Ana Maria de L. Castrucci

Synthesis and biological actions of melanin concentrating hormone

A melanin (melanosome) concentrating hormone, MCH, was synthesized and the methodology for its synthesis is detailed. This heptadecapeptide, H-Asp-Thr-Met-Arg-Cys-Met-Val-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Glu-Val-OH , stimulated melanosome concentration (centripetal aggregation) within melanophores of all species of teleost fishes studied. Melanosome aggregation in response to MCH was not blocked by Dibenamine as was the response to norepinephrine (NE), demonstrating that melanosome aggregating responses to MCH and NE are mediated through separate receptors. Melanosome aggregation in response to MCH was reversed by an equimolar concentration of alpha-melanocyte stimulating hormone (alpha-MSH). In contrast, MCH stimulated melanosome dispersion (centrifugal movement) within melanophores of a frog (Rana pipiens) and a lizard (Anolis carolinensis). Therefore, MCH exhibits both melanosome concentrating and dispersing actions depending upon the species studied.

Stimulation of S91 melanoma tyrosinase activity by superpotent α-melanotropins

Abstract α-Melanocyte-stimulating hormone (α-MSH, α-melanotropin), [Nle4,D-Phe7]-α-MSH and related fragment analogues, Ac-[Nle4,D-Phe7]-α-MSH4–11-NH2 and Ac-[Nle4,D-Phe7]-α-MSH4–10-NH2, were studied for their ability to stimulate tyrosinase activity in Cloudman S91 mouse melanoma cells in tissue culture. All of the melanotropins stimulated tyrosinase activity in a dose-dependent manner. [Nle4,D-Phe7]-α-MSH was about 100 times more active than a-MSH as determined from the minimal effective dose (MED) required to activate the enzyme above control (basal) levels. The MED of this analogue to significantly stimulate tyrosinase activity at 24, 48 and 72 h of incubation was 10−11 M whereas the MED of α-MSH was 10−9 M at each of these times. The maximum tyrosinase activity achieved from the time of initial incubation in the presence of [Nle4,D-Phe7]-α-MSH was approximately 3-, 5- and 6-fold greater than control levels at 24, 48 and 72 h, respectively. The 2 [Nle4,D-Phe7]-substituted fragment analogues were at least as active as the tridecapeptide analogue and therefore at least 100-fold more active than a-MSH in stimulating enzyme activity. These [Nle4,D-Phe7]-substituted analogues were more active in the melanoma tyrosinase assay than in the melanoma adenylate cyclase assay or other normal melanocyte (frog and lizard skin) bioassays.

α-Melanocyte stimulating hormone message and inhibitory sequences: Comparative structure-activity studies on melanocytes

We investigated the structure-activity relationships of alpha-MSH (alpha-melanocyte stimulating hormone) fragment derivatives of the generic formulae Ac-alpha-MSH(x-13)-NH2 and Ac-alpha-MSH(6-x)-NH2. The minimal C-terminal sequences required for melanotropic activity were 8-13 and 7-13, respectively, in the frog and lizard skin bioassays. The Arg8-Trp9 sequence appears to be a fundamental component of the minimal message sequences found to date such as alpha-MSH(6-9), alpha-MSH(8-13) and alpha-MSH(7-13). We discovered that Ac-alpha-MSH(7-10)-NH2 was a weak and selective alpha-MSH antagonist on the lizard skin bioassay. Analysis of alpha-MSH(7-10) analogues of the generic formula Ac-Xaa-Arg-Trp-Yaa-NH2 led to Ac-[D-Trp7,D-Phe10]alpha-MSH(7-10)-NH2, a moderately potent, specific and competitive inhibitor of alpha-MSH in both the frog and the lizard skin bioassays.

I. Melanin concentrating hormone exhibits both MSH and MCH activities on individual melanophores

Asp-Thr-Met-Arg-Cys-Met-Val-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Glu-Val (melanin concentrating hormone, MCH) and several fragment analogs (MCH1-14, MCH5-17, MCH5-14) were synthesized and their biological activities determined in a very sensitive fish skin bioassay. The potency ranking and minimum effective doses of the peptides were determined to be: MCH1-17 (10(-12)M) greater than less than MCH5-17 (10(-12)M) greater than MCH1-14 (10(-11)M) greater than MCH5-14 (2 X 10(-10)M). The melanosome aggregating activity of MCH could be completely reversed by a 100-fold higher concentration of pounds-MSH. MCH was self-antagonized in a dose-related manner by higher concentrations of the peptide as was the activity of the MCH1-14 fragment analog. The MCH activities of the MCH5-17 and MCH5-14 analogs were not compromised by even the highest concentrations of the peptides employed. The MSH-like activity of MCH appears to relate to the N-terminus of the peptide whereas MCH activity is more a function of the C-terminus of the hormone. Self-antagonism of MCH at high concentrations appears to relate to the N-terminal tetrapeptide, which is responsible for the intrinsic MSH-like activity of the hormone.

