Dibutyryl cyclic AMP arrests the growth of cultivated Cloudman melanoma cells in the late S and G2 phases of the cell cycle

Stereological studies of the effects of alpha-MSH and cAMP on melanosomes in melanoma cells

The effects of alpha-MSH and cAMP on melanosomes in Cloudman S91 melanoma cells were investigated by modern stereological techniques. Cells were cultured for 4 days in medium containing alpha-MSH or cAMP, harvested at 24 hour intervals; some were frozen for melanin assay and the reminder embedded in Epon for light and electron microscopy. Cellular and melanosomal parameters were estimated by new stereological probes. We found that both stimulators induced increases in nuclear volume, cell volume, and the volume fractions and volumes of premelanosomes (V(Vpm,cell), Vpm) and mature melanosomes (V(Vmm,cell), Vmm), and the number of mature melanosomes (Nmm). Both stimulators also caused declines in the volume of individual mature melanosomes (V(Vimm)), the melanin content per mature melanosome unit volume and the melanin content per individual mature melanosome. The increases in the volume of individual premelanosomes and the number of premelanosomes were only induced by cAMP. The effect cAMP on some parameters occurred 24 hours prior to alpha-MSH and was more marked. The response of premelanosomes to the stimulators was more sensitive than mature melanosomes. These results suggest that both stimulators enhanced melanogenesis by increasing the V(Vpm,cell), V(Vmm,cell), Vpm, Vmm and Nmm. The melanogenic level did not depend on the V(Vimm) and melanin concentration in melanosomes. The maturation of premelanosomes was involved in melanogenesis induced by both stimulators, but, de novo synthesis and enlargement of premelanosomes were only stimulated by cAMP. It imply that exogenous cAMP may affect melanosomes, and hence melanogenesis in quantitatively or qualitatively different ways to alpha-MSH.

Application of the new stereological probes to the study of the melanosome in Cloudman S91 melanoma cells

The relationship between melanosome size and number and melanin content has been investigated in Cloudman S91 melanoma cells growing in vitro using both "model-based" and "design-based" stereological procedures. Cells were cultured for 4 days, harvested at daily intervals, and resin-embedded for light and electron microscopy; one aliquot of each sample of cells was assayed to determine its melanin content. By comparing their volume-weighted mean nuclear volume and their number-weighted mean nuclear volume, we have found that the nuclei of Cloudman melanoma cells form a fairly homogeneous population. The volume fraction and absolute volume of premelanosomes (VVpm, cell and Vpm) and mature melanosomes (VVmm, cell and Vmm) were all found to decrease progressively throughout the period of culture as did the number of premelanosomes (Npm) and mature melanosomes (Nmm). Whilst the volume-weighted mean volume of individual stage I and stage II premelanosomes, (VVipm), remained fairly constant at about 10 nm3, the volume of individual stage III and IV mature melanosomes showed significant variation ranging between about 13 nm3 and 32 nm3. The melanin content of the cells decreased progressively over the 4 days of culture. There were, however, considerable variations in both the average melanin content per unit volume of mature melanosomes, in the range 170-600 fg/micron3, and in the melanin content per individual mature melanosome, in the range 3-12 fg. Our findings show that stereological techniques can provide unbiased and sensitive tools for the study of the morphological basis of melanogenesis; their value will become even more evident when they are combined with techniques for the localization of melanogenic enzymes and their substrates.

Changes in protein expression during melanoma differentiation determined by computer analysis of 2-D gels

Cytodifferentiation in many melanocytic cells is regulated through the adenylate cyclase-cAMP pathway. To analyse the molecular changes associated with this process we have compared the proteins produced by two closely related cell lines which, though derived from a single cell line, respond very differently to modulation of this signalling pathway. The human melanoma cell line DX3 shows little change in in vitro characteristics following treatment with cAMP elevating agents; in contrast the more malignant DX3 LT5.1 variant, derived from the DX3 parental line, shows pronounced dendrification, decreased proliferation and a reduction in metastatic capacity after similar treatment. The two cell lines were treated with phosphodiesterase inhibitors for 5 days and then processed for two-dimensional gel characterization using an immobilized pH gradient for the IEF dimension. Proteins were detected by silver staining the gels and protein intensities were digitized using a laser densitometer. Two-dimensional gel patterns were edited, matched and a melanoma protein database of 637 spots constructed using PDQUEST software on an Orion 1/05 computer. Eleven proteins were lost and four new proteins were detected in both cell lines following treatment. Twenty-two proteins were present in DX3 LT5.1 after treatment but not in untreated lines or treated DX3. These differentially expressed proteins may be associated with the observed changes in differentiation patterns and metastasis. Our results illustrate the resolving power of this technique and suggest potential applications to the study of cellular differentiation.

