Functions of adaptor protein (AP)-3 and AP-1 in tyrosinase sorting from endosomes to melanosomes

Specialized cells exploit adaptor protein complexes for unique post-Golgi sorting events, providing a unique model system to specify adaptor function. Here, we show that AP-3 and AP-1 function independently in sorting of the melanocyte-specific protein tyrosinase from endosomes to the melanosome, a specialized lysosome-related organelle distinguishable from lysosomes. AP-3 and AP-1 localize in melanocytes primarily to clathrin-coated buds on tubular early endosomes near melanosomes. Both adaptors recognize the tyrosinase dileucine-based melanosome sorting signal, and tyrosinase largely colocalizes with each adaptor on endosomes. In AP-3-deficient melanocytes, tyrosinase accumulates inappropriately in vacuolar and multivesicular endosomes. Nevertheless, a substantial fraction still accumulates on melanosomes, concomitant with increased association with endosomal AP-1. Our data indicate that AP-3 and AP-1 function in partially redundant pathways to transfer tyrosinase from distinct endosomal subdomains to melanosomes and that the AP-3 pathway ensures that tyrosinase averts entrapment on internal membranes of forming multivesicular bodies.     

Action of endogenous proteases on the distribution of tyrosinase isozymes in Harding-Passey mouse melanoma

A high percentage of the total tyrosinase found in Harding-Passey mouse melanoma occurs as a soluble form. This paper shows that melanosomal tyrosinase can be solubilized by several endogenous proteases to yield active tyrosinase. This enzyme, once proteolytically solubilized, can be further degraded, leading to enzyme inactivation. The nature and specificity of the main proteases involved in the solubilization process change depending on the size and necrosis stage of the tumour. Cathepsin B could be the main protease responsible for the solubilization in small tumours (less than 0.5 g). Large tumours are rich in necrotic cells, and cathepsin D and serine-proteases are the main hydrolytic enzymes involved in the proteolytic action on melanosomes. These results support the view that the high activity of tyrosinase found in the soluble fraction of malignant melanoma is mainly an artefact resulting from degradation of melanosomes by a variety of endogenous proteases, rather than the result of the actual occurrence of high levels of an independent cytosolic isozyme.     

Investigation of tyrosinase activity and phospholipid composition in Harding-Passey melanoma microsomal fraction]

Alteration in DOPA-oxidase activity of Harding-Passey melanoma microsomal fraction tyrosinase, activation of tyrosinase after partial delipidization of the microsome, phospholipid composition of both native microsomes and the ones after delipidization have been studied. In the course of tumor growth (starting on the 14th day after tumor transplantation) the tyrosinase activity has been shown to decrease monotonously both in native microsomes and in the ones after delipidization. The phospholipid composition alters both in the process of tumor growth and after delipidization. Alteration in the tyrosinase activity in native microsomes as well as after their delipidization has been found to depend on the relative composition of certain phospholipids. In those cases a linear correlation between the enzyme activity and the phosphatydylethanolamine of phosphatydylcholine ratio has been found. This interrelationship may be accounted for by either simultenous presence of inhibitors and activators of the enzyme activity in the lipids or by changes in the membrane structure depending on the relative phospholipid composition.     

Calcium transport in isolated bone cells. I. Bone cell isolation procedures

Differential centrifugation of homogenates of Harding-Passey melanoma demonstrated that aryl sulfatase A and β-glucuronidase sediment with particles (i.e., lysosomes) distinct from those particles bearing tyrosinase (i.e., melanosomes). The sedimentation curves for the lysosomal enzymes and tyrosinase, however, demonstrated that an adequate separation of these particle types could not be obtained by differential centrifugation. Isopycnic density gradient centrifugation was used to obtain the necessary resolution. The results of the density gradient studies demonstrated that lysosomes and melanosomes could be separated by this technique, as judged by enzyme distribution among the fractions recovered from the gradients and from electron microscopic examination of the melanosome fractions. It was further evident that the purified and washed melanosomes contained significant amounts of both acid hydrolase activities. Indeed 24% to 27% of the total acid hydrolase activities recovered from the density gradients were associated with the melanosome fractions. The acid hydrolases associated with the melanosomes could not be solubilized by treatment with 0.1% (v/v) Triton X-100, nor by exposure to hypo-osmotic shock. The melanoma lysosomes, however, did release most of both their hydrolase activities into soluble form after treatment with the same percentage of detergent. The lysosomes were, however, very resistant to rupture by exposure to hypo-osmotic conditions.     

