereas bovine serum albumin is even less effective. The chromophore, and not the apoprotein, is inactivated by heat or light (360 nm) as determined by both activity and isoelectric focusing experiments. In contrast to other chromophoric antibiotic substances (daunorubicin and the extracted chromophore of aurodomomycin), the NCS chromophore interacts irreversibly with HeLa cells at 0 degrees C in serum-free medium so as to inhibit subsequent DNA synthesis at 37 degrees C. Such interaction at 0 degrees C is very rapid, reaching 50% completion in about 15 s, and is not found with native NCS or when apo-NCS is added before the chromophore or when serum is included in the preincubation at 0 degrees C. Washing with apo-NCS or serum-containing (or-free) medium after preincubation of the cells with the chromophore at 0 degrees C fails to reverse the subsequenct inhibition of DNA synthesis.  相似文献   

2.
Two and three-dimensional solution nuclear magnetic resonance studies of the 11K apoprotein from natural antitumor agent neocarzinostatin (NCS) were extended to elucidation of the high-resolution structure by the use of restrained molecular dynamics computations. The refined structures attained convergency upon three steps of iterative calculations, in which more distance restraints were extracted from experimental data, and the existing distance bounds were optimized on the basis of computed structures. The solution structures of apo-NCS contain seven antiparallel beta-strands, which form two closely located beta-sheets and a short beta-segment. This protein lacks any alpha-helical component. The alignment of the seven beta-strands gives rise to a beta-barrel with an elongated diameter in one direction. The global structure of apo-NCS resembles that of the Ig-fold domain found in immunoglobulins and other structurally related beta-proteins. Residues responsible for side-chain packing and the possible salt-bridge formation important for protein folding were identified. Neocarzinostatin and the analogous proteins are known to exert their biological activity through the interaction of DNA with a chromophoric molecule, which is non-covalently bound to the apo-proteins. This molecular chromophore-binding site in apo-NCS is made of a cavity consisting of residues from the four-beta-stranded sheet and the short beta-segment. Although the solution structures of apo-NCS are similar to that of the analogous apoauromomycin in the crystalline state, difference in the shape of the binding cavities between the two was found. This study provides a structural basis for characterization of the specific recognition and molecular mechanism of the antitumor NCS chromophore binding to its host protein.  相似文献   

3.
L F Povirk  I H Goldberg 《Biochemistry》1980,19(21):4773-4780
The methanol-extracted, nonprotein chromophore of neocarzinostatin (NCS), which has DNA-degrading activity comparable to that of the native antibiotic, was found to have a strong affinity for DNA. Binding of chromophore was shown by (1) quenching by DNA of the 440-nm fluorescence and shifting of the emission peak to 420 nm, (2) protection by DNA against spontaneous loss of activity in aqueous solution, and (3) inhibition by DNA of the spontaneous generation of 490-nm fluorescence. Good quantitative correlation was found between these three methods in measuring chromophore binding. There was nearly a 1:1 correspondence between loss of chromophore activity and generation of 490-nm fluorescence, suggesting spontaneous degradation of active chromophore to a highly fluorescent product. Chromophore showed a preference for DNA high in adenine + thymine content in both fluorescence quenching and protection studies. NCS apoprotein, which is known to bind and protect active chromophore, quenched the 440-nm fluorescence, shifted the emission peak to 420 nm, and inhibited the generation of 490-nm fluorescence. Chromophore had a higher affinity for apoprotein than for DNA. Pretreatment of chromophore with 2-mercaptoethanol increased the 440-nm fluorescence seven-fold and eliminated the tendency to generate 490-nm fluorescence. The 440-nm fluorescence of this inactive material was also quenched by DNA and shifted to 420 nm, indicating an affinity for DNA comparable to that of untreated chromophore. However, its affinity for apoprotein was much lower than that of untreated chromophore. Both 2-mercapto-ethanol-treated and untreated chromophore unwound supercoiled pMB9 DNA, suggesting intercalation by both molecules. Since no physical evidence for interaction of native neocarzinostatin with DNA has been found, it is likely that dissociation of the chromophore from the protein and association with DNA are important steps in degradation of DNA by neocarzinostatin.  相似文献   

