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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The common acute lymphoblastic leukemia antigen (CALLA) is identical to human endopeptidase 24.11 (E-24.11) and is expressed on certain human melanoma lines. This work was conducted in order to investigate whether
alpha-melanocyte-stimulating hormone
(
alpha-MSH
) could be a substrate for E-24.11, its degradation leading to the negative
alpha-MSH
radiobinding assay results observed with some CALLA-positive cell lines. We used 3 human melanoma cell lines (GLL-19, Mel Juso and G361) which lack receptors to
alpha-MSH
and express CALLA, and, as a control, one CALLA-negative melanoma cell line (
HBL
) with specific receptors for
alpha-MSH
. Radioimmunoassays give evidence that
alpha-MSH
was degraded in the presence of the 4 melanoma cell lines and that disappearance of the peptide was significantly reduced by phosphoramidon in 2 lines (GLL-19 and G361). Upon incubation of
alpha-MSH
with GLL-19 and G361 cell membranes, 3 degradation products were completely abolished in the presence of phosphoramidon. Amino acid content analysis of
alpha-MSH
fragments produced by purified E-24.11 permitted identification of 6 peptide bonds in the sequence of
alpha-MSH
susceptible to cleavage by the enzyme. It is concluded that
alpha-MSH
is a substrate in vitro for purified E-24.11 and for the enzyme present on the human melanoma cell lines GLL-19 and G361, expressing a high level of endopeptidase activity. However, hydrolysis of
alpha-MSH
by this enzyme does not seem to represent the main factor responsible for the apparent absence of receptors for the hormone on some cell lines.
...
PMID:Degradation of alpha-melanocyte stimulating hormone (alpha-MSH) by CALLA/endopeptidase 24.11 expressed by human melanoma cells in culture. 217 14
Specific high-affinity receptors for
alpha-melanocyte-stimulating hormone
(
alpha-MSH
) are found in variable abundance on many melanoma cell lines. We have examined melanocortin peptides and other factors for their ability to regulate the number of MSH receptors in eleven human and two mouse melanoma cell lines. MSH induced up-regulation of its own receptors in three human cell lines and down-regulation in six human and two mouse melanoma cell lines. No regulation was observed in two human lines. Scatchard analysis revealed modulation of the number of receptors per cell without any change in affinity. The concentrations inducing half-maximal response for up- and down-regulation were 1.6 nM and 0.23 nM, respectively. ACTH1-17 and [Nle4,D-Phe7]-
alpha-MSH
were more potent, whereas ACTH1-24, desacetyl-
alpha-MSH
, and [Nle4]-
alpha-MSH
were less potent in receptor up-regulation as compared to
alpha-MSH
. Down-regulation but not up-regulation could be fully mimicked by Gs-protein activation and partially by elevation of cellular cAMP. Combination of different agents which increase cAMP was found to be counterregulatory. TPA and retinoic acid generally down-regulated MSH receptors but had no effect on
HBL
cells. Several protein kinase inhibitors increased MSH binding in B16 cells. MSH-induced receptor down-regulation and melanin synthesis were most effectively antagonized by selective inhibitors of cAMP-dependent protein kinase in these cells. Taken together, MSH receptors on melanoma cells are both positively and negatively regulated. Whereas cAMP-dependent protein kinase activation seems to be involved in down-regulation, the mechanism responsible for up-regulation remains to be elucidated.
...
PMID:Homologous and heterologous regulation of alpha-melanocyte-stimulating hormone receptors in human and mouse melanoma cell lines. 816 86
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.
...
