The effect of macromolecular conjugates of daunorubicin on nuclear ultrastructure in Trypanosoma brucei rhodesiense

The effects of free and conjugated daunorubicin on T.b. rhodesiense in vitro are described. Free drug caused nucleolar lesions ranging from segregation to complete fragmentation. At equimolar concentrations a soluble bovine serum albumin conjugate with a stable succinyl linkage (D-BSAS) produced no ultrastructural lesions whereas a conjugate with a labile glutaraldehyde linkage (D-BSAG) and a conjugate linked to large agarose beads (D-ag) produced similar though less severe lesions than free drug. Polyisobutylcyanoacrylate nanoparticles caused trypanosomal lysis both with (D-PICA) and without adsorbed daunorubicin.     

Trypanocidal activity of free and carrier bound daunorubicin

Activities of a range of macromolecular conjugates of daunorubicin against Trypanosoma brucei rhodesiense in vitro and in vivo are described and compared to those of free daunorubicin. Conjugates tested were daunorubicin attached to bovine serum albumin by (i) a labile 'glutaraldehyde' linkage (D-BSAG), and (ii) a stable succinyl linkage (D-BSAS), daunorubicin covalently linked to agarose beads (D-AG), and daunorubicin adsorbed onto polyisobutylcyanoacrylate nanoparticles (D-PICA). Trypanocidal activity in vitro was retained in all except D-BSAS, whereas in vivo only D-BSAG had any activity. The results indicate that daunorubicin must be released from the conjugate before it can exert its activity.     

Novel daunorubicin-carrier peptide conjugates derived from human calcitonin segments

Severe and often therapy-limiting side effects are a major obstacle in cancer chemotherapy. New delivery concepts reducing systemic side effects are needed in order to optimize anticancer therapies. Several approaches have been followed, most of them concentrating on macromolecular carriers like liposomes, monoclonal antibodies, serum proteins or polyethylene glycol. We present here a novel type of anthracycline conjugate, using a small carrier peptide derived from the peptide hormone human calcitonin (hCT). The carrier peptide hCT(9-32) has so far been shown to be capable of transporting fluorophores or proteins across cellular membranes. Two different carrier peptide-daunorubicin conjugates were prepared, one with an acid-stable amide bond, the second with an acid-labile hydrazone bond. In vitro studies with daunorubicin linked to the carrier peptide via an acid-labile hydrazone bond demonstrated comparable cytotoxicity to daunorubicin in various daunorubicin sensitive cell lines (neuroblastoma cell lines SK-N-MC and SMS-KAN; HEK 293 T cells). In addition, fluorescence microscopy provided further insight into the mechanism of uptake of the carrier peptide hCT(9-32), indicating that endosomal compartments with reduced pH are involved in the intracellular release of daunorubicin.     

Acetaminophen stimulates the peroxidative metabolism of anthracyclines

Acetaminophen, a common analgesic and antipyretic drug, is frequently administered to individuals undergoing anthracycline chemotherapy. Here, the effect of acetaminophen on the metabolism of daunorubicin and doxorubicin by isolated enzymes lactoperoxidase and myeloperoxidase, and by myeloperoxidase-containing human leukemia HL-60 cells was investigated using spectrophotometric and EPR techniques. We report that at pharmacological concentrations acetaminophen strongly stimulates oxidation of the anthracyclines by lactoperoxidase and myeloperoxidase systems, which results in irreversibly altered (colorless) products. The initial rate and efficacy of daunorubicin oxidation depends on pH. While at pH approximately 7 the oxidation is rapid and extensive, almost no oxidation occurs at pH approximately 5. In the absence of daunorubicin, oxidation of acetaminophen by lactoperoxidase/hydrogen peroxide is only weakly dependent on pH, however, at pH 7.4 it strongly depends on [daunorubicin]. Ascorbate and reduced glutathione strongly inhibited oxidation of anthracyclines by lactoperoxidase and HL-60 systems. Using EPR, a daunorubicin-derived radical was detected in a daunorubicin/acetaminophen/peroxidase/hydrogen peroxide system as a narrow single line (0.175 mT) with g = 2.0047. When daunorubicin was omitted, only an acetaminophen-melanin EPR signal was detected (g = 2.0043, line width approximately 0.5 mT). Similar results were obtained with doxorubicin. We suggest that the stimulation by acetaminophen is primarily due to its preferential oxidation by peroxidases to the corresponding phenoxyl radical, which subsequently reacts with daunorubicin (doxorubicin). Because biological properties of oxidatively transformed anthracyclines will certainly be different from those of their parent compounds, the possible acetaminophen-enhanced degradation of the anthracyclines in vivo is likely to interfere with anticancer and/or cardiotoxic activities of these agents.     