Regulation of the catalytic activity of preexisting tyrosinase in black and Caucasian human melanocyte cell cultures

The activity of tyrosinase, the rate-limiting enzyme for melanin synthesis, is higher in Black skin melanocytes than in melanocytes derived from Caucasian skin. This variation in enzyme activity is not due to differences in tyrosinase abundance or tyrosinase gene activity, but, rather, is due to differences in the catalytic activity of preexisting tyrosinase. In melanocytes, tyrosinase is localized to the membrane of melanosomes and in Caucasian melanocytes the melanosome-bound enzyme is largely inactive. Conversely, in melanosomes of Black melanocytes, tyrosinase has high catalytic activity. Treatment of Caucasian melanocytes with the lysosomotropic compound ammonium chloride or with the ionophores nigericin and monensin results in a rapid and pronounced increase in tyrosinase activity. This increase occurs without any change in tyrosinase abundance, indicating that these compounds are increasing the catalytic activity of preexisting enzyme. Inhibition of the vacuolar proton pump V-ATPase by treatment of Caucasian melanocytes with bafilomycin also increases tyrosinase activity. In contrast to the 10-fold increase in tyrosinase observed in Caucasian melanocytes, neither ammonium chloride, monensin, nigericin, nor bafilomycin is able to increase the already high level of tyrosinase activity present in melanosomes of melanocytes derived from Black skin. Finally, staining of Caucasian melanocytes with the fluorescent weak base acridine orange shows that melanosomes of Caucasian, but not Black, melanocytes are acidic organelles. These data support a model for racial pigmentation that is based on differences in melanosome pH in Black and Caucasian skin types. The models suggests that melanosomes of Caucasian melanocytes are acidic, while those of Black individuals are more neutral. Since tyrosinase is inactive in an acid environment, the enzyme is largely inactive in Caucasian melanosomes but fully active in Black melanosomes.     

The existence of apotyrosinase in the cytosol of Harding-Passey mouse melanoma melanocytes and characteristics of enzyme reconstitution by Cu(II)

This paper reports the effect of Cu(II) supplementation on the tyrosinase isozymes from Harding-Passey mouse melanoma. The dopa-oxidase activity of the microsomal and soluble isozymes is increased by incubation with Cu(II), whereas the activity of the unique 'in vivo' melanin-forming isozyme, bound to melanosomes, is not. Other divalent cations are ineffective in increasing the dopa-oxidase activity of tyrosinases. These results indicate the existence of a mixture of tyrosinase and apotyrosinase in the cytosol of melanocytes before reaching the melanosome. The paucity of Cu(II) in the cytosol could be one of the mechanisms of regulation contributing to avoid the formation of melanin outside the melanosome. Some kinetic characteristics of the enzymatic reconstitution of soluble and microsomal isozymes by Cu(II) are also studied, and the results suggest that the glycosylation of apotyrosinase during its maturation yields a conformational change favouring the binding of Cu(II) at the enzyme active site, by lowering the activation energy of the reconstitution reaction.     

Different approaches for assaying melanosome transfer

Many approaches have been tried to establish assays for melanosome transfer to keratinocytes. In this report, we describe and summarize various novel attempts to label melanosomes in search of a reliable, specific, reproducible and quantitative assay system. We tried to fluorescently label melanosomes by transfection of GFP-labeled melanosomal proteins and by incubation of melanocytes with fluorescent melanin intermediates or homologues. In most cases a weak cytoplasmic fluorescence was perceived, which was probably because of incorrect sorting or deficient incorporation of the fluorescent protein and different localization. We were able to label melanosomes via incorporation of 14C-thiouracil into melanin. Consequently, we tried to develop an assay to separate keratinocytes with transferred radioactivity from melanocytes after co-culture. Differential trypsinization and different magnetic bead separation techniques were tested with unsatisfactory results. An attempt was also made to incorporate fluorescent thiouracil, since this would allow cells to be separated by FACS. In conclusion, different methods to measure pigment transfer between donor melanocytes and acceptor keratinocytes were thoroughly examined. This information could give other researchers a head start in the search for a melanosome transfer assay with said qualities to better understand pigment transfer.     