Interleukins 1 alpha and 6 and tumor necrosis factor-alpha are paracrine inhibitors of human melanocyte proliferation and melanogenesis

Interleukin (IL)-1 alpha, IL-6, and tumor necrosis factor (TNF)-alpha are epidermal cytokines that produce many similar biologic effects. We have investigated the possibility that these cytokines act as regulators of melanization and proliferation of cultured normal human melanocytes (NHM). All three cytokines elicited a dose-dependent decrease in the activity of the enzyme tyrosinase after 48 h of treatment. IL-1 alpha had the greatest inhibitory effect, resulting in a 22% inhibition of tyrosinase activity at a concentration of 3 x 10(-14) M. An equivalent effect was elicited by 4 x 10(-11) M IL-6 and 10(-11) M TNF-alpha. All three cytokines also inhibited melanocyte proliferation, as measured by a decrease in the rate of 3H-thymidine incorporation and an increase in doubling time. IL-1 alpha at 6 x 10(-14) M, 6 x 10(-13) M, and 3 x 10(-12) M, TNF-alpha at 10(-10) M, 10(-9) M, and 10(-8) M, and IL-6 at 4 x 10(-10) and 1.2 x 10(-9) M produced a dose-dependent inhibition of 3H-thymidine incorporation. The effects of IL-1 alpha, TNF-alpha, and IL-6 were cytostatic, not cytotoxic, because melanocytes remained viable following several treatments with the cytokines. Also, melanocytes treated with IL-1 alpha and TNF-alpha recovered and resumed proliferation after cessation of treatment. These effects of IL-1 alpha, IL-6 and TNF-alpha do not seem to be mediated by stimulation of eicosanoid production, because inhibition of arachidonic acid (AA) metabolism by indomethacin, a cyclooxygenase inhibitor, and nordihydroguaiaretic acid, a lipoxygenase inhibitor, did not reverse the inhibitory effects on either proliferation or tyrosinase activity of NHM. This is the first demonstration that NHM respond to epidermal cytokines, and suggests a role for paracrine and possibly autocrine regulation of melanocytes by immune modulators.

Stimulation of Cloudman melanoma tyrosinase activity occurs predominantly in G2 phase of the cell cycle

A widely accepted notion is that an increasing cellular cyclic AMP (cAMP) concentration is prerequisite for increasing tyrosinase activity and melanin synthesis and for regulating proliferation of pigment cells. alpha-Melanocyte stimulating hormone (alpha-MSH) increases cAMP and tyrosinase activity in Cloudman melanoma cells. Prostaglandins (PGs) E1 and E2 increase melanoma cell tyrosinase activity and inhibit proliferation. Both PGs, but not alpha-MSH, block the progression of Cloudman melanoma cells from G2 phase of the cell cycle into M or G1. Only PGE1 and not PGE2 causes an elevation of cellular cAMP concentrations. The adenylate cyclase inhibitor 2',5'-dideoxyadenosine (DDA) at 5 x 10(-4) M effectively blocks the increased cAMP synthesis by cells treated with 10 micrograms/ml PGE1. The addition of DDA, however, enhances the melanogenic response of melanoma cells to 10 micrograms/ml PGE1 or PGE2, 10(-7) M alpha-MSH, 10(-4) M isobutylmethylxanthine, 10(-4) M dibutyryl cyclic AMP. DDA also augments the effects of PGE1 or PGE2 on the melanoma cell cycle. Moreover, when DDA is added concomitantly with alpha-MSH, more cells are recruited into G2 than observed in untreated controls. Neither alpha-MSH nor DDA alone has any effect on the cell cycle. These findings undermine the role of cAMP in the melanogenic process and suggest that blocking melanoma cells in G2 may be required for the remarkable stimulation of tyrosinase activity observed with PGE1 or PGE2 alone or in combination with DDA. The observed block in G2 may be essential for the synthesis of sufficient mRNA, which is required for stimulation of tyrosinase activity.