Synthesis and asymmetric reducing performance of chitin/dihydronicotinamide conjugates having glycine or L-leucine spacer arms

Chitin/dihydronicotinamide conjugates having glycine or L-leucine spacer arms have been prepared and evaluated as asymmetric reducing agents. N-Nicotinoylglycine and N-nicotinoyl-L-leucine were synthesized and coupled with the amino group of water-soluble 50%-deacetylated chitin. The remaining free amino groups were acetylated, and the nicotinamide groups were transformed into dihydronicotinamide moieties by quaternization followed by reduction. The resulting L-leucine-containing conjugate reduced ethyl benzoylformate efficiently with high chemical yield and asymmetric selectivity, whereas the glycine-containing conjugate gave only poor results. The recovered L-leucine-containing conjugate was reduced to regenerate the dihydronicotinamide structure and could be used again. The L-leucine residue has thus proved suitable as a spacer arm to achieve a high reducing performance.     

Vinyl sulfone bifunctional derivatives of DOTA allow sulfhydryl- or amino-directed coupling to antibodies. Conjugates retain immunoreactivity and have similar biodistributions.

We have synthesized a bifunctional vinyl sulfone-cysteineamido derivative of DOTA (1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid) that can be conjugated to the sulfhydryls of mildly reduced recombinant antibody (chimeric anti-CEA antibody cT84.66) at pH 7 or to the amino groups of lysine residues at pH 9. The conjugation is sulfhydryl specific at pH 7 (case 1), and amino specific at pH 9 (case 2) as long as the antibody has no free sulhydryl groups. At a molar ratio of 50 BCA (bifunctional chelating agent) to mAb, the number of chelates conjugated is 0.8 for case 1, and 4.6 for case 2. The resulting conjugates can be radiolabeled with (111)In to high specific activity (5 mCi/mg) with high efficiency (>95%) at 43 degrees C in 60 min. The radiolabeled conjugates retained >95% immunoreactivity and are stable in serum containing 1mM DTPA over 3 d. When the radiolabeled conjugates were injected into nude mice bearing LS174T human colon tumor xenografts, over 40% ID/g accumulated in tumors during the period 24-72h. Tumor-to-blood ratios were 4.5, 3.5, and 2.5 for the sulfhydryl coupled conjugate at 24, 48, and 72 h, respectively, and 2.7, 2.5, and 2.3 for the amino-coupled conjugate at the same time points. For other organs the biodistributions were nearly identical whether the conjugates were attached via sulfhydryl or amino groups. These novel BCAs are easy to synthesize, offer versatile conjugation options, and give equivalent biodistributions that result in high tumor uptake and good tumor-to-blood ratios.     

Enzyme conjugation to the polysaccharide chitosan: smart biocatalysts and biocatalytic hydrogels

Laccase from Coriolopsis gallica was conjugated to the renewable biopolymer chitosan using carbodiimide chemistry. The laccase-chitosan conjugate was observed to offer three unique properties. First, the laccase-chitosan conjugate displayed pH-responsive behavior such that the conjugate was soluble and active under acidic conditions, but precipitated when the pH was raised toward neutrality. Second, the laccase-chitosan conjugate was more stable than free laccase at extreme pHs. At pH 1, the inactivation rate constant (k(in)) for the soluble laccase-chitosan conjugate was 20-fold less than that for free laccase. At pH 13, k(in) for the insoluble laccase-chitosan conjugate was nearly 3-fold less than that for free laccase. Finally, the laccase-chitosan conjugate could be cross-linked under mild conditions to create biocatalytic hydrogels. Potential benefits for enzyme-chitosan conjugates are discussed.     

Immune response to a synthetic polysaccharide and protein conjugate

Synthetic polysaccharide (S-PS) containing aglycone-spacer with a free amino group was really alpha 1,6-mannan with Cn approximately 10. S-PS was transformed into isothiocyanate derivative by treating it with thiophosgene and engaged into reaction with amino group of bovine serum albumin (BSA) lysine residues. Rabbits were immunized with S-PS-BSA conjugate and antibodies to S-PS titres were estimated by means of ELISA. S-PS-BSA conjugate was proved to provoke specific anti-polysaccharide antibodies formation in rabbits.     