[Nle4, D-Phe7]-α-MSH: A superpotent melanotropin with prolonged action on vertebrate chromatophores

The in vitro and in vivo responses of integumental chromatophores to alpha-MSH and a related analogue, [Nle4, D-Phe7] -alpha-MSH, were studied in a number of vertebrate species: the teleost, Lebistes reticulatus; the amphibians, Rana pipiens, R. catesbeiana, Xenopus laevis, Bufo alvarius, and B. cognatus; the lizard, Anolis carolinensis; the rattlesnake, Crotalus atrox. The alpha-melanotropin analogue was a superpotent agonist in the in vitro frog (R. pipiens, R. catesbeiana) and lizard (A. carolinensis) skin bioassays. In all species studied, the analogue exhibited ultraprolonged melanotropic activity, both in vitro and in vivo. This melanotropin and related analogues should prove useful in the study of numerous physiological processes, particularly when prolonged melanotropic activity is desired.

Melanin concentrating hormone (MCH): Synthesis and bioactivity studies of MCH fragment analogues

Nineteen analogues of melanin concentrating hormone (MCH) were synthesized and tested for their skin-lightening activities in the in vitro eel skin (Synbranchus marmoratus) bioassay. All the analogues synthesized were fragments of the native sequence: Asp-Thr-Met-Arg-Cys-Met-Val-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Glu-Val with sequential elimination of substituents from both the carboxy- and amino-termini. All the analogues that contained tryptophan in position 15 were found to be full agonists and equipotent to MCH. In the absence of Trp15, full agonist activity was maintained but potency was reduced ten-fold or more. The minimal fragment analogue possessing equipotency to the parent peptide, MCH, was the MCH(5-15) sequence. These observations coupled with results from work reported previously by our laboratories suggest the importance of the Trp15 residue for interaction with the MCH receptor in this assay system.

Melanin concentrating hormone analogues: contraction of the cyclic structure. II: Antagonist activity

Asp-Thr-Met-Arg-Cys-Met-Val-Gly-Arg-Val-Tyr-Arg-Pro-Cys-Trp-Glu-Val, melanin concentrating hormone (MCH), is a cyclic hormone possessing both MCH-like (melanin granule aggregating effect) and melanocyte stimulating hormone (MSH)-like (melanin granule dispersing effect) activities. Nine ring-contracted analogues were synthesized and characterized for their melanotropic activity on the fish (Synbranchus marmoratus) and frog (Rana pipiens) bioassays. In most cases, these analogues were totally devoid of MCH-like agonist activity, demonstrating the essential role of the disulfide bridge between residues 5 and 14 of the hormone. [Ala5, Cys10]MCH, for example, was totally devoid of MCH-like activity. This analogue, like alpha-MSH, however, antagonized the melanosome aggregating actions of MCH on fish melanocytes. The antagonistic activity of the analogue, like that of alpha-MSH, was Ca2+-dependent. Evidence suggested that this antagonism of MCH activity was related to the intrinsic MSH-like activity of the analogue. These results suggest that MCH and alpha-MSH may be structurally and, therefore, evolutionarily related.

Relative stability of α-melanotropin and related analogues to rat brain homogenates

Abstract α-Melanotropin (α-MSH) retains less than 1% of its original activity after a 60 min incubation with 10% rat brain homogenate. [Nle 4 , D -Phe 7 ]- α -MSH is nonbiodegradable in rat serum (240 min incubation) and still maintains 10% of its original activity in 10% rat brain homogenate (240 min incubation). The related fragment analogue, Ac-[Nle 4 , D-Phe 7 ]- α -MSH 4–10 -NH 2 , retains 50% of its activity after a 240 min incubation in rat brain homogenate, whereas Ac-[Nle 4 , D-Phe 7 ]- α -MSH 4–11 -NH 2 is totally resistant to inactivation by rat brain homogenate. Both [Nle 4 , D -Phe 7 ]-fragments are resistant to degradation by rat serum, but [Nle 4 ]-α-MSH, Ac-[Nle 4 ]-α-MSH 4–10 -NH 2 and Ac-[Nle 4 ]-α-MSH 4–11 -NH 2 are rapidly inactivated under both conditions. The cyclic melanotropin, [ Cys 4 ,Cys 10 ]-α-MSH, is inactivated in rat brain homogenate as is the shorter Ac-[ Cys 4 ,Cys 10 ]-α-MSH 4–10 -NH 2 analogue, but neither cyclic melanotropin is inactivated upon incubation in serum from rats. Ac-[ Cys 4 ,D- Phe 7 ,Cys 10 ]-α-MSH 4–10 -NH 2 is resistant to inactivation by either rat serum or a brain homogenate. Some of these melanotropin analogues may provide useful probes for the localization and characterization of putative melanotropin receptors in both the central nervous system and peripheral tissues.