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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
We have cloned melanocortin receptors (MCRs) from several species of fish. The
MC4R
and MC5R subtypes arose early in vertebrate evolution and their primary structure is remarkably conserved. Expression and pharmacological characterization of the MCRs in fish has revealed that they bind and respond to melanocortin peptides with high potency. Detailed characterization of the binding properties of the different subtypes suggests that MCRs in early vertebrates had preference for
adrenocorticotropic hormone (ACTH)
peptides, while the high sensitivity for the shorter proopiomelanocortin (POMC) products, such as the alpha-, beta-, and gamma-
melanocyte-stimulating hormone (MSH)
, has appeared later, perhaps as the MCR subtypes gained more specialized functions. The MCR repertoire shows in general high similarities in their primary structures, while they are however not similar in terms of functional roles. The MCRs serve therefore as an interesting model family to understand the molecular mechanisms of how functions of the genes can diverge during evolution. In this review, we provide an overview of our recent studies on the cloning, expression, pharmacology, 3D modeling, and genomic studies of the MCRs in non-mammalian species.
...
PMID:Evolutionary conservation of the structural, pharmacological, and genomic characteristics of the melanocortin receptor subtypes. 1598 10
Human
beta-MSH
(1-22) was first isolated from human pituitary as a 22-amino acid (aa) peptide derived from a precursor protein,
pro-opiomelanocortin (POMC)
. However, Bertagna et al. demonstrated that a shorter human
beta-MSH
(5-22), (DEGPYRMEHFRWGSPPKD), is a true endogenous peptide produced in human hypothalamus. In this report, we demonstrated that in vitro enzymatic cleavage of native human
beta-MSH
(5-22) with two ubiquitous dipeptidyl peptidases (DPP), DPP-I and DPP-IV, generated two potent MC3/4R peptide analogues,
beta-MSH
(7-22) (GPYRMEHFRWGSPPKD) and
beta-MSH
(9-22) (YRMEHFRWGSPPKD). In fact, the
MC4R
binding affinity and functional potency of
beta-MSH
(7-22) (Ki=4.6 nM, EC50=0.6 nM) and
beta-MSH
(9-22) (Ki=5.7 nM, EC50=0.6 nM) are almost an order of magnitude greater than those of their parent peptide,
beta-MSH
(5-22) (
MC4R
, Ki=23 nM, EC50= 3nM). Furthermore, the DPP-I/DPP-IV cleaved peptide,
beta-MSH
(9-22), when administered intracerebroventricularly (ICV) at a dose of 3 nmol/rat, potently induced an acute negative energy balance in a diet-induced obese rat model, while its parent molecule,
beta-MSH
(5-22), administered at the same dose did not have any effect. These data suggest that DPP-I and DPP-IV may play a role in converting the endogenous
beta-MSH
(5-22) to more potent peptides that regulate energy homeostasis in the hypothalamus.
...
PMID:Potent peptide agonists for human melanocortin 3 and 4 receptors derived from enzymatic cleavages of human beta-MSH(5-22) by dipeptidyl peptidase I and dipeptidyl peptidase IV. 1598 11
The specific melanocortin receptors, MC3R and
MC4R
, are directly linked to metabolism and body weight control. These receptors are activated by the peptide hormone
alpha-MSH
and antagonized by the agouti-related protein (AGRP). Whereas
alpha-MSH
acts broadly on most members of the MCR family (with the exception of MC2R), AGRP is highly specific for only MC3R and
MC4R
. AGRP is a complex ligand of approximately 100 amino acids. Within AGRP, MCR recognition and antagonism is localized to a 34 residue, cysteine-rich domain that adopts an inhibitor cystine knot (ICK) fold. An oxidatively folded peptide corresponding to this domain, referred to as mini-AGRP, exhibits full antagonist function and selectivity for MC3R and
MC4R
. Here we investigate a series of chimera proteins based on the mini-AGRP scaffold. Amino acid sequences derived from peptide agonists are grafted into the mini-AGRP active loop, implicated in receptor recognition, with the goal of producing ICK based agonists specific for MC3R and
MC4R
. Several constructs indeed exhibited potent agonist activity; however, with all chimeras, receptor selectivity is significantly altered. Pharmacologic data indicate that the chimeras do not interact with MC receptors through native AGRP like contacts. A model to explain the data suggest that there is only partial overlap of the agonist versus antagonist binding surfaces within MC receptors. Moreover, accessibility to the binding pocket is highly receptor specific with MC3R being the least tolerant of ligand alterations.
