Melanin accelerates the tyrosinase-catalyzed oxygenation of p-hydroxyanisole (MMEH)

Although pigment melanin has long been though of as "inert," recent work has attested to its chemical reactivity. In this communication, we report that either commercial synthetic melanin prepared by persulfate oxidation of tyrosine ("Sigma melanin") or sepia melanin extracted from cuttlefish markedly accelerates the in vitro oxygenation of p-hydroxyanisole (MMEH), catalyzed by mushroom or B-16 melanoma tyrosinase. Kinetics of 4-methoxy-1,2-benzoquinone formation (lambda max = 413 nm) or of molecular O2 uptake were biphasic, with an initial slow rate ("lag time") followed by a fast linear increase. The biphasic response reflects an initial slow hydroxylation followed by a fast dehydrogenation. Added melanin markedly decreased the lag time but had little effect on subsequent dehydrogenation. Similar effects were observed for tyrosine itself. A complex between MMEH and melanin appears to be the "active" species in these reactions. The results indicate that melanin acts as an electron conduit, which accepts electrons from the substrate and transfers them to tyrosinase. The magnitude of the effect depends on the type of melanin as well as on its oxidation state. Kinetic analysis indicates that both melanins are very efficient at transferring electron to tyrosinase, and that Sigma melanin is roughly threefold more efficient than sepia melanin. The qualitative similarity of reaction between the synthetic and "natural" melanins suggests that the former may serve as a first approximation to the in vivo situation. On the other hand, the observed quantitative differences and the sensitivity of these results to the chemical state of melanin suggests that this methodology might eventually be adapted as a non-destructive probe of melanin in situ.(ABSTRACT TRUNCATED AT 250 WORDS)     

Spectroscopic studies of chemically modified synthetic melanins

The infrared and electron spin resonance spectra of synthetic 3,4-dihydroxyphenylalanine (DOPA) and tyrosine melanins and chemically modified melanin samples were determined, and it was shown that unmodified and reduced DOPA melanins exhibited similar ir spectra. Oxidized DOPA melanins showed a higher number of carboxy groups in the sample. A significant increase of free radical content in reduced DOPA melanin and a decrease of free radical content in oxidized DOPA melanin in comparison to unmodified samples were demonstrated by the use of ESR methodology. Methylation of tyrosine melanin with an excess of diazomethane gave very rich ir spectra as compared to melanins methylated with methanol saturated by gaseous HCl. In tyrosine melanin samples the esterification of carboxy groups with methanol caused a decrease in the free radical content. When diazomethane was used, the methylated melanin samples had free radical levels reduced to only about 4% of the total observed for unmodified tyrosine melanin.     

Ligation of the diiron site of the hydroxylase component of methane monooxygenase. An electron nuclear double resonance study.

Electron nuclear double resonance (ENDOR) spectroscopy is used to probe the coordination of the mixed valence (Fe(II).Fe(III)) diiron cluster of the methane monooxygenase hydroxylase component (MMOH-) isolated from Methylosinus trichosporium OB3b. ENDOR resonances are observed along the principal axis directions g1 = 1.94 and g3 = 1.76 from at least nine different protons and two different nitrogens. The nitrogens are strongly coupled and appear to be directly coordinated to the cluster irons. The ratio of their superhyperfine coupling constants is roughly 4:7, which equals the ratio of the spin expectation values of the Fe(II) and Fe(III) in the ground state and suggests that at least one nitrogen is coordinated to each iron of the mixed valence cluster. Moreover, the superhyperfine and quadrupole coupling constants assigned to the Fe(III) site (AN = 13.6 MHz, PN = 0.7 MHz) are comparable with those observed for semimethemerythrin sulfide (AN = 12.1 MHz, PN = 0.7 MHz), for which the nitrogen ligands are histidines. At least three of the coupled protons exchange slowly when MMOH- is incubated in D2O, and 2H ENDOR resonances are subsequently observed. These observations are also consistent with histidine ligation of the iron cluster. On addition of the inhibitor dimethyl sulfoxide (Me2SO) to MMOH- the EPR spectrum sharpens and shifts dramatically. Only one set of 14N ENDOR resonances is observed with frequencies equal to those assigned to the Fe(III)-histidine resonances of uncomplexed MMOH- suggesting that the nitrogen coordination to the Fe(II) site is altered or possibly lost in the presence of Me2SO. 2H ENDOR resonances are observed in the presence of d6-Me2SO indicating that the inhibitor Me2SO binds near or possibly to the diiron cluster. In contrast, no 2H ENDOR resonances are observed from d4-methanol upon addition to MMOH-. Thus, the changes observed in the EPR spectrum of MMOH- upon addition of methanol may result from binding to a site away from the diiron cluster or from bulk solvent effects on the protein structure.     

