Claudia Bagutti

Biologically active monoiodinated α-MSH derivatives for receptor binding studies using human melanoma cells

Three different monoiodinated radioligands of alpha-MSH (alpha-melanocyte-stimulating hormone) were compared in a binding assay with human D10 melanoma cells: [Tyr(125I)2]-alpha-MSH, [Tyr(125I)2,NIe4]-alpha-MSH, and [Tyr(125I)2,NIe4,D-Phe7]-alpha-MSH. They were prepared either by the classical chloramine T method or by the Enzymobead method. A simple and rapid purification scheme was developed consisting of a primary separation on reversed-phase C18 silica cartridges immediately after the iodination, followed by HPLC purification before each binding experiment. Biological testing of the three radioligands showed that they all retained high melanotropic activity in the B16 melanin assay and the Anolis melanophore assay. However, in human D10 melanoma cells, [Tyr(125I)2,NIe4]-alpha-MSH led to a high degree of non-specific binding to the cells which could not be displaced by excess alpha-MSH and only partially by [NIe4]-alpha-MSH. The [Tyr(125I)2,NIe4,D-Phe7]-alpha-MSH tracer gave similar results but with a much lower proportion of non-specific binding. On the other hand, [Tyr(125I)2]-alpha-MSH proved to be an excellent radioligand whose non-specific binding to the D10 cells was not higher than 20% of the total binding.

Receptors for melanocyte-stimulating hormone on melanoma cells.

Most studies of melanocyte-stimulating hormone (MSH) receptors on melanoma cells are based on in uitro model systems, such as B16 or Cloudman S91 mouse melanoma and, more recently, certain human melanoma cell lines. The advantage of using established cell lines is the ease of culturing them in large quantity and the reproducibility of hormonal responses. Also, amelanotic variants of these cells can be isolated which may be better models for metastatic forms. Our present knowledge of MSH effects on melanoma cells stems from studies on (1) proliferation and growth inhibition of these cells in uitro and in uiuo, (2) MSHreceptor binding in uitro and in uiuo, (3) activation of adenylate cyclase and protein kinases, (4) changes in protein phosphorylation, RNA, and protein synthesis in uitro, (5 ) stimulation of tyrosinase and melanin formation in vifro and in uiuo, and (6) cloning and expression of the MSH receptor. These studies form the basis for the potential application of MSH peptides to melanoma tumor diagnosis and therapy. The following review covers some of the relevant findings in these different areas.

ALPHA -MSH RECEPTOR AUTORADIOGRAPHY ON MOUSE AND HUMAN MELANOMA TISSUE SECTIONS AND BIOPSIES

MSH receptors and their binding characteristics of [125I]-labelled derivatives of alpha-MSH have been studied extensively on various mouse and human melanoma cell lines in culture. The aim of this study was to determine the binding characteristics of alpha-MSH radioligands to MSH receptors occurring in experimental mouse and human melanoma tumours as well as in human melanoma biopsies. For this reason, solid tumours were grown on experimental animals by inoculation of murine B16-F1 and human D10 and HBL melanoma cells. After excision and cryosectioning of the tumours, frozen tissue sections were incubated with [(125I)Tyr2]-alpha-MSH or [(125I)Tyr2,Nle4,D-Phe7]-alpha-MSH and specific alpha-MSH binding sites were visualized by subsequent autoradiography. The presence of increasing concentrations of unlabelled alpha-MSH during incubation with tracer led to a dose-dependent displacement of the radioligand. Quantitative analysis of the autoradiograms produced dissociation constants which were comparable with those obtained with cell binding assays: KD = 1.87 and 1.31 nmol/l for B16 tumours and cells, respectively; 0.32 and 0.33 nmol/l for D10, and 2.24 and 1.36 nmol/l for HBL tumours and cells, respectively. This indicates similar binding properties of alpha-MSH radioligands to both cultured melanoma cells and tissue sections of melanoma tumours from experimental animals. Similar binding characteristics were also observed with human melanoma tissue sections originating from biopsies of melanoma patients.

Synthesis and receptor binding analysis of thirteen oligomeric alpha-MSH analogs.

Thirteen oligomeric analogs from dimers up to a hexamer of alpha-melanocyte-stimulating hormone (alpha-MSH) were synthesized and tested on melanoma cells for their ability to bind to melanocortin type 1 (MC1) receptors and to stimulate melanin production in the cells. The peptidic oligomers were made by linking several copies of the alpha-MSH fragment analog Nle-Asp-His-[D-Phe]-Arg-Trp-Lys-NH2 to different templates through formation of oxime bonds. They were found to have binding affinities at 37 degrees C up to 8 times higher and melanogenesis-inducing activities up to 4 times higher than those of the native hormone. At 15 degrees C, one dimer showed a binding affinity 20 times higher than that of alpha-MSH. These results are discussed in terms of possible bridging of neighboring receptors which has been suggested to occur in some other systems.

