Hepatocyte growth factor is a potent stimulator of human melanocyte DNA synthesis and growth.

Hepatocyte growth factor (HGF) is a potent mitogen for adult rat hepatocytes in primary culture. HGF stimulates growth and DNA synthesis of normal human epidermal melanocytes in culture. The maximal stimulation of DNA synthesis by 4.0-fold occurred with 10 ng/ml HGF. This stimulatory effect was additive with both acidic and basic fibroblast growth factors, while it was inhibited by transforming growth factor-beta 1. Melanocytes expressed a single class of specific, high-affinity receptors for HGF with a Kd of 22 pM and approximately 120 receptors/cell. Thus, HGF is a potent mitogen for normal human epidermal melanocytes.     

Substrate ifluences human epidermal melanocyte attachment and sperading in vitro

Summary Previous culture systems for melanocytes have employed serum-supplemented medium and uncoated plastic dishes, prohibiting examination of possible substrate influences on cellular morphology and function. We now report, using a sensitive serum-free system and a quantitative procedure for evaluating cellular morphology, that modification of the plating surface affects human epidermal melanocyte attachment rate and subsequent morphology in vitro. Melanocytes attach and spread more rapidly on surfaces coated with fibronectin or Type I/III collagen or on surfaces previously conditioned by human keratinocytes, dermal fibroblasts, melanocytes, or melanoma cells than do melanocytes on untreated control surfaces. Type IV collagen and laminin, although minimally beneficial for cell attachment, do support a characteristics melanocyte morphology that differs from that seen either on the other coated surfaces or on uncoated plastic controls. Addition of fetal bovine serum at the time of inoculation has no appreciable effect on attachment but markedly improves cell spreading on untreated surfaces, while addition of nerve growth factor with or without serum to this system fails to affect cell attachment or spreading. Our data establish that human epidermal melanocytes are indeed capable of responding morphologically to substrate signals. The ability of several biochemically unrelated surfaces to enhance melanocyte attachment rate and spreading suggests that melanocytes have surface receptors with a variety of specificities. This work is relevant to the development of improved culture systems for melanocytes in vitro and to understanding melanocyte behavior in vivo. This work was supported by the USDA Agricultural Research Service, by a grant from Cheesebrough-Ponds, Inc., and by a Dermatology Foundation Fellowship (Dr. Yaar).     

Growth stimulation of human melanocytes: identification and characterization of melanoma-derived melanocyte growth factor (M-McGF)

The melanocyte growth stimulating factor from human melanoma cells grown in vitro [Eisinger, M. et al, (1985) Science 229, 984-986] has been purified and identified as a 14 kDa peptide. The activity was shown to be sensitive to acid and heat treatments but resistant to reduction. The factor has strong affinity for heparin-Sepharose and was separated into two fractions by ion-exchange chromatography. Based on its properties, it is grouped in the family of heparin-binding growth factors. Identification of this growth factor will provide a tool for studies of growth regulation of normal and transformed human melanocytes.     

Tissue plasminogen activator is released into cultured medium by cultured human uveal melanocytes

Melanoma cells produce tissue plasminogen activator (t-PA) that plays an important role in tumor invasion and metastasis. The production of t-PA by normal human uveal melanocytes has not been reported previously. In order to explore this possibility, we studied the production of t-PA by cultured human uveal melanocytes and compared that with the production by cultured human uveal melanoma cells and epidermal melanocytes. Human adult uveal melanocytes were isolated and cultured from donor eyes. The cells were cultured in serum-free medium for 48 h and the conditioned medium then collected for the plasminogen activator (PA) activity assay. Free PA activity was tested in an amidolytic assay using a t-PA standard curve. PA type was identified by fibrinography and antihuman t-PA and urokinase plasminogen activator (u-PA) blocking antibodies. Free PA activity was found in the conditioned medium of normal melanocytes and melanoma cells. The predominant PA activity was t-PA. Normal uveal melanocytes produced more t-PA (3.23 +/- 0.73 IU/105 cells/24 h) than that of epidermal melanocytes (1.25 IU/105 cells/24 h) but much less than uveal melanoma cells (11.0 +/- 3.39 IU/105 cells/24 h). Western blot analysis revealed that most t-PA in conditioned media were one-chain t-PA with molecular weight of 69 kDa. Our study indicates that uveal melanocytes may contribute to the free t-PA activity previously found in aqueous humor and choroidal eye cup superfusions. Therefore, this function of uveal melanocytes may play a role in intraocular matrix remodeling, fibrinolysis and aqueous humor outflow.     