Physico-Chemical Evaluation of Rationally Designed Melanins as Novel Nature-Inspired Radioprotectors

Background

Melanin, a high-molecular weight pigment that is ubiquitous in nature, protects melanized microorganisms against high doses of ionizing radiation. However, the physics of melanin interaction with ionizing radiation is unknown.

Methodology/Principal Findings

We rationally designed melanins from either 5-S-cysteinyl-DOPA, L-cysteine/L-DOPA, or L-DOPA with diverse structures as shown by elemental analysis and HPLC. Sulfur-containing melanins had higher predicted attenuation coefficients than non-sulfur-containing melanins. All synthetic melanins displayed strong electron paramagnetic resonance (2.14·10¹⁸, 7.09·10¹⁸, and 9.05·10¹⁷ spins/g, respectively), with sulfur-containing melanins demonstrating more complex spectra and higher numbers of stable free radicals. There was no change in the quality or quantity of the stable free radicals after high-dose (30,000 cGy), high-energy (¹³⁷Cs, 661.6 keV) irradiation, indicating a high degree of radical stability as well as a robust resistance to the ionizing effects of gamma irradiation. The rationally designed melanins protected mammalian cells against ionizing radiation of different energies.

Conclusions/Significance

We propose that due to melanin''s numerous aromatic oligomers containing multiple π-electron system, a generated Compton recoil electron gradually loses energy while passing through the pigment, until its energy is sufficiently low that it can be trapped by stable free radicals present in the pigment. Controlled dissipation of high-energy recoil electrons by melanin prevents secondary ionizations and the generation of damaging free radical species.     

Melanin inhibits cytotoxic effects of doxorubicin and daunorubicin in MOLT 4 cells

In the present study we have developed a simple method to elucidate the melanin binding ability of different chemotherapeutic agents. The anthracyclines, doxorubicin and daunorubicin, or the alkylating agent cisplatin were preincubated with melanin (Sepia). Melanin and free drug was then separated through centrifugation and the cytotoxic effects of corresponding drug were evaluated in a MTT (3-(4,5-dimetyltiazol-2-yl)-2,5-difenyl-tetrazoliumbromide) assay using MOLT-4 cells. Our results show that melanin pretreatment shifted the IC50 value for doxorubicin from 0.06 to 0.97 microM and for daunorubicin from 0.04 to 0.80 microM. In contrast, the IC50 values of cisplatin was not influenced by melanin pre-treatment indicating that cisplatin does not bind to melanin. By comparing equi-active concentrations from concentration-response curves with or without melanin pretreatment an approximate binding capacity of melanin could be estimated. Our results show that melanin binds about 900 nmol/mg doxorubicin and 760 nmol/mg daunorubicin. Chloroquine, which is known to bind to melanin with high affinity, was found to inhibit melanin binding of both daunorubicin and doxorubicin, thereby leading to an increased sensitivity of the anthracyclines. The clinical implications of melanin binding regarding unwanted accumulation of anthracyclines in the skin as well as chemoprotective effects against chemotherapy are discussed.     

Model for the porphyrin-DNA binding site: ENDOR investigations of Cu-porphyrins binding to DNA.

Proton ENDOR has been observed from frozen solutions (ca. 38K degrees) of copper meso-(4-N-tetra-methylpyridyl)porphyrin (CuTMpyP(4)) complexed with Salmon sperm DNA in water and D2O. Lines from exchangeable protons of the DNA bases have been observed in these ENDOR spectra. Analyses of these ENDOR data show that the separations of these DNA protons from the copper atom are between 3.76 and 3.84 A with angles of 19.5 to 22.5 degrees between the Cu-H vectors and the gz axis. A distant ENDOR response has also been observed from phosphorous nuclei in the DNA backbone. We estimate that the phosphorous atoms producing this ENDOR signal are 7.5-10 A from the copper center of the porphyrin. These ENDOR data combined with results from an earlier NMR investigation have been used to construct a computer simulated model of the binding site in which the porphyrin is partially intercalated and extends into the major groove of DNA. The two GC base pairs at this site are slightly inequivalent. For each, the G imino proton and one of the C amino protons are at appropriate positions to account for the ENDOR signals arising from exchangeable protons. It is unlikely that this inequivalence would persist at room temperature where dynamic processes would give an apparently symmetric interaction. Although the model accounts for all reported experimental data involving tetracationic porphyrin species which have been suggested to be intercalators, it is not a unique solution.     