Different growth responses to agents which elevate cAMP in human melanoma cell lines of high and low experimental metastatic capacity

Human melanoma variants of low and high experimental metastatic activity, which had been derived from the same parental line, showed markedly different growth responses to agents which elevated intracellular cAMP. The high metastatic line had a significant decrease in in vitro proliferation following treatment with cholera toxin (10(-9) M) and forskolin (100 microM), with both agents causing virtual cessation of cell growth after 3-5 days incubation. Pre-treatment with 10(-9) M cholera toxin reduced colony forming ability to 11-15 per cent of control values, saturation densities were decreased to 10-25 per cent of controls and these cytostatic responses were accompanied by changes in cellular morphology. Lung colonising capacity of this cell line after i.v. injection into athymic mice was reduced significantly by prior exposure to cholera toxin (a median of 2 lung nodules versus 26 lung nodules for untreated, control cells). In contrast, low metastatic cell lines showed no significant growth inhibition in the presence of these agents. Cholera toxin (10(-9) M) reduced colony forming ability of these cells to only 74 per cent of control values and there were no significant decreases in growth rate nor any morphological changes in response to either cholera toxin or forskolin. The variable response obtained in the cell lines appeared neither to be a consequence of variation in induced levels of intracellular cAMP nor in differences between the cell lines in response to the same agent; forskolin (100 microM) induced a maximal 25-fold elevation and cholera toxin (10(-9) M) a 2.5-fold elevation increase in cAMP. These data show that highly metastatic variants of a human melanoma cell line differ from their less metastatic counterparts in the way they respond to agents which elevate the second messenger molecule cAMP.

Alpha tocopheryl succinate inhibits melanocyte-stimulating hormone (MSH)-sensitive adenylate cyclase activity in melanoma cells

D-alpha tocopheryl succinate (vitamin E succinate), which is known to induce differentiation and growth inhibition in murine B-16 melanoma cells, reduced basal and melanocyte-stimulating hormone (MSH)-stimulated adenylate cyclase (AC) activity in vitro. Vitamin E succinate treatment also reduced sodium fluoride- and forskoline-stimulated AC activity of melanoma cells in vitro. Treatment of cells with vitamin E succinate (6 micrograms/ml] for a period of 24 hours was sufficient to reduce MSH-stimulated AC activity. Other forms of vitamin E, such as d1-alpha tocopheryl nicotinate, d1-alpha tocopheryl acetate, and d1-alpha tocopherol, which did not affect growth or morphology of melanoma cells, were relatively less effective in altering basal and MSH-stimulated AC activity. Retinoic acid, which inhibited the growth of B-16 melanoma cells, also reduced basal and MSH-, NaF-, and forskolin-stimulated AC activity in vitro. Prostaglandin A2, which inhibited growth and altered morphology, did not change basal or MSH-stimulated AC activity. These results show that one of the mechanisms of action of vitamin E succinate and retinoic acid on melanoma cells may involve reduction of basal and MSH-sensitive AC activity, and this vitamin effect is not necessarily related to growth inhibition.

Induction of reverse transformation and normal cell cycle regulation by dibutyryl cAMP in a chemically transformed cell line

The objective of this study was to determine whether N6, O2-dibutyryl 3',5'-adenosine monophosphate (db-cAMP)-induced reverse transformation in a chemically transformed mouse cell line, AKR-MCA, would restore normal cell cycle regulation, particularly with regard to their growth arrest in the early G1 period. The AKR-MCA cells were grown to confluency in the presence or absence of db-cAMP (0.5 mM) plus theophylline (1 mM). The confluent cultures were trypsinized and a portion of the cells were fused with mitotic HeLa cells to induce premature chromosome condensation, while the remaining cells were used to study the kinetics of initiation of DNA synthesis. The prematurely condensed chromosomes (PCC) of the control and the treated cultures were classified into G1, S, or G2 types on the basis of their morphology. The G1 PCC were further subclassified into six groups (+1 - +6); +1 being the most condensed and +6 the most decondensed. The cyclic AMP (cAMP)-treated cells exhibited better attachment to the culture dish, were blocked in early G1 period at confluency, and entered S phase about 4 h later than the control following subculturing. In contrast, a majority of cells in the control cultures were arrested in S phase at confluency. These data indicate that the db-cAMP-induced reverse transformation in AKR-MCA cells at least partially restores normal cell cycle regulation in these chemically transformed cells.