4.
Neocarzinostatin (NCS) is the most studied member of a family of chromoproteins secreted by a range of actinomycetes species. It has been proposed that in addition to their antitumoral activity related to the bound chromophores, this group of related proteins could be a secreted proteases superfamily. With the aim of dissecting the molecular basis of the proteolytic activity of NCS, an expression system allowing efficient expression of apo-NCS in Escherichia coli was constructed. The recombinant protein was properly folded and functional. Its histone-specific proteolytic activity was similar to the activity described for the natural protein. Further analyses unambiguously demonstrated that the proteolytic activity could be physically separated from NCS. This activity is therefore due not to NCS itself but to minor contaminating proteases, the nature of which differed in the recombinant and natural NCS preparations. The histone degradation test commonly used to monitor proteolytic activity is extremely sensitive and may easily generate false-positive results. These results strongly suggest that the possible proteolytic activity of the proteins of this family should be critically reconsidered.  相似文献   

5.
Tyr-72 is included in the hydrophobic cleft which is formed in the histone H1 globular head. Tyr-72 is screened against polar aqueous environment and its intramolecular mobility is sharply retarded. This microenvironment causes a red shift (lambda max = 279 nm) and a sharpening of the longer wavelength shoulder of absorption spectra, a high fluoresence anisotropy value (A = 0,11), high quantum yield of fluoresence (approximately 0.2) and a decrease of the Stern-Volmer Constant during quenching of histone H1 fluorescence by acrylamide. It has been found that the change in the intensity of histone fluorescence at lambda excit = 265 nm, but not at lambda excit = 280 nm, is due to the changes in the quantum yield of fluorescence. The increase of fluorescence intensity at lambda excit = 280 nm depends on the changes in the quantum yield and molar extinction coefficient of histone H1 tyrosyl chromophore. The change in the ratio of fluorescence intensity exited at 280 nm (F280) to the fluorescence intensity excited at 265 nm (F265) corresponds to the change of delta epsilon 286 in difference absorption spectra. The introduction of the parameter Cf = F280/F265 allows one to go over to studying excitation spectrum shifts instead of histone absorption spectrum shifts, which is much more convenient methodologically since in this case it is possible to carry out research using lower protein concentrations and turbid solutions. The results make it possible to designate Tyr-72 of histone H1 as a special class of fluorescent tyrosyls whose properties differ from those of tyrosyls of other tryptophane-free proteins: RNAase, insulin, core histones--H2A, H2B, H3, H4 and some others.  相似文献   

6.
7.
Antitumor antibiotic chromoproteins such as neocarzinostatin involve a labile toxin that is tightly bound by a protective protein with very high affinity but must also be freed to exert its function. Contrary to the prevalent concept of ligand release, we established that toxin release from neocarzinostatin requires no major backbone conformational changes. We report, herein, that subtle changes in the side chains of specific amino acid residues are adequate to gate the release of chromophore. A recombinant wild type aponeocarzinostatin and its variants mutated around the opening of the chromophore binding cleft are employed to identify specific side chains likely to affect chromophore release. Preliminary, biophysical characterization of mutant apoproteins by circular dichroism and thermal denaturation indicate that the fundamental structural characteristics of wild type protein are conserved in these mutants. The chromophore reconstitution studies further show that all mutants are able to bind chromophore efficiently with similar complex structures. NMR studies on 15N-labeled mutants also suggest the intactness of binding pocket structure. Kinetic studies of chromophore release monitored by time course fluorescence and quantitative high pressure liquid chromatography analyses show that the ligand release rate is significantly enhanced only in Phe78 mutants. The extent of DNA cleavage in vitro corresponds well to the rate of chromophore release. The results provide the first clear-cut indication of how toxin release can be controlled by a specific side chain of a carrier protein.  相似文献   