...
PMID:Chimeras of the agouti-related protein: insights into agonist and antagonist selectivity of melanocortin receptors. 1600 63
The melanocortins, a family of peptides produced from the post-translational processing of
pro-opiomelanocortin (POMC)
, regulate ingestive behavior and energy expenditure. Loss of function mutations of genes encoding POMC, or of either of two melanocortin receptors expressed in the central nervous system (MC3R,
MC4R
), are associated with obesity. The analyses of
MC4R
knockout mice indicate that activation of this receptor is involved in the regulation of appetite, the adaptive metabolic response to excess caloric consumption, and negative energy balance associated with cachexia induced by cytokines. In contrast, MC3R knockout mice exhibit a normal, or even exaggerated, response to signals that induce a state of negative energy balance. However, loss of the MC3R also results in an increase in adiposity. This article discusses the regulation of energy balance by the melanocortins. Published and newly presented data from studies analyzing of energy balance of MC3R and
MC4R
knockout mice indicate that increased adiposity observed in both models involves an imbalance in fat intake and oxidation.
...
PMID:The melanocortin system and energy balance. 1643 23
The melanocortin 4 receptor is involved in the control of the feeding behavior and energy homeostasis. It is regulated by internal agonist (
alpha-MSH
) and antagonists (Agouti). Peptide agonists bind in a beta-turn conformation that organizes the characteristic message sequence (His-L/DPhe-Arg-Trp) in an optimal arrangement for binding and activation of the receptor. Our goal is to determine the most likely binding modes of peptide and small molecule agonists to use this information to guide our structure-based drug design efforts. Previous studies have identified some residues that are likely to be involved in peptide agonist binding, giving an initial estimate of the main contacts between peptides and receptor. However, a more detailed description of the orientation of the peptide in a beta-turn conformation in the binding site, as well as of the small molecule agonists, and it is commonalities with the peptide agonist binding modes is necessary to serve as the basis for structure-based drug design. In the current study we combine site-directed mutagenesis with molecular modeling studies to determine the most likely binding mode of peptide and small molecule agonists, and we found that Y6.58(268), Y7.38(287), I3.28(125), I3.32(129), and I7.42(291) also line the binding site and are likely to have direct contacts with the
MC4R
agonists. Of particular interest are residues I3.28(125), I3.32(129), and I7.42(291), which form a hydrophobic pocket where I7.42(291), on top of the NPXXY motif, is likely to act as a new rotamer switch implicated in the activation of the receptor.
...
PMID:Mapping the binding site of melanocortin 4 receptor agonists: a hydrophobic pocket formed by I3.28(125), I3.32(129), and I7.42(291) is critical for receptor activation. 1645 Oct 57
Functional disruption of either MC3R or
MC4R
results in obesity, implicating both in the control of energy homeostasis. The ligands for these receptors are derived from the prohormone proopiomelancortin (POMC), which is posttranslationally processed to produce a set of melanocortin peptides with a range of activities at the MC3R and
MC4R
. The relative importance of each of these peptides
alpha-MSH
, gamma3-MSH, gamma2-MSH, gamma-lipotropin (
gamma-LPH
) and, in man but not in rodents,
beta-MSH
] in the maintenance of energy homeostasis is, as yet, unclear. To investigate this further, equimolar amounts (2 nmol) of each peptide were centrally administered to freely feeding, corticosterone-supplemented, Pomc null (Pomc-/-) mice. After a single dose at the onset of the dark cycle,
alpha-MSH
had the most potent anorexigenic effect, reducing food intake to 35% of sham-treated animals.