Free Radicals in Melanin-Cationic Porphyrins Complexes in the Dark and Under Light Irradiation

Electron Paramagnetic Resonance (EPR) spectroscopy was employed in the study of the interaction between L-3,4-dihydroxyphenylalanine (L-Dopa) melanin and the cat-ionic porphyrins meso-tetrakis(1-methylpyridinium-4yl)-porphyrin (TMPyP), meso-tetrakis-(1-benzylpyridinium-4-yl)-porphyrin (TBzPyP), and their respectives complexes ZnTMPyP and ZnTBzPyP. By monitoring signal intensities and progressive microwave power saturation it was shown that the interaction increases the equilibrium concentration of free radicals in L-Dopa melanin in the dark. The extent of increase is dependent on the presence of molecular oxygen and on the type of porphyrin. Not all interacting sites available for complexation in L-Dopa melanin are involved in the formation of free radicals. It was also observed that the interaction with porphyrins promotes an increase in the number of photoinduced free radicals in L-Dopa melanin during illumination with visible light.     

银耳菌糠黑色素的理化性质及抗氧化和抑菌活性

银耳菌糠中存在一种银耳的伴生菌——炭团菌(俗称香灰菌),其菌丝生长到一定阶段后会产生大量的黑色素,具有广泛的应用价值。本研究从银耳菌糠中提取黑色素,研究其理化性质、抗氧化活性及抑菌作用。通过紫外-可见光谱、傅里叶红外光谱对提取的黑色素进行鉴定,表明银耳菌糠黑色素具有黑色素的典型特征。通过对银耳菌糠黑色素理化性质的研究,表明银耳菌糠黑色素是一种趋于黑色并略带红色和黄色的粉末;该黑色素易溶于碱性溶液;具有较好的热稳定性和光稳定性,其稳定性受氧化剂和还原剂的影响较小,受Ca²⁺、Cu²⁺的影响较明显。通过总抗氧化能力(FRAP法)、自由基清除能力检测银耳菌糠黑色素的抗氧化活性,研究表明黑色素具有较高的抗氧化活性,羟自由基、ABTS自由基清除的EC₅₀值分别为0.429 mg/mL和0.016 mg/mL。本研究还检测了黑色素对革兰氏阳性、革兰氏阴性细菌的抑菌能力,结果表明该黑色素在浓度为3.2 mg/mL时对供试菌株的抑菌率超过90%,且对革兰氏阳性菌会较敏感。本研究为银耳菌糠的有效利用及其黑色素产品的开发提供了理论基础,具有较高的经济价值。     

The Photochemical and Surface-Active Properties of Melanins Isolated from Some Black Fungi

The absorption spectra of melanins isolated from some black ascomycetes, as well as of synthetic melanin and natural melanin from Sepia officinalis, were recorded in the long-wavelength ultraviolet region A (320 nm < < 400 nm) and in the blue–violet region of the electromagnetic spectrum at illumination intensities varying from 0.02 to 1 mW/cm². The photochemical properties of fungal melanins were found to be dependent on both the producing strain and the conditions of its cultivation. The fungal melanins are more susceptible to photomodification and more biologically active than the synthetic melanin, indicating that these properties may be related. The data obtained suggest that the fungal melanins susceptible to photomodification possess higher biological activity than commercial melanins.     

Electron Spin Resonance Studies on Melanin

Electron spin resonance (e.s.r.) observations of squid melanin have been conducted over the temperature range 500°K to 4.2°K, and the effect of various chemical treatments of the melanin upon the e.s.r. spectrum has been studied. The findings have shown that the paramagnetism of this melanin follows the Curie Law from 500°K to 4.2°K, that the spin signal can be eliminated by the addition of Cu⁺⁺ to the melanin, and that the optical and e.s.r. absorptions of melanin are independent since either can be reduced or eliminated without affecting the other. Similar studies on synthetic melanins produced by autoxidation or by enzymatic oxidation of a number of biphenols were carried out. It was found that the e.s.r. signals of these synthetic melanins were strikingly similar (with respect to line width, line shape, and g-value) with those of squid melanin. It is concluded that the unpaired electrons observed are associated with trapped free radicals in the melanin polymer, that the biosynthesis of melanin may involve a free radical mechanism, and that these physical data are in accord with the concept of Nicolaus that melanin is a highly irregular, three-dimensional, polymer.     

