Structural Complexity and Plasticity of Signaling Regulation at the Melanocortin-4 Receptor

Kleinau, Gunnar; Heyder, Nicolas A.; Tao, Ya‐Xiong; Scheerer, Patrick

doi:10.3390/ijms21165728

Cited by 15 publications

(12 citation statements)

References 239 publications

(380 reference statements)

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“…This is in agreement with recent insights from a human MC1R/α-MSH complex [25]. In addition, we assume that any variation in this position does not alter the ligand structure itself, as in high-affinity MSH subtypes (e.g., β-MSH) this position is also variable [26] as observed here in α-MSH variants of different species (Figure 2b). These findings and predictions are consistent with the results of our in vivo assay, which demonstrates the biological activity of the tested ligands, albeit with varying degrees of melanosome dispersion; however, we cannot rule out that amino acid variations could cause a slight change in receptor binding (e.g., with the N-terminus not included in determined structures or in the half-life of the synthetic peptides).…”

Section: ( ) =supporting

confidence: 92%

Zebrafish Bioassay for Screening Therapeutic Candidates Based on Melanotrophic Activity

Hong

Hwang

Choi

et al. 2021

IJMS

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In this study, we used the zebrafish animal model to establish a bioassay by which physiological efficacy differential of alpha-melanocyte-stimulating hormone (α-MSH) analogues could be measured by melanosome dispersion in zebrafish larvae. Brain-skin connection research has purported the interconnectedness between the nervous system and skin physiology. Accordingly, the neuropeptide α-MSH is a key regulator in several physiological processes, such as skin pigmentation in fish. In mammals, α-MSH has been found to regulate motivated behavior, appetite, and emotion, including stimulation of satiety and anxiety. Several clinical and animal model studies of autism spectrum disorder (ASD) have already demonstrated the effectiveness of α-MSH in restoring the social deficits of autism. Therefore, we sought to analyze the effect of synthetic and naturally-occurring α-MSH variants amongst different species. Our results showed that unique α-MSH derivatives from several fish species produced differential effects on the degree of melanophore dispersion. Using α-MSH human form as a standard, we could identify derivatives that induced greater physiological effects; particularly, the synthetic analogue melanotan-II (MT-II) exhibited a higher capacity for melanophore dispersion than human α-MSH. This was consistent with previous findings in an ASD mouse model demonstrating the effectiveness of MT-II in improving ASD behavioral symptoms. Thus, the melanophore assay may serve as a useful screening tool for therapeutic candidates for novel drug discovery.

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confidence: 92%

Zebrafish Bioassay for Screening Therapeutic Candidates Based on Melanotrophic Activity

Hong

Hwang

Choi

et al. 2021

IJMS

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“…In mammals and birds, this signaling system consists of MC4R (a G protein-coupled receptor), MC4R ligands [α-melanocyte-stimulating hormone (α-MSH); adrenocorticotropin (ACTH), and agouti-related peptide (AgRP)], and melanocortin receptor 2 accessary protein 2 (MRAP2) [ 2 , 5 ]. α-MSH and ACTH are derived from the proopiomelanocortin (POMC) precursor and can activate MC4R and increase intracellular cAMP levels, while AgRP can act either as an antagonist to block α-MSH/ACTH action on MC4R, or as an inverse agonist to decrease the basal constitutive activity of MC4R in the absence of α-MSH/ACTH [ 1 , 7 , 8 ]. MRAP2 is a single-pass transmembrane protein and can form an antiparallel homodimer [ 9 ].…”

Section: Introductionmentioning

confidence: 99%

Melanocortin Receptor 4 (MC4R) Signaling System in Nile Tilapia

Liu

Deng

Zhang

et al. 2020

IJMS

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The melanocortin receptor 4 (MC4R) signaling system consists of MC4R, MC4R ligands [melanocyte-stimulating hormone (MSH), adrenocorticotropin (ACTH), agouti-related protein (AgRP)], and melanocortin-2 receptor accessory protein 2 (MRAP2), and it has been proposed to play important roles in feeding and growth in vertebrates. However, the expression and functionality of this system have not been fully characterized in teleosts. Here, we cloned tilapia MC4R, MRAP2b, AgRPs (AgRP, AgRP2), and POMCs (POMCa1, POMCb) genes and characterized the interaction of tilapia MC4R with MRAP2b, AgRP, α-MSH, and ACTH in vitro. The results indicate the following. (1) Tilapia MC4R, MRAP2b, AgRPs, and POMCs share high amino acid identity with their mammalian counterparts. (2) Tilapia MRAP2b could interact with MC4R expressed in CHO cells, as demonstrated by Co-IP assay, and thus decrease MC4R constitutive activity and enhance its sensitivity to ACTH1-40. (3) As in mammals, AgRP can function as an inverse agonist and antagonist of MC4R, either in the presence or absence of MRAP2b. These data, together with the co-expression of MC4R, MRAP2b, AgRPs, and POMCs in tilapia hypothalamus, suggest that as in mammals, ACTH/α-MSH, AgRP, and MRAP2 can interact with MC4R to control energy balance and thus play conserved roles in the feeding and growth of teleosts.

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“…In a dimeric state, only one G protein molecule can access the receptor dimer, due to steric reasons (stoichiometry 2:1). A monomerized receptor is able to couple one G protein molecule to each receptor (stoichiometry 2:2); this might cause higher signaling capacities due to doubled G protein activation [ 42 ]. This mechanism is important when wanting to discuss possibilities for therapeutical interventions.…”

Section: Discussionmentioning

confidence: 99%

A Setmelanotide-like Effect at MC4R Is Achieved by MC4R Dimer Separation

et al. 2022

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Melanocortin 4 receptor (MC4R) is part of the leptin-melanocortin pathway and plays an essential role in mediating energy homeostasis. Mutations in the MC4R are the most frequent monogenic cause for obesity. Due to increasing numbers of people with excess body weight, the MC4R has become a target of interest in the search of treatment options. We have previously reported that the MC4R forms homodimers, affecting receptor Gs signaling properties. Recent studies introducing setmelanotide, a novel synthetic MC4R agonist, suggest a predominant role of the Gq/11 pathway regarding weight regulation. In this study, we analyzed effects of inhibiting homodimerization on Gq/11 signaling using previously reported MC4R/CB1R chimeras. NanoBRETTM studies to determine protein–protein interaction were conducted, confirming decreased homodimerization capacities of chimeric receptors in HEK293 cells. Gq/11 signaling of chimeric receptors was analyzed using luciferase-based reporter gene (NFAT) assays. Results demonstrate an improvement of alpha-MSH-induced NFAT signaling of chimeras, reaching the level of setmelanotide signaling at wild-type MC4R (MC4R-WT). In summary, our study shows that inhibiting homodimerization has a setmelanotide-like effect on Gq/11 signaling, with chimeric receptors presenting increased potency compared to MC4R-WT. These findings indicate the potential of inhibiting MC4R homodimerization as a therapeutic target to treat obesity.

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Structural Complexity and Plasticity of Signaling Regulation at the Melanocortin-4 Receptor

Cited by 15 publications

References 239 publications

Zebrafish Bioassay for Screening Therapeutic Candidates Based on Melanotrophic Activity

Zebrafish Bioassay for Screening Therapeutic Candidates Based on Melanotrophic Activity

Melanocortin Receptor 4 (MC4R) Signaling System in Nile Tilapia

A Setmelanotide-like Effect at MC4R Is Achieved by MC4R Dimer Separation

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