8.
9.
Aequorin is a Ca2(+)-binding protein that emits light upon reacting with Ca2+ and has been used as a probe for monitoring changes in the intracellular free Ca2+ concentration, [Ca2+]i. The protein consists of three components: apoaequorin (apoprotein), molecular oxygen and a chromophore. The present study was designed to conditionally express the apoaequorin cDNA of the jellyfish Aequorea victoria under the control of the GAL1 promoter in the yeast Saccharomyces cerevisiae and to investigate whether apoaequorin can be accumulated in high enough concentration in the cells to detect a Ca2+ signal in vitro. The results showed that the cells accumulated sufficient amounts of recombinant apoaequorin when incubated in the galactose-based medium and that the protein was active and not toxic to the cells, suggesting that the recombinant apoaequorin may be applicable to monitoring changes in [Ca2+]i in intact yeast cells.  相似文献   

10.
Rhodopsin, the visual pigment mediating vision under dim light, is composed of the apoprotein opsin and the chromophore ligand 11-cis-retinal. A P23H mutation in the opsin gene is one of the most prevalent causes of the human blinding disease, autosomal dominant retinitis pigmentosa. Although P23H cultured cell and transgenic animal models have been developed, there remains controversy over whether they fully mimic the human phenotype; and the exact mechanism by which this mutation leads to photoreceptor cell degeneration remains unknown. By generating P23H opsin knock-in mice, we found that the P23H protein was inadequately glycosylated with levels 1-10% that of wild type opsin. Moreover, the P23H protein failed to accumulate in rod photoreceptor cell endoplasmic reticulum but instead disrupted rod photoreceptor disks. Genetically engineered P23H mice lacking the chromophore showed accelerated photoreceptor cell degeneration. These results indicate that most synthesized P23H protein is degraded, and its retinal cytotoxicity is enhanced by lack of the 11-cis-retinal chromophore during rod outer segment development.  相似文献   

11.
Fluorescence lifetimes of 'large (mol. wt. 120,000) and 'small' (mol. wt. 60,000) phytochromes isolated from oat and rye seedlings grown in the dark have been measured at 199 K and 298 K. Phytochrome model compounds have also been studied by phase modulation fluorometrically at 77 K for comparison with lifetime data for phytochrome. It was found that the fluorescence lifetime of 'large' phytochrome was significantly shorter than that of 'small' phytochrome and its chromophore models. The phytochrome chromophore of Pr form has been analyzed by fluorescence polarization, CD, and molecular orbital methods. The fluorescence excitation polarization of 'small' phytochrome and the chromophore model in buffer/glycerol mixture (3 : 1, v/v) at 77 K is very hight (0.4) at the main absorption band and is negative (--0.1) and close to 0 in the near ultraviolet band, respectively. Analyses of the spectroscopic data suggest that the chromophore conformation of Pr and Pfr forms of phytochrome are essentially identical. The induced ellipticity of 'large' rye phytochrome in the blue and near ultraviolet regions was found to be significantly higher than that of 'small' phytochrome, indicating that the binding interaction between the phytochrome chromophore and apoprotein is much tighter in the former than in the latter. In addition, the excitation energy transfer does occur from Trp residue(s) to the chromophore in 'large' phytochrome but not in 'small' Pr. This illustrates one feature of the role played by the large molecular weight apoprotein in the binding site interactions and primary photoprocesses of Pr. Finally, a plausible model for the primary photoprocesses and the mechanism of phytochrome interactions triggered by the Pr leads to Pfr phototransformation have been proposed on the basis of the above results.  相似文献   

12.
The interaction between dipalmitoylphosphatidylcholine (DPPC) and the aqueous form of the myelin proteolipid apoprotein (PLA) has been investigated. Lyophilization was found to be an efficient and nonperturbing method for membrane reconstitution. Mixtures of different lipid/protein ratios were analyzed by means of differential calorimetry, fluorescence polarization, and sucrose gradient centrifugation. The presence of two coexisting lipid populations, termed "bulk" and "interacting" lipids, was demonstrated by these three techniques. By differential calorimetry, 23 DPPC molecules per molecule of protein (30 kDa) were shown to be excluded from the lipid phase transition. By fluorescence polarization, we detected above the phase-transition temperature a large perturbation of the lipid acyl chain dynamics induced by the aqueous form of PLA. Increasing the protein content above 35% by weight within the recombinants caused drastic changes in both delta H values and the fluorescence anisotropy parameter, which could stem from protein aggregation.  相似文献   