Model for the Porphyrin-DNA Binding Site: ENDOR Investigations of Cu-Porphyrins Binding to DNA

Abstract

Proton ENDOR has been observed from frozen solutions (ca. 38K°) of copper meso-(4-N-tetra-methylpyridyl)porphyrin (CuTMpyP(4)) complexed with Salmon sperm DNA in water and D₂O. Lines from exchangeable protons of the DNA bases have been observed in these ENDOR spectra. Analyses of these ENDOR data show that the separations of these DNA protons from the copper atom are between 3.76 and 3.84 A with angles of 19.5 to 22.5 degrees between the Cu-H vectors and the g_z axis. A distant ENDOR response has also been observed from phosphorous nuclei in the DNA backbone. We estimate that the phosphorous atoms producing this ENDOR signal are 7.5–10 Å from the copper center of the porphyrin. These ENDOR data combined with results from an earlier NMR investigation (1) have been used to construct a computer simulated model of the binding site in which the porphyrin is partially intercalated and extends into the major groove of DNA. The two GC base pairs at this site are slightly inequivalent. For each, the G imino proton and one of the C amino protons are at appropriate positions to account for the ENDOR signals arising from exchangeable protons. It is unlikely that this inequivalence would persist at room temperature where dynamic processes would give an apparently symmetric interaction. Although the model accounts for all reported experimental data involving tetracationic porphyrin species which have been suggested to be intercalators, it is not a unique solution.     

Free radical scavenging properties of melanin interaction of eu- and pheo-melanin models with reducing and oxidising radicals

The human skin and eye melanin is commonly viewed as an efficient photoprotective agent. To elucidate the molecular mechanism of the melanin-dependent photoprotection, we studied the interaction of two synthetic melanins, dopa-melanin and cysteinyldopa-melanin, with a wide range of oxidising and reducing free radicals using the pulse radiolysis technique. We have found that although both types of free radicals could efficiently interact with the synthetic melanins, their radical scavenging properties depended, in a complex way, on the redox potential, the electric charge and the lifetime of the radicals. Repetitive pulsing experiments, in which the free radicals, probing the polymer redox sites, were generated from four different viologens, indicated that the eumelanin model had more reduced than oxidised groups accessible to reaction with the radicals. Although with many radicals studied, melanin interacted via simple one-electron transfer processes, the reaction of both melanins with the strongly oxidising peroxyl radical from carbon tetrachloride, involved radical addition. Our study suggests that the free radical scavenging properties of melanin may be important in the protection of melanotic cells against free radical damage, particularly if the reactive radicals are generated in close proximity to the pigment granules.     

Melanization of <Emphasis Type="Italic">Fusarium keratoplasticum</Emphasis> (<Emphasis Type="Italic">F. solani</Emphasis> Species Complex) During Disseminated Fusariosis in a Patient with Acute Leukemia

Fusarium spp. are recognized as the second most frequently filamentous fungi causing opportunistic infections and particularly important due to the increasing number of immunocompromised patients. F. keratoplasticum (a member of F. solani species complex) is one of the Fusarium species commonly associated with human infection, and therefore, studies on the virulence of this fungus are needed. This study aimed to confirm the presence of melanin in F. keratoplasticum from a patient with systemic fusariosis. Immunofluorescence labeling with anti-melanin monoclonal antibody (MAb) was used to examine an expression of melanin in F. keratoplasticum in vitro and during infection. Electron spin resonance identified the particles extracted from F. keratoplasticum as stable free radical consistent with melanin. Lesional skin from the sites with fusariosis contained hyphal structures that could be labeled by melanin-binding MAb, while digestion of the tissue yielded dark particles that were reactive. These findings suggest that F. keratoplasticum hyphae and chlamydospores can produce melanin in vitro and that hyphae can synthesize pigment in vivo. Given the potential role of melanin in virulence of other fungi, this pigment in F. keratoplasticum may play a role in the pathogenesis of fusariosis.     