Transforming growth factor beta1 mediates hypopigmentation of B16 mouse melanoma cells by inhibition of melanin formation and melanosome maturation

Transforming growth factor-beta1 (TGFbeta1) downregulates tyrosinase in B16 melanoma cells by decreasing gene expression and the intracellular half-life of the enzyme, but does not block tyrosinase stimulation by alpha-melanocyte stimulating hormone (alphaMSH). In the presence of both agents, the enzymatic activity is intermediate between the one of cells treated with either agent alone. Here we show that TGFbeta1 equally inhibits the melanogenic activities of melan-a melanocytes and B16 melanoma cells, thus validating the B16 model. In both cell types, TGFbeta1 (10(-10) M, 48 h) inhibited to comparable levels tyrosine hydroxylation and melanin formation from L-tyrosine. Thus, the inhibitory effect is exerted mainly at the rate limiting step of the pathway. By means of quantitative image analysis techniques, we also studied the effects of TGFbeta1 and alphaMSH on melanosome number, volume density and maturation degree. alphaMSH (10(-7) M, 48 h) increased 7-fold melanosome volume density, whereas TGFbeta1 by itself had no significant effect. However, melanosomal volume density was intermediate in cells treated with both agents, as compared to control or alphaMSH-treated cells. Moreover, TGFbeta1 blocked the alphaMSH-elicited increase in the number of melanosomes. Control and alphaMSH-treated melanocytes contained more stage I+II premelanosomes and stage IV, fully melanized organelles than partially melanized stage III melanosomes. TGFbeta1 increased the percentage of stage III melanosomes. This trend was even more marked in cells treated with alphaMSH and TGFbeta1. The accumulation of incompletely melanized melanosomes is consistent with the inhibition of melanin formation activity by TGFbeta1 and with its hypopigmenting effect.     

Fine Structure of Melanogenesis in the Ink Sac of Sepia offidnalis

The ink sac epithelium of the cuttlefish Sepia officinalis was investigated by electron microscopy. Melanogenesis in a simplified view seems to follow the general scheme of melanin formation in vertebrates. First, a membrane-bound protein matrix is formed, which is called an early stage melanosome. The early stage melanosomes are more or less irregular in shape with a size up to 1.5 μm and contain membranous, granular, or vesicular material. They seem to originate from Golgi bodies and/or endoplasmic reticulum. Membranes that frequently are present in the early stage melanosomes may originate from fusion of vesicles or from incorporation of Golgi membranes into early stage melanosomes. Free cytoplasmic material or mitochondria probably are also incorporated into the early stage melanosomes or melanosomes. Therefore, the origin of the early stage melanosomes seems to be similar to that of autophagosomes. The early stage melanosomes mature to melanosomes in which several dozen melanin granules are formed. These melanosomes, at last, release the melanin granules together with other cellular material, including early stage melanosomes, into the lumen of the ink gland. This finding confirms the earlier postulated holocrine character of the release. Active tyrosinase was localized in the lumen of the ink sac as already shown by biochemical methods. There was also additional evidence that most of the material of broken down cells inside the lumen of the ink sac seems to be converted into melanin granules.     