Uptake and concentration of bioactive macromolecules by K562 cells via the transferrin cycle utilizing an acid-labile transferrin conjugate.

The transferrin cycle was used to attempt the import of bioactive macromolecules into cells with the aid of an acid-labile cross-linking agent. Anti-tetanus F(ab')2 fragments were iodinated and then conjugated to transferrin with a newly developed acid-labile cleavable cross-linking reagent, bismaleimidoethoxy propane, following thiolation of both proteins. Noncleavable conjugates were also prepared. At saturating conjugate concentrations, the uptake rate for both conjugates averaged over the first 2 h is about 6.5 fmol/million cells/min. Incubation of loaded cells in fresh medium for 30 min and analysis of cell pellets and supernatants reveal that 1) of the previously cell-associated label, only intact conjugate (about 50% of the label) is returned to the medium; 2) most of the remaining cell-associated material for the cleavable conjugate is chromatographically coincident with free Fab with some contribution from free F(ab')2 fragments. In contrast, the cell pellets loaded with noncleavable conjugates contained intact transferrin-F(ab'), conjugates. These results are consistent with transferrin receptor-mediated uptake of acid-labile conjugate followed by hydrolysis in acidified endosomes and resulting in concentration of free F(ab')2 and Fab within a prelysosomal intracellular compartment. A protein shuttle such as transferrin may therefore be used with ketal based acid-labile cross-linkers to load foreign molecules into an intracellular compartment. In addition, these data provide independent confirmation of the low pH compartment within the transferrin cycle. This new methodology is applicable to other cases of receptor/ligand trafficking to report low pH compartments independent of morphological analysis. Since transferrin receptors are overexpressed in tumors, antineoplastic agents could be targeted to tumors as transferrin acid-labile conjugates. This import system might be particularly useful in combatting the tumor cell export of antitumor agents occurring in multidrug resistance.     

Entry of diphtheria toxin linked to concanavalin A into primate and murine cells

Diphtheria toxin linked by a disulfide bridge to concanavalin A was highly toxic to HeLa S3 and Vero cells, as well as to murine L cells. The cells could be protected with alpha-methyl mannoside, indicating that the conjugate binds mainly through its concanavalin A moiety. Treatment of Vero cells with phospholipase C, TPA (12-O-tetradecanoylphorbol-13-acetate), and vanadate, which strongly reduce the ability of the cells to bind free diphtheria toxin, had little protective effect against the conjugate, whereas SITS (L-acetamido-4'-isothiocyano-stilbene-2,2'disulfonic acid), which inhibits diphtheria toxin binding, as well as the subsequent entry, protected Vero cells, but not L cells. Both types of cells are protected against the conjugate by NH4Cl and monensin, indicating that an acidified compartment is necessary for entry into the cytosol. Exposure of cells, bound with surface conjugate, to low pH induced entry of the toxin into Vero cells, but not into L Cells. Phospholipase C, TPA, and vanadate did not protect L cells against the conjugate. It is concluded that toxin in the conjugate enters L cells by a route which involves low pH, but which is not identical to that in Vero cells.     

Redox cycling of anthracyclines by cardiac mitochondria. I. Anthracycline radical formation by NADH dehydrogenase