Hydrogenases in the "active" state: determination of g-matrix axes and electron spin distribution at the active site by 1H ENDOR spectroscopy

Hydrons and electrons are substrates for the enzyme hydrogenase, but cannot be observed in X-ray crystal structures. High-resolution 1H electron nuclear double resonance (ENDOR) spectroscopy offers a means to detect the distribution of protons and unpaired electrons. ENDOR spectra were recorded from frozen solutions of the nickel-iron hydrogenases of Desulfovibrio gigas and Desulfomicrobium baculatum, in the "active" state ("Ni-C" EPR signal) and analyzed by orientationally selective simulation methods. The experimental spectra were fitted using a structural model of the nickel-iron centre based on crystallographic results, allowing for differences in electron spin distribution as well as the spatial orientation of the g-matrix ( g-tensor), and anisotropic and isotropic hyperfine couplings of the protons nearest to the nickel ion. ENDOR signals, detected after complete deuterium exchange, were assigned to six protons of the cysteines bound to nickel. The assignment took advantage of the substitution of a selenium for a sulfur ligand, which occurs naturally between the [NiFeSe] and [NiFe] hydrogenases from Dm. baculatum and D. gigas, respectively, and was found to affect just two signals. The four signals with the largest hyperfine couplings, including isotropic contributions from 4.5 to 13.5 MHz, were assigned to the beta-methylene protons of the two terminal cysteine ligands, one of which is substituted by seleno-cysteine in [NiFeSe] hydrogenase. The electron spin is delocalized onto the nickel (50%) and its sulfur ligands, with a higher proportion on the terminal than the bridging ligands. The g-matrix was found to align with the active site in such a way that the g1- g2 plane is nearly coplanar (18.3 degrees) with the plane defined by nickel and three sulfur atoms, and the g2 axis deviates by 22.9 degrees from the vector between nickel and iron. Significantly for the reaction of the enzyme, direct evidence for the binding of hydrons at the active site was obtained by the detection of H/D-exchangeable ENDOR signals.     

Cryptococcus neoformans can utilize the bacterial melanin precursor homogentisic acid for fungal melanogenesis

Cryptococcus neoformans melanizes in the environment and in mammalian tissues, but the process of melanization in either venue is mysterious given that this microbe produces melanin only from exogenous substrates. Understanding the process of melanization is important because melanization is believed to protect against various stresses in the environment, including UV radiation, and pigment production is associated with virulence. Melanization in C. neoformans requires the availability of diphenolic precursors. In contrast, many bacteria synthesize melanin from homogentisic acid (HGA). We report that C. neoformans strains representing all four serotypes can produce a brown pigment from HGA. The brown pigment was acid resistant and had the electron paramagnetic resonance spectrum of a stable free radical, qualities that identified it as a melanin. Melanin "ghost"-like particles obtained from pigmented C. neoformans cells were hydrophobic, fluorescent under a variety of irradiation wavelengths, negatively charged, insoluble in organic solvents and alcohols, resistant to degradation by strong acids, and vulnerable to bleaching. HGA melanization was laccase dependent and repressed by high concentrations of glucose. The ability of C. neoformans to utilize a bacterial melanin precursor compound suggests a new substrate source for melanization in the environment.     

Effect of naphthalene on color changes of the sand fiddler crab, Uca pugilator

The polycyclic aromatic hydrocarbon, naphthalene, inhibited the melanin dispersion, which normally occurs in the fiddler crab, Uca pugilator, during the dark phase of its circadian rhythm of color change. Naphthalene produced this inhibition no matter whether the melanin was fully aggregated or more or less dispersed at the time of initial exposure. Inhibition of the circadian melanin dispersion does not appear to be due to a direct action of naphthalene on the melanophores. This inhibition was concentration-dependent with acute daily exposure. Naphthalene does not, however, inhibit melanin dispersion in response to a black background, indicating thereby that naphthalene-exposed crabs continue to synthesize melanin-dispersing hormone and norepinephrine.     

Recovery of instrumental conditional reflexes in rats after pyramidotomy and action of bacterial melanin

Unilateral pyramidotomy at the bulbar level performed after preliminary elaboration of instrumental conditional reflex (ICR) and without its elaboration caused hemiparesis of extremities in rats. Next day after this operation a half of the operated animals both with elaborated ICE and without its elaboration was injected intramuscularly with bacterial melanin solution (170 mg/kg). Comparison of terms of recovery of ICR and of a balancing movement of the paralyzed hindleg in the operated rats without administration of melanin and with its injection showed that in the "melanin" animals the time of posttraumatic rehabilitation was much shorter and recovery of movement occurred faster and more completely. It has been found that the difference in terms of recovery of rat motor functions in this case is due to the protector action of bacterial melanin.     