PMID:Synthesis and biological properties of a biotinylated derivative of ACTH1-17 for MSH receptor studies. 838 54
We have examined the mechanism of homologous regulation of MSH receptor binding and receptor-mediated adenylate cyclase activation in three human and two mouse melanoma cell lines. Pretreatment with
alpha-MSH
resulted in a time- and dose-dependent up-regulation of MSH receptors in human D10 and 205 melanoma cells whereas in human
HBL
and in mouse B16-F1 and Cloudman S91 cells
alpha-MSH
induced receptor down-regulation. Up-regulation of receptors was maximal after a 24-h incubation period and an
alpha-MSH
concentration of 100 nM (EC50 = 2.4 nM). The increase in
alpha-MSH
binding was independent of adenylate cyclase activation and protein synthesis and appeared to be caused by recruitment of spare receptors. The structural requirements of the peptide for triggering this process differed from those found in receptor-binding analyses. Receptor down-regulation was maximal after 12 h and hence more rapid than up-regulation. In B16-F1 cells, 10 nM
alpha-MSH
caused the disappearance of 85-90% of the MSH receptors, the EC50 of 0.23 nM lying exactly between that for
alpha-MSH
-induced melanogenesis (0.027 nM) and the dissociation constant of receptor binding (1.31 nM). Down-regulation in B16-F1 cells appears to be the consequence of receptor internalization following MSH binding and seems to be initiated during an early step in MSH signalling, preceding the activation of adenylate cyclase and the cAMP signal. Receptor up- and down-regulation were not accompanied by an alteration in affinity to
alpha-MSH
, as demonstrated by Scatchard analysis of the binding curves.
...
PMID:Homologous regulation of the MSH receptor in melanoma cells. 838 55
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.
...
PMID:Stable expression of the human MSH receptor in a mouse melanoma cell line. 890 30
Melanoma cells express receptors for
melanocyte-stimulating hormone (MSH)
in variable abundance. CGP 41251, a derivative of staurosporine with an increased selectivity for protein kinase C (PKC) inhibition, was found to modulate MSH receptors in human D10 and
HBL
cells and in the mouse B16 cell line. Up-regulation was observed in D10 and B16 cells at a concentration of 290 nM and 190 nM, respectively. In
HBL
cells, however, the PKC inhibitor induced a pronounced MSH receptor down-regulation with an EC50 of only 32 nM. In D10 and
HBL
cells,
alpha-MSH
and CGP 41251 synergistically regulated MSH receptors whereas these agents had an antagonistic effect in B16 cells. PKC stimulation by short-term treatment with phorbol ester had an opposite effect on MSH receptors as compared to CGP 41251. In B16 cells, CGP 41251 at a concentration of 100 nM increased the sensitivity to MSH-induced melanogenesis. The staurosporine derivative inhibited proliferation of
HBL
, B16, and D10 cells at EC50s of 180 nM, 190 nM, and 520 nM, respectively. Furthermore, CGP 41251 increased the dendricity of the cells. In a concentration range between 300 nM and 1 mu M, CGP 41251 induced a sharp increase of the mean cell diameter from 16 mu m to 19 mu m. Thus, the effects of the selective PKC inhibitor on MSH receptors are induced at lower concentrations than needed for the inhibition of proliferation or for the change in cell morphology. These results suggest that the number of MSH receptors expressed on the surface of cultured melanoma cells correlates with the level of constitutive PKC activity in individual cell lines.
...
PMID:A selective protein kinase C inhibitor (CGP 41251) positively and negatively modulates melanoma cell MSH receptors. 890 45
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.
...
PMID:alpha-MSH receptor autoradiography on mouse and human melanoma tissue sections and biopsies. 890 55
Melanotropin is a peptide having several functions, including the stimulation of melanogenesis and the modulation of proliferation of melanocytes and melanoma cells. It acts through binding to high-affinity receptors of the melanocortin-1 subtype, exclusively expressed in cells of the melanocytic lineage. Elevated levels of immunoreactive alpha-melanotropin were previously reported in melanoma cell lines, tumours and plasma from patients with melanoma. Here, we show that this high ectopic production of melanotropin is restricted to melanoma and non-pituitary tumours with the same neuroectodermic origin. The occurrence of a melanotropin-specific autocrine loop was further investigated in human melanoma cells. Immunoreactive alpha-melanotropin was spontaneously released from a melanoma cell line (
HBL
) expressing melanotropin receptors on the cell surface. This release was significantly increased in the presence of melanotropin-related peptides such as
corticotropin
-(4-10)-peptide and beta-melanotropin, competing for binding to the melanotropin receptor and was directly correlated to the displacement potential of these peptides. Both spontaneous and induced releases of immunoreactive alpha-melanotropin could be blocked at low temperatures, suggesting the involvement of intracellular protein movement in the release mechanism. The release of immunoreactive alpha-melanotropin was not significant in melanoma cells expressing very low levels of melanotropin receptors (IGR3) or in non-melanoma cells (SCC1). However, upon expression of the melanocortin-1 receptor cDNA into IGR3 cells, spontaneous and competition-induced releases of immunoreactive alpha-melanotropin were both increased and also blocked at low temperatures. This observation further underlines a role for the melanotropin receptor in the release of immunoreactive alpha-melanotropin. These experiments indicate that an autocrine loop between the melanocortin-1 receptor and immunoreactive alpha-melanotropin may be functional in human melanoma cells.