In the present study we have used beef heart submitochondrial preparations (BH-SMP) to demonstrate that a component of mitochondrial Complex I, probably the NADH dehydrogenase flavin, is the mitochondrial site of anthracycline reduction. During forward electron transport, the anthracyclines doxorubicin (Adriamycin) and daunorubicin acted as one-electron acceptors for BH-SMP (i.e. were reduced to semiquinone radical species) only when NADH was used as substrate; succinate and ascorbate were without effect. Inhibitor experiments (rotenone, amytal, piericidin A) indicated that the anthracycline reduction site lies on the substrate side of ubiquinone. Doxorubicin and daunorubicin semiquinone radicals were readily detected by ESR spectroscopy. Doxorubicin and daunorubicin semiquinone radicals (g congruent to 2.004, signal width congruent to 4.5 G) reacted avidly with molecular oxygen, presumably to produce O2-, to complete the redox cycle. The identification of Complex I as the site of anthracycline reduction was confirmed by studies of ATP-energized reverse electron transport using succinate or ascorbate as substrates, in the presence of antimycin A or KCN respiratory blocks. Doxorubicin and daunorubicin inhibited the reduction of NAD+ to NADH during reverse electron transport. Furthermore, during reverse electron transport in the absence of added NAD+, doxorubicin and daunorubicin addition caused oxygen consumption due to reduction of molecular oxygen (to O2-) by the anthracycline semiquinone radicals. With succinate as electron source both thenoyltrifluoroacetone (an inhibitor of Complex II) and rotenone blocked oxygen consumption, but with ascorbate as electron source only rotenone was an effective inhibitor. NADH oxidation by doxorubicin during BH-SMP forward electron transport had a KM of 99 microM and a Vmax of 30 nmol X min-1 X mg-1 (at pH 7.4 and 23 degrees C); values for daunorubicin were 71 microM and 37 nmol X min-1 X mg-1. Oxygen consumption at pH 7.2 and 37 degrees C exhibited KM values of 65 microM for doxorubicin and 47 microM for daunorubicin, and Vmax values of 116 nmol X min-1 X mg-1 for doxorubicin and 114 nmol X min-1 X mg-1 for daunorubicin. In marked contrast with these results, 5-iminodaunodrubicin (a new anthracycline with diminished cardiotoxic potential) exhibited little or no tendency to undergo reduction, or to redox cycle with BH-SMP. Redox cycling of anthracyclines by mitochondrial NADH dehydrogenase is shown, in the accompanying paper (Doroshow, J. H., and Davies, K. J. A. (1986) J. Biol. Chem. 261, 3068-3074), to generate O2-, H2O2, and OH which may underlie the cardiotoxicity of these antitumor agents.     

Correlation of the acid-sensitivity of polyethylene glycol daunorubicin conjugates with their in vitro antiproliferative activity

Polyethylene glycol conjugates with linkers of varying acid-sensitivity were prepared by reacting five maleimide derivatives of daunorubicin containing an amide bond (1) or acid-sensitive carboxylic hydrazone bonds (2-5) with alpha-methoxy-poly(ethylene glycol)-thiopropionic acid amide (MW 20000) or alpha,omega-bis-thiopropionic acid amide poly(ethylene glycol) (MW 20000). The polymer drug derivatives were designed to release daunorubicin inside the tumor cell by acid-cleavage of the hydrazone bond after uptake of the conjugate by endocytosis. In subsequent cell culture experiments, the order of antitumor activity of the PEG daunorubicin conjugates correlated with their acid-sensitivity as determined by HPLC (cell lines: BXF T24 bladder carcinoma and LXFL 529L lung cancer cell line; assay: propidium iodide fluorescence assay). The acid-sensitivity of the link between PEG and daunorubicin is therefore an important parameter for in vitro efficacy.     

Improving the sensitivity and dynamic range of reagentless fluorescent immunosensors by knowledge-based design

The variable fragment (Fv) of an antibody can be transformed into a reagentless fluorescent biosensor by mutating a residue into a cysteine in the neighborhood of the paratope (antigen-binding site) and then coupling an environment-sensitive fluorophore, e.g., N-((2-(iodoacetoxy)ethyl)-N-methyl)amino-7-nitrobenz-2-oxa-1,3-diazole (IANBD ester), to the mutant cysteine. For some residues, named operational, the formation of the conjugate does not affect the affinity of the Fv fragment for the antigen, and the binding of the antigen generates a measurable variation in the fluorescence intensity of the conjugate. We tested if this signal variation could be increased by coupling several molecules of fluorophores to the same molecule of Fv. Seven operational residues have been previously identified in the single-chain Fv (scFv) of monoclonal antibody D1.3 (mAbD1.3), directed against lysozyme. Ten double mutants of scFvD1.3, involving these residues, were constructed and coupled to the IANBD ester. The fluorescence of the double conjugates revealed a transfer of resonance energy between the two identical fluorescent groups. This homotranfer could be more important in the free state of the conjugate than in its antigen-bound state and increase its sensitivity for the detection of the antigen by up to 2.9-fold. A poorly sensitive conjugate could be improved by coupling a second molecule of fluorophore to residues located far from the paratope. Mutations altering the affinity of scFvD1.3 for lysozyme were introduced into one of its fluorescent conjugates. Using a mixture of three mutant derivatives of this unique conjugate, we could titrate lysozyme with precision in a concentration range encompassing 3 orders of magnitude.     