Extracellular matrix modulates the function of human melanocytes but not melanoma cells

Normal human epidermal melanocytes are attached to a basement membrane, a specialized form of extracellular matrix (ECM), located between the epithelium and underlying dermal tissues. To determine whether ECM influences pigmented cell behavior in vitro, human epidermal melanocytes and melanoma cells were cultured on uncoated or ECM-coated plastic culture surfaces, and a comparison was made between growth and function in the presence or absence of ECM. Melanocytes cultured on ECM-coated surfaces developed flatter and larger cell bodies and produced more melanin than melanocytes cultured on uncoated surfaces. In the presence of phorbol-myristate-acetate and cholera toxin, the rate of melanocyte replication was increased by ECM. In the absence of these mitogens, ECM significantly enhanced the adhesiveness of nonproliferating melanocytes. ECM had little or no effect on these parameters (morphology, tyrosinase activity, replication) in a pigmented human malignant melanoma cell line. These findings indicate that normal human epidermal pigment cells have the ability to recognize and respond to matrix signals, whereas this capacity appears to be absent in melanoma cells.     

Ultraviolet radiation acts as an independent mitogen for normal human melanocytes in culture

Identification of growth factors for normal human melanocytes has been significantly aided by the recent development of in vitro culture systems for this cell. Utilizing such a system, we studied the effect of ultraviolet radiation (UVR) on both melanocyte growth and melanization by incorporation of 3H-thymidine and 3H-L-dihydroxyphenylalanine (3H-DOPA), respectively. 3H-thymidine incorporation was found to be significantly stimulated during the first 24 h following a single irradiation. 3H-DOPA incorporation was stimulated after a delay of 2 days postirradiation. Whereas UVR has long been known to induce melanocyte proliferation in vivo, these studies show that UVR can act as a mitogenic stimulus for this cell independent of the cutaneous environment. UVR can thus be added to a growing list of growth factors for epidermal pigment cells and is the only physical agent conclusively shown to act as a mitogen. Included in this list are substances that act via stimulation of the CAMP-kinase or protein kinase systems such as cholera toxin and phorbol esters. UVR is postulated to induce melanocyte proliferation by modulation of these second messenger pathways. With recent evidence linking growth factors, oncogenes and malignant transformation, this study supports the association between UVR exposure and the development of malignant melanoma, and suggests mechanisms whereby UVR may contribute to malignant transformation of this cell.     

Fibronectin decreases the stimulatory effect of fibrin and fibrinogen fragment FCB-2 on plasmin formation by tissue plasminogen activator.

Fibronectin is a dimeric glycoprotein (Mr 440,000) involved in many adhesive processes. During blood coagulation it is bound and cross-linked to fibrin. Fibrin binding is achieved by structures (type I repeats) which are homologous to the "finger" domain of tissue plasminogen activator. Tissue plasminogen activator also binds to fibrin via the finger domain and additionally via the "kringle 2" domain. Fibrin binding of tissue plasminogen activator results in stimulation of its activity and plays a crucial role in fibrinolysis. Since fibronectin might interfere with this binding, we studied the effect of fibronectin on plasmin formation by tissue plasminogen activator. In the absence of fibrin, fibronectin had no effect on plasminogen activation. In the presence of stimulating fibrinogen fragment FCB-2, fibronectin increased the duration of the initial lag phase (= time period until maximally stimulated plasmin formation occurs) and decreased the rate of maximal plasmin formation which occurs after that lag phase mainly by increasing the Michaelis constant (Km). These effects of fibronectin were dose-dependent and were similar with single- and two-chain tissue plasminogen activator. They were also observed with plasmin-pretreated FCB-2. An apparent Ki of 43 micrograms/ml was calculated for the inhibitory effect of fibronectin when plasminogen activation by recombinant single-chain tissue plasminogen activator was studied in the presence of 91 micrograms/ml FCB-2. When a recombinant tissue plasminogen activator mutant lacking the finger domain was used in a system containing FCB-2, no effect of fibronectin was seen, indicating that the inhibitory effect of fibronectin might in fact be due to competition of fibronectin and tissue plasminogen activator for binding to fibrin(ogen) via the finger domain.     

Laminin increases the release of type IV collagenase from malignant cells

We have studied the effect of laminin on type IV collagenolytic activity elaborated by malignant cells in culture. Laminin (at concentrations of 4-8 micrograms/ml) added to serum-free culture supernatants of subconfluent A2058 human melanoma cells significantly increased the release of the type IV collagenolytic activity (200-300%). The induction of type IV collagenase was more pronounced (580%) using a fragment of laminin which binds to the cell surface laminin receptor. A monoclonal antibody against the human laminin receptor blocked the effect of laminin on type IV collagenase, suggesting that occupation of the laminin receptor may be necessary for the effect. Increase in the type IV collagenolytic activity mediated by laminin was also demonstrated in two other malignant cell lines, HT fibrosarcoma (168%) and mouse melanoma (B16-F10) (271%). The increase in type IV collagenase was found to be specific for laminin because another cell-binding matrix protein, fibronectin, did not have any effect, and epidermal growth factor and transferrin actually decreased the type IV collagenase in human melanoma culture medium (epidermal growth factor, 50% at 20 ng/ml; and transferrin, 20% at 10 micrograms/ml). These studies suggest that tumor cell binding to laminin, which comprises the first step of basement membrane invasion, will induce the second step, namely the collagenolytic dissolution of the basement membrane.     