Elevated intracellular concentrations of cyclic AMP inhibited serum-stimulated, density-arrested BALB/c-3T3 cells in mid G1

The stimulation of DNA synthesis in quiescent, density-arrested BALB/c-3T3 cells by platelet-derived growth factor in plasma-supplemented medium was inhibited by the presence of isobutylmethylxanthine (IBMX) and cholera toxin, although neither IBMX or cholera toxin when used alone inhibited the stimulation of DNA synthesis. The cells were reversibly inhibited in mid G1 at a point 6 hr prior to the initiation of DNA synthesis. The inhibition of cell cycle traverse was associated with a 10-15 fold increase in cellular cyclic AMP concentration over basal levels. The reversal of this inhibition by removal of IBMX was correlated with a dramatic decrease in cyclic AMP levels. The traverse of G1 and the initiation of DNA synthesis after release from the cholera toxin and IBMX inhibition was dependent on the presence of plasma in the medium. Either somatomedin C (10-20 ng/ml) or insulin (10(-6)-10(-5) M) completely replaced the plasma requirement for late G1 progression and entry into S phase. Once the inhibited cells were released from the IBMX and cholera toxin block a subsequent increase in cyclic AMP did not prevent entry into S phase. The presence of cholera toxin alone inhibited the stimulation of human dermal fibroblasts. The elevation of intracellular cyclic AMP levels in the human dermal fibroblasts by cholera toxin was two to three fold greater than that found in the BALB/c-3T3 cells in the presence of cholera toxin and the IBMX.

Decay of hormone responsiveness in mouse melanoma cells in culture as a function of cell density

Cloudman S91 mouse melanoma cells lose their ability to demonstrate an MSH-induced increase in tyrosinase activity as cell density increases. This loss in hormone responsiveness occurs before confluency is reached and cannot be reversed by exposure of cells to increasing concentrations of MSH. The failure of high-density cultures to respond to MSH is apparently not the result of an inability of MSH to stimulate cAMP production, since either low- or high-density cultures exposed to MSH demonstrate equivalent increases in intracellular levels of cAMP. Further, neither theophylline (1mM), dibutyryl cyclic AMP (10(-4)M), or prostaglandin E1 (10(-6)M) is effective in stimulating tyrosinase activity in melanoma cells cultured at densities exceeding 6 X 10(4) cells/cm2. This finding suggests that the decay of hormone responsiveness occurs at a cellular site distal to cAMP production. The decrease in tyrosinase stimulation by MSH as cell density increases is also apparently not the result of an increase in activity of any soluble inhibitor of the enzyme, for cytosol preparations from high-density cultures (10(5) cells/cm2) fail to inhibit tyrosinase activity in cell homogenates from low-density cultures treated with MSH.

Isolation and characterization of a variant of B16-mouse melanoma resistant to MSH growth inhibition

A variant of B-16 F1 mouse melanoma was selected for its ability to survive and replicate in the presence of melanocyte-stimulating hormone (MSH). Although the variant (MR-4) was completely resistant to growth inhibition of MSH, cyclic AMP was still able to block cell replication. Tyrosinase activity in MR-4 cells was considerably lower than in B-16 F1 cells. MSH induced a two fold to three-fold increase in tyrosinase activity in both cell types, but the absolute activity in MR-4 remained significantly less than in the parental cells. MR-4 cells were also found to have a markedly depressed cyclic AMP-dependent protein kinase activity relative to B-16 F1 cells. The protein kinase from both cell types was stimulated by cyclic AMP, but the level of MR-4 kinase activity at maximal cyclic AMP concentrations remained considerably lower than B-16 F1 kinase activity under the same conditions. In both cell types adenylate cyclase activity was markedly stimulated by MSH. When equal numbers of viable F1 and MR-4 cells were injected subcutaneously into C57/B1 mice, the MR-4 cells formed tumors earlier and killed the host sooner than the parental F1 cells. We conclude that the biochemical alteration which allows MR-4 cells to replicate in the presence of MSH is a low level of tyrosinase activity, which in turn may be the result of low cyclic AMP-dependent protein kinase activity.