An optimized antibody-chelator conjugate for imaging of carcinoembryonic antigen with indium-111

A monoclonal antibody to carcinoembryonic antigen showing minimal cross-reactivity with blood cells and normal tissues was derivatized with benzylisothiocyanate derivatives of EDTA and DTPA. Seven chelators per immunoglobulin could be incorporated without loss of immunoreactivity. The resulting conjugates, labeled with indium-111, showed low liver uptake in animals. A cold kit, comprising the DTPA conjugate at a molarity of antibody bound chelator exceeding 1 x 10⁻⁴M, gave radiochemical yields of indium labeled antibody of ⩾95% and was stable for 1 yr.     

Generation of an intensely potent anthracycline by a monoclonal antibody-beta-galactosidase conjugate

The L49 monoclonal antibody against the p97 antigen on melanomas and carcinomas was chemically conjugated to E. coli beta-galactosidase (beta-gal), forming a largely monomeric conjugate with preserved enzymatic activity. The resulting L49-beta-gal conjugate was used to activate (N-[(4"R,S)-4"-hexyloxy-4"-(1'-O-beta-D-galactopyranosyl)butyl]daunorubicin) (1), a derivative of daunorubicin that has low cytotoxicity and high chemical stability. Addition of the conjugate to the prodrug resulted in an increase in cytotoxicity of approximately 10(5)-fold, a level of activation that is higher than any mAb-enzyme/prodrug combination yet described. Furthermore, the released drug had an IC(50) value of approximately 10 pM, making it significantly more potent than the vast majority of clinically approved anticancer drugs. The potential of this enzyme/prodrug combination for cancer therapy is discussed.     

叶酸介导的普鲁兰多糖-阿霉素聚合物前药的制备及生物学性能初探

目的：制备叶酸介导的普兰多糖-阿霉素聚合物前药（FA-MP-DOX）,实现阿霉素药物的靶向控制释放。方法：将普鲁兰多糖用马来酸酐进行修饰后,通过酰胺键键合阿霉素制备得到普鲁兰多糖-阿霉素（MP-DOX）,继而酯键键合叶酸制备得到叶酸介导的普鲁兰多糖-阿霉素聚合物前药（FA-MP-DOX）。红外光谱、核磁共振光谱表征聚合物药物的结构,动态透析法模拟体外释药特性,监测不同pH值聚合物药物中阿霉素的释药特性,同时采用人口腔表皮样癌细胞（KB细胞）测定聚合物药物体系的细胞毒性。结果：①经核磁共振表征FA-MP-DOX聚合物合成完成。②在pH2.5、pH5.0及pH7.4的PBS缓冲体系16h中,阿霉素药物累积释放率分别为49.1%,30.3%和15.3%,证实FA-MP-DOX中阿霉素的释放具有pH依赖性。③细胞实验证实FA-MP-DOX的细胞毒性高于阿霉素和MP-DOX。结论：FA-MP-DOX聚合物药物有望成为阿霉素智能型控释和靶向性药物载体。     

Synthesis and Antiproliferative Activity of Conjugates of Anthracycline Antibiotics with Sesquiterpene Lactones of the Elecampane

The daunorubicin and doxorubicin anthracycline antibiotics were modified with the Inula helenium L. sesquiterpene lactones (alantolactone, isoalantolactone, and alloalantolactone) and with their epoxy derivatives. Antiproliferative properties of these conjugates were studied on tumor and normal cell lines. The daunorubicin conjugates with the sesquiterpene lactones (isoalantolactone, allantolactone, and alloalantolactone) and with their epoxy derivatives were found to exhibit the higher activity against human tumor cell lines than the corresponding doxorubicin conjugates. The daunorubicin conjugate with epoxyisoalantolactone proved to be the most effective compound, because it was more cytotoxic than daunorubicin towards a number of cell lines, including those daunorubicin-resistant, and did not affect normal human cells.     