13.
The equilibrium interactions between histone H2A-H2B and H3/H4 subunits with 200 base pair chicken erythrocyte DNA have been studied by monitoring the fluorescence polarization of a long-lived fluorescence probe covalently bound to the histone subunits. These studies have brought to light the formation of highly asymmetric complexes exhibiting very high histone/DNA stoichiometries as well as very high apparent affinities. The stoichiometries observed for these non-nucleosome complexes depended both upon the concentration of the histones and the concentration of the DNA 200mer. The observed stoichiometries varied approximately between 4 and 16 histone octamers/DNA 200mer and the affinities were in the nanomolar range. These results are discussed in terms of their in vitro as well as their possible in vivo significance.  相似文献   

14.
The natural complex Neocarzinostatin comprises a labile chromophore noncovalently bound to an 11.2 kDa protein. We present the first high-resolution structure of a novel complex derived from the recombinant apoprotein bound to a non-natural synthetic chromophore. Fluorescence and nuclear magnetic resonance spectroscopy were used to probe the strength and location of binding. Binding occurred in a location similar to that observed for the chromophore in the natural Neocarzinostatin complex, but with a distinct orientation. These results provide structural evidence that the apoprotein can readily accommodate small druglike entities, other than the natural chromophore within its binding cleft. The clinical use of the natural complex described by others, together with the results reported here, suggests potential applications for small molecule binding by apo-Neocarzinostatin.  相似文献   

15.
In the present study, for the first time we have investigated the interaction of anticancer drug mitoxantrone with histone H1 and core histone proteins in solution using fluorescence, UV/Vis, CD spectroscopy and thermal denaturation techniques. The results showed that mitoxantrone reduced the absorbencies of H1 and core histone proteins at 210 nm (hypochromicity) and fluorescence emission intensity was decreased in a dose dependent. Binding of mitoxantrone changed secondary structures of the proteins as circular dichroism analysis confirmed it. Also, mitoxantrone increased the melting temperature of core histones at the final step of denaturation. The results suggest higher affinity of mitoxantrone to histone H1 compared to core histones providing histone proteins as a new target for mitoxantrone action at the chromatin level.  相似文献   

16.
C A Royer  R M Rusch  S F Scarlata 《Biochemistry》1989,28(16):6631-6637
The salt concentration dependence of the aggregation properties of calf thymus and chicken erythrocyte histones has been investigated by using fluorescence spectroscopy. The isolated H2A/H2B and H3/H4 subunit preparations were labeled with 5-(dimethylamino)naphthalene-1- sulfonyl (dansyl). This long-lived fluorescence probe allows for the observation of rotations due to tumbling of the particle and thus is a probe for changes in the size of macromolecular assemblies. The fluorescence polarization and lifetime were measured as a function of salt concentration for these isolated preparations. Next, each labeled preparation was reconstituted with its unlabeled complement, and the salt concentration dependence of histone core octamer interactions was investigated in the same manner. Salt-induced core particle formation was observed by monitoring the dansyl-labeled dimers for both the calf thymus and chicken erythrocyte preparations. Evidence for subunit dissociation of the isolated H2A-H2B preparations was also found, as well as aggregation of the isolated H3/H4 subunits to at least dimers of tetramers. The calf thymus H3/H4 preparation was in aggregated form under all conditions studied, whereas the chicken erythrocyte H3/H4 only formed aggregates at high protein or salt concentrations. We have found evidence that the dimer can displace the tetramer from the higher order aggregate in order to form core particles. Such competition between the subunit interfaces in the histone system suggests that they may play a regulatory role in histone-DNA interactions.  相似文献   

17.
Luminescenceiscommoninavarietyofmarineinvertebrates.Manycnidariaemitgreenfluorescencewhenmechanicallydisturbed.Thegreenlightofcnidariaisduetotheprescenceofgreenfluorescentprotein(GFP)[1],whichhasbeencharacterized.TheGFPfromAequoreavictoria,aproteinof238ami…  相似文献   