beta-MSH
,
gamma-LPH
, and gamma3- and gamma2-MSH all reduced food intake but to a lesser degree. The effects of peptide administration over 3 d were also assessed. Only
alpha-MSH
significantly reduced body weight, affecting both fat and lean mass. Other peptides had no significant effect on body weight. Pair-feeding of sham-treated mice to those treated with
alpha-MSH
resulted in identical changes in total weight, fat and lean mass indicating that the effects of
alpha-MSH
were primarily due to reduced food intake rather than increased energy expenditure. Although other melanocortins can reduce food intake in the short-term, only
alpha-MSH
can reduce the excess fat and lean mass found in Pomc-/- mice, mediated largely through an effect on food intake.
...
PMID:A comparative study of the central effects of specific proopiomelancortin (POMC)-derived melanocortin peptides on food intake and body weight in pomc null mice. 1695 30
Two melanocortin receptors (MC1 and MC3R) have been identified as main transducers of the anti-inflammatory effects of natural and synthetic melanocortins. In this study, we have taken advantage of the recent description of the selective MC3R agonist [d-Trp(8)]-gamma-
melanocyte-stimulating hormone (MSH)
and of the recessive yellow (e/e) mouse, bearing a nonfunctional MC1R, thereby incrementing our knowledge on this topic. Culturing peritoneal macrophages of recessive yellow (e/e) mice with [d-Trp(8)]-
gamma-MSH
led to accumulation of cAMP, indicating MC3R receptor functionality: this effect was blocked by a neutralizing antibody against MC3R. Likewise, release of the chemokine KC by urate crystals was attenuated by [d-Trp(8)]-
gamma-MSH
, and this effect was prevented by synthetic [Ac-Nle(4)-c[Asp(5)-2'-Nal(7),Lys(10)]
alpha-MSH
(4-10)-NH(2) (SHU9119)] and natural [agouti-related protein (AGRP)] MC3R antagonists but not by the
MC4R
antagonist Ac-Cys-Nle-Arg-His-d-2-Nal-Arg-Trp-Cys-NH(2) (HS024). Systemic treatment of mice with [d-Trp(8)]-
gamma-MSH
inhibited KC release and polymorphonuclear cell accumulation elicited by urate crystals in the murine peritoneal cavity. SHU9119 and AGRP prevented the inhibitory actions of [d-Trp(8)]-
gamma-MSH
, whereas HS024 was inactive. We also demonstrate here that [d-Trp(8)]-
gamma-MSH
displays a dual mechanism of action by inducing the anti-inflammatory protein heme-oxygenase 1 (HO-1). Treatment with the HO-1 inhibitor zinc protoporphyrin IX exacerbated the inflammatory response elicited by urate crystals and abrogated the anti-inflammatory effects of [d-Trp(8)]-
gamma-MSH
. In conclusion, these data support the development of the selective MC3R agonist [d-Trp(8)]-
gamma-MSH
for the treatment of inflammatory pathologies, based on a dual mechanism of cytokine/chemokine inhibition and induction of the anti-inflammatory protein HO-1.
...