Synthesis, characterization, and thermodynamic study of a polyvalent lytic peptide-polymer conjugate as novel anticancer agent

We designed and synthesized a new polyvalent lytic peptide-polymer conjugate as a novel chemotherapeutic agent capable of overcoming multidrug resistance. A hexapeptide (KWKWKW or (KW)?) was designed and conjugated to dextran in multiple copies to afford a polyvalent conjugate. A robust synthesis procedure involving click chemistry and the detailed characterization of the conjugate were reported here. The conjugate Dex-(KW)? exhibited significantly enhanced anticancer potency in vitro by up to 500-fold compared to monomeric (KW)?. The LC?? value was comparable to that of conventional lytic peptides which have more than 20 residues. No hemolytic activity was shown by the conjugates up to 300 μM. Thermodynamic study indicated that the binding of conjugates was predominantly entropy-driven while the binding of free peptides was mainly enthalpy-driven, implying a deeper penetration of conjugate into the core of lipid bilayer. The binding affinity of conjugate to neutral membrane is much higher than that to free peptide (K(conj) ≈ 8822.9 M?1, K(pep) ≈ 1884.7 M?1). In binding to negatively charged membrane, the conjugate surpassed free peptides at high concentrations when the binding of free peptides became saturated. The higher binding capability, attributed to the high local concentration of peptides mounted on a polymer backbone, explains the superior anticancer activity of polyvalent Dex-(KW)?.     

Studies of polypeptide structure by fluorescence techniques. 3. Interaction between dye and macromolecule in fluorescent conjugates

The effects of pH on the polarization of fluorescence of dyes dissolved in media of high viscosity or conjugated to polypeptides that undergo no structural transitions indicate that DNS is useful for studying pH-dependent molecular transition over the range pH 2.5–14, whereas fluorescein is useful only over the range pH 6–8. Heating and cooling in aqueous solutions cause no change in the polarization of fluorescein or of DNS; therefore, the dyes themselves do not introduce artifacts into heating studies of the dye conjugates. The interaction between fluorescein or DNS and the molecule to which it is conjugated varies and thus may affect the measurements made with the conjugates: the rotational relaxation times of polylysine, of a copolymer of glutamic acid and lysine, and of lysozyme are approximately twice as long when measured with DNS-conjugates as when measured with fluorescein-conjugates. The explanation for this observation is postulated to lie in the tighter binding between fluorescein and the molecule to which it is conjugated, presumably around the point of its covalent attachment, which makes it a better indicator of the behavior of the rotational kinetic unit of the polypeptide chain. The stronger binding of fluorescein is inferred from two lines of evidence: (1) the fluorescent intensity and ultraviolet spectra of a fluorescein–polylysine conjugate are less susceptible to changes in solvent than those of the DNS conjugate, and (2) the net charge of the polypeptide affects the ionization of fluorescein much less than it affects the ionization of DNS. Additional evidence from previous studies corroborates this conclusion. Thus, it is important to establish the relationship between the fluorescent dye and the molecule to which it is conjugated before using the fluorescence data to calculate rotational relaxation times and other molecular parameters.     

Measurement of daunorubicin uptake of Yoshida sarcoma cells in culture using flow cytofluorimetry

A comparative measurement of the transport and localisation of daunorubicin into Yoshida sarcoma cells, was undertaken by a biochemical extraction process and a flow cytometric method. An advantage of this latter procedure would be to identify subpopulation of cells which have enhanced or impaired daunorubicin incorporation as well as the ability to exclude any non-specific incorporation into cell debris, which would otherwise interfere with the overall estimation.It has been possible to use the Biophysics argon ion laser at a wavelength of 488 nm which coincides with the visible absorption bands of daunorubicin and doxorubicin (adriamycin) and the cytofluorimetric estimations of daunorubicin incorporation have now been compared with biochemically determined uptake in Yoshida cells. A high lethal dose of 10 μM was required to achieve the direct measurement by cytofluorimetry procedures on the Biophysics instrument. From cell fractionation and CHCl₃/amyl alcohol extraction, it was possible to show that during a 5-h exposure period to daunorubicin (10 μM), the uptake into the nucleus was at first rapid and that into the cytoplasm was much slower. After about 3-h incubation, the level in the cytoplasm decreased, followed by a decrease from the nucleus 1 h later. This could be equated when observed microscopically to the gain in fluorescent cell debris.If all nuclear binding is to DNA, then at the level of (10 μM) concentration in the medium, the number of base pairs to daunorubicin would be 9 : 1, respectively. Cytofluorimetry showed a broad spread of intracellular daunorubin fluorescence which increases with cell size. Increasing external concentration caused a more rapid incorporation as well as a quicker release from the cells.