Essential Role of RAB27A in Determining Constitutive Human Skin Color

Human skin color is predominantly determined by melanin produced in melanosomes within melanocytes and subsequently distributed to keratinocytes. There are many studies that have proposed mechanisms underlying ethnic skin color variations, whereas the processes involved from melanin synthesis in melanocytes to the transfer of melanosomes to keratinocytes are common among humans. Apart from the activities in the melanogenic rate-limiting enzyme, tyrosinase, in melanocytes and the amounts and distribution patterns of melanosomes in keratinocytes, the abilities of the actin-associated factors in charge of melanosome transport within melanocytes also regulate pigmentation. Mutations in genes encoding melanosome transport-related molecules, such as MYO5A, RAB27A and SLAC-2A, have been reported to cause a human pigmentary disease known as Griscelli syndrome, which is associated with diluted skin and hair color. Thus we hypothesized that process might play a role in modulating skin color variations. To address that hypothesis, the correlations of expression of RAB27A and its specific effector, SLAC2-A, to melanogenic ability were evaluated in comparison with tyrosinase, using human melanocytes derived from 19 individuals of varying skin types. Following the finding of the highest correlation in RAB27A expression to the melanogenic ability, darkly-pigmented melanocytes with significantly higher RAB27A expression were found to transfer significantly more melanosomes to keratinocytes than lightly-pigmented melanocytes in co-culture and in human skin substitutes (HSSs) in vivo, resulting in darker skin color in concert with the difference observed in African-descent and Caucasian skins. Additionally, RAB27A knockdown by a lentivirus-derived shRNA in melanocytes concomitantly demonstrated a significantly reduced number of transferred melanosomes to keratinocytes in co-culture and a significantly diminished epidermal melanin content skin color intensity (ΔL* = 4.4) in the HSSs. These data reveal the intrinsically essential role of RAB27A in human ethnic skin color determination and provide new insights for the fundamental understanding of regulatory mechanisms underlying skin pigmentation.     

Manassantin B inhibits melanosome transport in melanocytes by disrupting the melanophilin–myosin Va interaction

Human skin hyperpigmentation disorders occur when the synthesis and/or distribution of melanin increases. The distribution of melanin in the skin is achieved by melanosome transport and transfer. The transport of melanosomes, the organelles where melanin is made, in a melanocyte precedes the transfer of the melanosomes to a keratinocyte. Therefore, hyperpigmentation can be regulated by decreasing melanosome transport. In this study, we found that an extract of Saururus chinensis Baill (ESCB) and one of its components, manassantin B, inhibited melanosome transport in Melan‐a melanocytes and normal human melanocytes (NHMs). Manassantin B disturbed melanosome transport by disrupting the interaction between melanophilin and myosin Va. Manassantin B is neither a direct nor an indirect inhibitor of tyrosinase. The total melanin content was not reduced when melanosome transport was inhibited in a Melan‐a melanocyte monoculture by manassantin B. Manassantin B decreased melanin content only when Melan‐a melanocytes were co‐cultured with SP‐1 keratinocytes or stimulated by α‐MSH. Therefore, we propose that specific inhibitors of melanosome transport, such as manassantin B, are potential candidate or lead compounds for the development of agents to treat undesirable hyperpigmentation of the skin.     

Differentiation of hairbulb pigment cell melanosomes in compound agouti and albino locus mouse mutants (Ay, a, c2J; C57BL/6J)

Our objective was to determine using electron microscopy how nonagouti (a), lethal yellow (Ay), and albino (c2J) genes affect the program of mouse hairbulb melanosome differentiation; 1,921 hairbulb melanosomes from four genotypes (a/a C/C = B,Ay/a C/C = Y, a/a c2J/c2J = BA, and Ay/a c2J/c2J = YA) were scored for developmental stage, length, and width. Qualitative and quantitative electron microscopy revealed the following. An albino locus-induced diminution of melanosome size suggests that the albino locus is involved in structural features of melanosomes not directly related to the synthesis and deployment of tyrosinase. Ratio data on melanosome length-to-width confirm that the agouti locus determines melanosome shape, either spherical or elliptical; melanization is not required for melanosomes to achieve their agouti-locus-determined shapes. YA (Ay/a c2J/c2J) melanosomes, characterized by poorly organized matrices, absence of active tyrosinase, unusually large membrane invaginations, and significantly smaller dimensions than those of BA (a/a c2J/c2J), showed additive effects of both Ay and c2J alleles. These data suggest that the albino locus plays a structural as well as functional (tyrosinase) role in the differentiation of mouse hairbulb melanosomes. The agouti locus, even in the absence of melanization, directs melanosome shape either via synthesis and deployment of agouti-locus-encoded matrix proteins or by other structural factors. The additive effects of Ay and c2J alleles in compound YA mutants document the importance of specific interactions both functional and structural between agouti and albino loci.     