PMID:[D-Trp8]-gamma-melanocyte-stimulating hormone exhibits anti-inflammatory efficacy in mice bearing a nonfunctional MC1R (recessive yellow e/e mouse). 1695 42
To study the peripheral effects of melanocortin on fuel homeostasis in skeletal muscle, we assessed palmitate oxidation and AMP kinase activity in
alpha-melanocyte-stimulating hormone
(
alpha-MSH
)-treated muscle cells. After
alpha-MSH
treatment, carnitine palmitoyltransferase-1 and fatty acid oxidation (FAO) increased in a dose-dependent manner. A strong melanocortin agonist, NDP-MSH, also stimulated FAO in primary culture muscle cells and C2C12 cells. However, [Glu6]
alpha-MSH
-ND, which has ample
MC4R
and MC3R agonistic activity, stimulated FAO only at high concentrations (10(-5) M). JKC-363, a selective
MC4R
antagonist, did not suppress
alpha-MSH
-induced FAO. Meanwhile, SHU9119, which has both antagonistic activity on MC3R and
MC4R
and agonistic activity on both MC1R and MC5R, increased the effect of
alpha-MSH
on FAO in both C2C12 and primary muscle cells. Small interference RNA against MC5R suppressed the
alpha-MSH
-induced FAO effectively. cAMP analogues mimicked the effect of
alpha-MSH
on FAO, and the effects of both
alpha-MSH
and cAMP analogue-mediated FAO were antagonized by a protein kinase A inhibitor (H89) and a cAMP antagonist ((Rp)-cAMP). Acetyl-CoA carboxylase activity was suppressed by
alpha-MSH
and cAMP analogues by phosphorylation through AMP-activated protein kinase activation in C2C12 cells. Taken together, these results suggest that
alpha-MSH
increases FAO in skeletal muscle, in which MC5R may play a major role. Furthermore, these results suggest that
alpha-MSH
-induced FAO involves cAMP-protein kinase A-mediated AMP-activated protein kinase activation.
...
PMID:Peripheral effect of alpha-melanocyte-stimulating hormone on fatty acid oxidation in skeletal muscle. 1712 74
Despite high leptin levels, most obese humans and rodents lack responsiveness to its appetite-suppressing effects. We demonstrate that leptin modulates NPY/AgRP and
alpha-MSH
secretion from the ARH of lean mice. High-fat diet-induced obese (DIO) mice have normal ObRb levels and increased SOCS-3 levels, but leptin fails to modulate peptide secretion and any element of the leptin signaling cascade. Despite this leptin resistance, the melanocortin system downstream of the ARH in DIO mice is over-responsive to melanocortin agonists, probably due to upregulation of
MC4R
. Lastly, we show that by decreasing the fat content of the mouse's diet, leptin responsiveness of NPY/AgRP and POMC neurons recovered simultaneously, with mice regaining normal leptin sensitivity and glycemic control. These results highlight the physiological importance of leptin sensing in the melanocortin circuits and show that their loss of leptin sensing likely contributes to the pathology of leptin resistance.
...
PMID:Diet-induced obesity causes severe but reversible leptin resistance in arcuate melanocortin neurons. 1733 26
Melanocortins play a central role in autonomic modulation of metabolism by acting through a family of highly homologous G protein-coupled receptors. Studies with gene knockout mice have implicated neural melanocortin receptors, MC3R and
MC4R
, in the etiology of obesity, insulin resistance, and salt-sensitive hypertension. In an attempt to better understand the mechanisms of function of these receptors, we expressed MC3R and
MC4R
in neuronal cells and demonstrated their co-localization to several membrane regions. We now show that in cultured neuronal cells, MC3R localizes to lipid rafts and undergoes endocytic internalization upon activation by
gamma-MSH
through a protein kinase-sensitive pathway. The appearance of the internalized receptor in lysosomes suggests that it is subsequently degraded. The expression of protein kinase A regulatory subunits and of c-Jun and c-Fos was analyzed by either immunoblotting or real-time PCR. No discernable changes were observed in the expression levels of these protein kinase A and protein kinase C responsive genes. Immunohistochemical studies showed a robust expression of MC3R protein in brain nuclei with relevance to cardiovascular function and fluid homeostasis further supporting the notion that the physiological effects of melanocortins on the cardiovascular system arise from effects on the central nervous system.
...
PMID:Activation and endocytic internalization of melanocortin 3 receptor in neuronal cells. 1740 38
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