High-frequency 94 GHz ENDOR characterization of the metal binding site in wild-type Ras x GDP and its oncogenic mutant G12V in frozen solution

The guanine nucleotide binding protein Ras plays a central role as molecular switch in cellular signal transduction. Ras cycles between a GDP-bound "off" state and a GTP-bound "on" state. Specific oncogenic mutations in the Ras protein are found in up to 30% of all human tumors. Previous 31P NMR studies had demonstrated that in liquid solution different conformational states in the GDP-bound as well as in the GTP-bound form coexist. High-field EPR spectroscopy of the GDP complexes in solution displayed differences in the ligand sphere of the wild-type complex as compared to its oncogenic mutant Ras(G12V). Only three water ligands were found in the former with respect to four in the G12V mutant [Rohrer, M. et al. (2001) Biochemistry 40, 1884-1889]. These differences were not detected in previous X-ray structures in the crystalline state. In this paper, we employ high-frequency electron nuclear double resonance (ENDOR) spectroscopy to probe the ligand sphere of the metal ion in the GDP-bound state. This technique in combination with selective isotope labeling has enabled us to detect the resonances of nuclei in the first ligand sphere of the ion with high spectral resolution. We have observed the 17O ENDOR spectra of the water ligands, and we have accurately determined the 17O hyperfine coupling with a(iso) = -0.276 mT, supporting the results of previous line shape analysis in solution. Further, the distinct resonances of the alpha-, beta-, and gamma-phosphorus of the bound nucleotides are illustrated in the 31P ENDOR spectra, and their hyperfine tensors lead to distances in agreement with the X-ray structures. Finally, 13C ENDOR spectra of uniformly 13C-labeled Ras(wt) x GDP and Ras(G12V) x GDP complexes as well as of the Ras(wt) x GppNHp and the selectively 1,4-13C-Asp labeled Ras(wt) x GDP complexes have revealed that in frozen solution only one amino acid is ligated to the ion in the GDP state, whereas two are bound in the GppNHp complex. Our results suggest that a second conformational state of the protein, if correlated with a different ligand sphere of the Mn2+ ion, is not populated in the GDP form of Ras at low temperatures in frozen solution.     

Biphasic superoxide generation in potato tubers. A self-amplifying response to stress

Potato (Solanum tuberosum) cultivars differ quantitatively in their responses to mechanical stress including the ability to synthesize melanin pigments in tuber tissues. Investigations into the cellular events induced by mechanical stress on tuber tissues have shown that an early cellular response is a significant and rapid synthesis of superoxide radicals. This burst of radical production distinctively displays a reproducible biphasic pattern over time with peaks of generation at 2 and 5 h. A concomitant consequence of the generation of these free radicals is elevated levels of oxidatively modified tuber proteins. Both radical generation and protein modification vary between cultivars but both are directly proportional to the amount of melanin pigments produced. Cell-free extracts of mechanically stressed tissues, pectic fragments, and scission products generated from cell walls are able to induce superoxide generation in non-stressed tissues, indicating the participation of a biologically active factor that induces a further a phase of radical synthesis.     

High resolution magic angle spinning NMR spectroscopy used to investigate the ability of drugs to bind to synthetic melanin

Iodobenzamides are known to possess an affinity for melanoma tissue dependent on tumor pigmentation. In order to investigate the molecular interactions of drugs with melanin in vitro, a synthetic pigment swelled in deuterium buffer at physiological pH was used. The spectra of various mixtures of each Iodobenzamide (BZ) with melanin were studied at 25 degrees C by NMR under MAS conditions. The drug which interacts with the pigment exhibits linewidths greater than those observed for the free drug in solution. Line-broadening of the resonance occurred for the N-methyl group of acetylcholine or N-ethyl and aromatic groups of BZ. However, linewidths associated with methanol or hippuric acid were less altered by the presence of melanin. These observations indicate the specificity of the interaction between some drug moieties and the sites of melanin. From the concentration dependence of line-broadening, the apparent equilibrium dissociation constant (K(d)) of drug interaction with melanin was approached. It seems that the residual concentration-dependent line-broadening is caused by perturbations of ligand exchange between free and bound states and by differences in magnetic susceptibility present in the sample at the pigment-interacting drug moiety interface. Taken together, these results demonstrate the utility of this technique for investigating binding drugs.