18.
H1 histones bind to linker DNA. H1t (H1f6), a testis‐specific linker histone variant, is present in pachytene spermatocytes and spermatids. The expression of H1t histone coincides with the acquisition of metaphase I competence in pachytene spermatocytes. Here we report the generation of H1t‐GFP transgenic mice. The H1t‐GFP (H1 histone testis‐green fluorescence protein) fusion protein expression recapitulates the endogenous H1t expression pattern. This protein appears first in mid pachytene spermatocytes in stage V seminiferous tubules, persists in round spermatids and elongating spermatids, but is absent in elongated spermatids. The strong green fluorescence signal, due to the high abundance of H1t‐GFP, is maintained in spermatocytes after induction towards metaphase I through treatment with okadaic acid. Therefore, H1t‐GFP can be used as a visual marker for monitoring the progression of meiosis in vitro and in vivo, as well as fluorescence‐activated cell sorting (FACS) sorting of germ cells.  相似文献   

19.
The inhibitory effect of a nonprotein chromophore removed from neocarzinostatin on protein phosphorylation by nuclear protein kinase in vitro has been studied. Low levels of the chromophore greatly inhibited protein phosphorylation in vitro. This inhibition, however, was not selectively dependent on the indicated kinases and their different phosphate acceptors (histones and non-histone protein). In contrast, the protein component (apoprotein) of neocarzinostatin did not affect the phosphorylation even at a concentration of 400-times higher than that of the chromophore. Moreover, apoprotein suppressed the chromophore-induced inhibition of protein phosphorylation in vitro in proportion to the apoprotein concentrations. Kinetic and analytical experiments suggest that the chromophore-induced inhibition of protein phosphorylation seems to be due to the binding of the chromophore to the kinases. In addition, we found that ultraviolet irradiation as well as methanol extraction can release the chromophore from neocarzinostatin, but it exhibits no inhibitory activity of DNA synthesis in growing cells. The fact that the chromophore-induced inhibition of protein phosphorylation in vitro was not sensitive to ultraviolet irradiation, which rapidly inactivated the ability of the chromophore to induce DNA degradation in vitro, suggests that there are different actions involved in the two inhibitions induced by the chromophore which is removed from neocarzinostatin.  相似文献   

20.
Neocarzinostatin is a potent enediyne antitumor antibiotic complex in which a chromophore is noncovalently bound to a carrier protein. The protein regulates availability of the drug by proper release of the biologically active chromophore. To understand the physiological mechanism of the drug delivery system, we have examined the trifluoroethanol (TFE)-induced conformational changes of the protein with special emphasis on their relation to the release of the chromophore from holoneocarzinostatin. The effect of the alpha helix-inducing agent, TFE, on all the beta-sheet neocarzinostatin proteins was studied by circular dichroism, fluorescence, and (1)H NMR studies. By using binding of anilinonaphthalene sulfonic acid as a probe, we observed that the protein exists in a stable, partially structured intermediate state around 45-50% TFE, which is consistent with the results from tryptophan fluorescence and circular dichroism studies. The native state is stable until 20% TFE and is half-converted into the intermediate state at 30% TFE, which starts to collapse beyond 50%. High pressure liquid chromatographic analysis of the release of the chromophore caused by TFE treatment at 0 degrees C suggests that the release process, which occurs below 20% TFE, does not result from an observable conformational change in the protein. Kinetic measurements of the release of chromophore at 25 degrees C reveal that TFE does stimulate the rate of release, which increases sharply at 15% and reaches a maximum at 20% TFE, although no major secondary or tertiary structural change of the carrier protein is observed under these same conditions. Our data suggest that chromophore release results from a fluctuation of the protein structure that is stimulated by TFE. Complete release of the chromophore occurs at TFE concentrations where no overall observable unfolding of the apoprotein is seen. Thus, the results suggest that denaturation of the protein by TFE is not a necessary step for release of the tightly bound chromophore.  相似文献   

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