Tyrosinase positive oculocutaneous albinism in the goldfish,Carassius auratus L., an ultrastructural and biochemical study of the eye

Summary Ultrastructural studies, and cytochemical and biochemical determinations of tyrosinase activity were conducted on the pigment epithelium of albino and xanthic goldfish eyes. In eyes of xanthic goldfish, two types of melanosomes are present, spherical and elongated. Melanized melanosomes are absent in the eyes of the albino goldfish, but elongated lamellar premelanosomes are observed. Internal vesicles are present in both melanosome types in the pigment epithelium of the xanthic goldfish but are absent in premelanosomes of the albino. There are also differences in the distribution of lipid droplets, smooth endoplasmic reticulum and Golgi complexes with the latter two being more abundant in the albino. Tyrosinase was not identified cytochemically; however, the enzyme was demonstrated biochemically in the pigment epithelia of both albino and xanthic goldfish. The enzyme is associated with the particulate and soluble fractions of both types of eyes. Particulate albino tyrosinase may be solubilized by triton X-100 treatment. Tyrosinase inhibitors are present in the particulate fractions of both albino and xanthic goldfish eyes. Thus, in the goldfish, ocular albinism appears to be a multiple defect at the molecular and ultrastructural levels.Contribution Number 362, Department of Biology     

Incorporation and binding of estrogens into melanin: comparison of mushroom and mammalian tyrosinases.

The activities of mushroom and melanoma tyrosinases towards the estrogens were compared. While the fungal enzyme is capable of hydroxylating estradiol to the 2-hydroxy compound and to oxidize the latter to the quinone, the mammalian enzyme does not have this ability. With dopa as substrate and an estrogen present in the reaction mixture, both enzyme reactions yield melanin with the steroid firmly incorporated into the pigment, although with the mammalian enzyme the incorporation is small. The steroid appears to be incorporated by covalent linkage. It is suggested that the incorporation of estrogens into melanin produced by mammalian tyrosinase is via their oxidation by oxidized intermediates of the dopa to melanin transformation. Melanin itself may function as oxidant for the estrogens. Whole melanoma cells are capable of binding estrogens and incorporating small amounts into melanosomes. Similarly, fresh melanosomes in isolation can incorporate estrogens into their structure, presumably by covalent bonding to their melanin.     

A method for quantifying melanosome transfer efficacy from melanocytes to keratinocytes in vitro

Several different in vivo and in vitro bioassays are used to evaluate melanosome transfer efficacy from melanocytes to keratinocytes. However, these methods are complicated and time consuming. Here, we report on a simple, rapid, direct, and reliable in vitro method for observing the process of melanosome transfer from melanocytes to keratinocytes. First, we selected and tested a melanoma cell line RPMI-7951 that can normally synthesize melanin and transfer from mature melanosomes to keratinocytes in vitro. We cocultured these cells with a human ovarian teratoma transformed epidermal carcinoma cell line, which is also capable of accepting melanosomes transferred from melanocytes, as in normal keratinocytes. The cells were cocultured for 24-72 h and double labeled with FITC-conjugated antibody against the melanosome-associated protein TRP-1, and with Cy5-conjugated antibody against the keratinocyte-specific marker keratin 14. The cells were examined by fluorescence microscope and flow cytometry. Melanosome transfer from melanocytes to keratinocytes increased in a time-dependent manner. To verify the accessibility of this method, the melanosome transfer inhibitor, a serine protease inhibitor, 4-(2-aminoethyl) benzenesulfonyl fluoride hydrochloride, and a melanosome transfer stimulator, alpha-melanocyte-stimulating hormone, were added. The serine protease inhibitor decreased melanosome transfer, and alpha-melanocyte-stimulating hormone increased melanosome transfer, in a dose-dependent manner. In conclusion, this is a simple, rapid, and effective model system to quantify the melanosome transfer efficacy from melanocytes to keratinocytes in vitro.