Rac and rho: the story behind melanocyte dendrite formation

Melanocyte dendrites are hormonally responsive actin and microtubule containing structures whose primary purpose is to transport melanosomes to the dendrite tip. Melanocyte dendrites have been an area of intense interest for melanocyte biologists, but it was not until recently that we began to understand the mechanisms underlying their formation. In contrast with melanogenesis, for which numerous mutations in pigment producing genes and mouse models have been identified, a genetic defect resulting in impaired dendrite formation has not been found. Therefore, much of the insight into melanocyte dendrites has come from electron microscopy or in vitro culture systems of normal human and murine melanocytes as well as melanoma cell lines. The growth factors that regulate the formation of melanocyte dendrites have been thoroughly studied and it is clear that multiple signalling systems are able to stimulate, and in some cases inhibit, dendrite formation. Recent data points to the Rho family of small guanosine triphosphate (GTP)-binding proteins as master regulators of dendrite formation, particularly Rac and Rho. In this review I will summarize the progress scientists have made in understanding the structure, hormonal regulation and molecular mediators of melanocyte dendrite formation.     

Determination of tissue plasminogen activator by an enzyme-immunoassay method

The sensitive assay method of tissue plasminogen activator was established by an enzyme-immunoassay method, and discriminates tissue (nonurokinase) type plasminogen activator from urokinase. The sensitivity was 0.1 ng/assay tube, and the plasma concentration of tissue plasminogen activator in normal healthy subjects was 1.22 +/- 0.25 ng/ml. Distribution of tissue plasminogen activator was examined in normal tissue. A melanoma cell line was employed as cell culture medium for determination of tissue plasminogen activator.     

Generation of a human melanocyte cell line by introduction of HPV16 E6 and E7 genes

Summary Availability of a standard human melanocyte cell line with unlimited growth potential and otherwise normal melanocytic properties will greatly facilitate research in melanocyte biology and in vitro studies on the etiology of pigmentary disorders and melanoma. Using a retroviral vector, E6 and E7 open reading frames of human papilloma virus type 16 (HPV 16) have been introduced into cultured normal human melanocytes. Cells selected by increased resistance to geneticin conveyed by the vector and expressing E6E7 mRNA have been cloned to ensure genetic homogeneity. Since their establishment as primary cells, cloned PIG1 cells have undergone more than twice the amount of population doublings of senescent parental cells. Moreover, in passage numbers when parental cells had become senescent, proliferation of clonal cells was retained at levels exceeding those of normal human melanocytes in third passage by 100%. Further characterization has revealed that the cells remain dependent on tetradecanoyl phorbol 13-acetate (TPA) for growth and do not proliferate in soft agar nor form tumors in nude mice. The antigenic profile of the cells was slightly altered as compared to parental cells, but was incomparable to that of M14 melanoma cells. Importantly, PIG1 cells contain more melanin pigment than parental cells.     

Evidence for nerve growth factor-mediated paracrine effects in human epidermis

Nerve growth factor (NGF) is critical to the development and maintenance of the peripheral nervous system, but its possible roles in other organ systems are less well characterized. We have recently shown that human epidermal melanocytes, pigment cells derived from the neural crest, express the NGF receptor (p75 NGF-R) in vitro (Peacocke, M., M. Yaar, C. P. Mansur, M. V. Chao, and B. A. Gilchrest. 1988. Proc. Natl. Acad. Sci. USA. 85:5282-5286). Using cultured human skin-derived cells we now demonstrate that the melanocyte p75 NGF-R is functional, in that NGF stimulation modulates melanocyte gene expression; that exposure to an NGF gradient is chemotactic for melanocytes and enhances their dendricity; and that keratinocytes, the dominant epidermal cell type, express NGF messenger RNA and hence are a possible local source of NGF for epidermal melanocytes in the skin. These combined data suggest a paracrine role for NGF in human epidermis.     

Keratinocyte expression of transgenic hepatocyte growth factor affects melanocyte development, leading to dermal melanocytosis

Using the epidermis-specific cytokeratin 14 promoter to deliver HGF exclusively from epidermal keratinocytes, we have examined the potential of hepatocyte growth factor (HGF) secreted from the normal environment to control morphogenesis. The transgenic mice displayed a significant increase of the number of melanocytes and their precursors in embryos starting not later than 16.5 dpc, and then after birth an explosive increase of dermal melanocytes started within 1 week, and these melanocytes were maintained throughout the entire life of the mice. Thus, HGF acts as a paracrine agent to promote survival, proliferation and differentiation of melanocyte precursors in vivo, and eventually causes melanocytosis. Loss of E-cadherin expression in dermal melanocyte precursors suggests that HGF caused dermal localization of melanocytes and their precursors by down-regulation of E-cadherin molecules.