...
PMID:Immunoreactive alpha-melanotropin as an autocrine effector in human melanoma cells. 910 67
We have previously shown that
alpha-melanocyte-stimulating hormone
(
alpha-MSH
) can oppose tumor necrosis factor alpha activation of NF-kappaB (1-2 h) and intercellular adhesion molecule 1 up-regulation (mRNA by 3 h and protein by 24 h) in melanocytes and melanoma cells. The present study reports on the ability of four MSH peptides to control intracellular peroxide levels and glutathione peroxidase (GPx) activity in pigmentary and nonpigmentary cells. In human
HBL
melanoma and HaCaT keratinocytes tumor necrosis factor alpha and H(2)O(2) both activated GPx in a time- and concentration-dependent manner (by 30-45 min).
alpha-MSH
peptides were found to inhibit the stimulated GPx activity and had biphasic dose-response curves. MSH 1-13 and MSH [Nle(4)-d-Phe(7)] achieved maximum inhibition at 10(-10) and 10(-12) m, respectively. Higher concentrations (10-100 fold) of MSH 4-10 and MSH 11-13 were required to produce equivalent levels of inhibition.
alpha-MSH
was also capable of reducing peroxide accumulation within 15 min, and again this inhibition was biphasic. The data support a role of
alpha-MSH
in acute protection of cells to oxidative/cytokine action that precedes NF-kappaB and GPx activation. The rapidity and potency of the response to
alpha-MSH
in pigmentary and nonpigmentary cells suggest this to be a central role of this peptide in cutaneous cells.
...
PMID:Alpha-melanocyte-stimulating hormone reduces impact of proinflammatory cytokine and peroxide-generated oxidative stress on keratinocyte and melanoma cell lines. 1082 44
The invasion of melanoma is complex and multi-staged and involves changes in both cell/extracellular matrix (ECM) and cell/cell interactions. Female steroids and
alpha-MSH
have also been reported to influence metastatic melanoma progression, but their mechanisms of action are unknown. Accordingly, our aim was to establish in vitro models to examine (a) the influence of sex steroids and
alpha-melanocyte-stimulating hormone
(
alpha-MSH
) on tumour invasion and the influence of (b) ECM proteins and (c) adjacent cells on melanoma invasion. In the first model, melanoma cell invasion through fibronectin over 20 hr under serum-free conditions was used to investigate the effects of 17beta-oestradiol and oestrone on the invasion of human melanoma cell lines, A375-SM and
HBL
. A375-SM, but not
HBL
cells, proved very susceptible to inhibition by female steroids. However, invasion of the
HBL
line was inhibited by
alpha-MSH
. Using the second model of reconstructed human skin based on de-epidermised acellular dermis, we found that the
HBL
cells on their own failed to invade into the dermis (irrespective of the presence or absence of the basement membrane). However, there was a significant synergistic interaction between keratinocytes, fibroblasts and
HBL
cells, such that a modest invasion of HBLs into the dermis was seen within 2 weeks when other skin cells were present. In contrast, A375-SM cells showed a significant ability to invade the dermis in the absence of other cells, with less invasion when other skin cells were present. In summary, these models have provided new information on the extent to which melanoma cell invasion is sensitive to oestrogenic steroids and to
alpha-MSH
and to interaction, not only with adjacent skin cells but also to the presence of basement membrane antigens.
...
PMID:Oestrogenic steroids and melanoma cell interaction with adjacent skin cells influence invasion of melanoma cells in vitro. 1104 60
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