MSH Receptors and the Response of Human A375 Melanoma Cells to Interleukin-1β

alpha-Melanocyte-stimulating hormone (alpha-MSH, alpha-melanotropin) has been shown to be an inhibitory factor in many immunologic and inflammatory processes involving the cytokine interleukin-1 (IL-1). As the mechanism of the interaction between IL-1 and alpha-MSH at the receptor level is unknown, we have studied the role of MC1 melanocortin receptors in two variants of the human melanoma cell line A375 differing in their sensitivity to the cytostatic effects of IL-1 beta. Both IL-1 sensitive (A375r-) and resistant cells (A375r+) carry specific high affinity receptors for IL-1, albeit their concentration is 10-fold higher in A375r+ cells. In A375r- cells, MC1 receptors are absent or below the level for reliable detection in the binding assay. Conversion of A375r- to A375r+ cells by prolonged culture in medium not depleted of endotoxin led to the appearance of MC1 receptors (KD 0.4 +/- 0.123 nmol/l; 608 +/- 134 receptors/cell). Stable transfection of A375r- cells with the human MC1 receptor did not, however, render them resistant to the cytostatic effect of IL-1 beta on concomitant treatment with alpha-MSH or result in the production of IL-6 on treatment with IL-1 beta. Therefore, the presence of MC1 receptors on the surface of A375 cells or their binding to alpha-MSH does not seem to be a factor in cytokine resistance or IL-6 secretion. No interaction between IL-1 beta and alpha-MSH could be demonstrated at the cellular level in this melanoma cell line.

Stable Expression of the Human MSH Receptor in a Mouse Melanoma Cell Line

Stable expression of the MSH receptor in a homologous system is important for the study of the function and mechanism of signalling of this receptor. This is the first report on the stable expression of the human alpha-MSH receptor in the mouse melanoma G4F clone which lacks an endogenous MSH receptor. Several stable transfectant cell lines were obtained all of which express the human MSH receptor in high numbers. Human MSH receptor mRNA expression was detected by Northern blot analysis. Competition binding experiments showed that the MSH receptors expressed in these cells have the same affinity for [Nle4,D-Phe7]-alpha-MSH as the MSH receptors of the human HBL melanoma cell line. Several of the transfectant cell lines produced melanin constitutively, some of them secreting melanin into the medium whereas other clones did not secrete melanin. MSH and cholera toxin did not or only marginally increase melanogenesis in these clones, and forskolin had an opposite effect. These results suggest that the human MSH receptor may be constitutively active in these transfected mouse melanoma cells.

Synthesis and Biological Properties of a Biotinylated Derivative of Acth1-17 for MSH Receptor Studies

A biotinylated derivative of [beta-Ala1,Lys17]-ACTH1-17-NH-(CH2)4-NH2 (ACTH1-17) was synthesized and biologically characterized. The heptadecapeptide with free N-terminus and blocked side-chains was prepared by the solid-phase method using TentaGel resin and a 4-aminobutylamide linker. Biotinyl-beta-Ala-OH was then coupled to the terminal amino group and the resulting [N alpha-(biotinyl-beta-alanyl)-beta-Ala1,Lys17]-ACTH1-17-NH-(CH2)4-N H2 (Bio-ACTH1-17) cleaved from the resin, purified and analyzed. Competition binding assays with mouse B16-F1 and human D10 and HBL melanoma cells using [125I]-alpha-MSH as radioligand gave dissociation constants for Bio-ACTH1-17 of 1.67 +/- 0.07 nM (B16-F1), 0.02 +/- 0.005 nM (D10) and 0.21 +/- 0.02 nM (HBL). The EC50 for Bio-ACTH1-17 in the B16 melanin assay was 4.15 +/- 1.0 nM. Analysis of the binding characteristics of [125I]-Bio-ACTH1-17 demonstrated that in human melanoma cells this radioligand was displaced by ACTH1-17 as well as alpha-MSH whereas in B16-F1 cells the tracer was only displaced from the binding site by ACTH1-17. Studies of Bio-ACTH1-17 with streptavidin showed that the peptide is to a large extent trapped specifically through reaction with biotin. These results demonstrate that (1) the biological characteristics of Bio-ACTH1-17 are almost identical to those of ACTH1-17, (2) Bio-ACTH1-17 is bound by avidin, and (3) Bio-ACTH1-17 may become a useful tool for MSH receptor targeting.