A comparative analysis of MC4R gene sequence, polymorphism, and chromosomal localization in Chinese raccoon dog and Arctic fox

Numerous mutations of the human melanocortin receptor type 4 (MC4R) gene are responsible for monogenic obesity, and some of them appear to be associated with predisposition or resistance to polygenic obesity. Thus, this gene is considered a functional candidate for fat tissue accumulation and body weight in domestic mammals. The aim of the study was comparative analysis of chromosome localization, nucleotide sequence, and polymorphism of the MC4R gene in two farmed species of the Canidae family, namely the Chinese raccoon dog (Nycterutes procyonoides procyonoides) and the arctic fox (Alopex lagopus). The whole coding sequence, including fragments of 3'UTR and 5'UTR, shows 89% similarity between the arctic fox (1276 bp) and Chinese raccoon dog (1213 bp). Altogether, 30 farmed Chinese raccoon dogs and 30 farmed arctic foxes were searched for polymorphisms. In the Chinese raccoon dog, only one silent substitution in the coding sequence was identified; whereas in the arctic fox, four InDels and two single-nucleotide polymorphisms (SNPs) in the 5'UTR and six silent SNPs in the exon were found. The studied gene was mapped by FISH to the Chinese raccoon dog chromosome 9 (NPP9q1.2) and arctic fox chromosome 24 (ALA24q1.2-1.3). The obtained results are discussed in terms of genome evolution of species belonging to the family Canidae and their potential use in animal breeding.     

A missense variant of the porcine melanocortin-4 receptor (MC4R) gene is associated with fatness, growth, and feed intake traits

Our knowledge of the genetic factors affecting obesity is increasing, but information about the individual gene effects remains limited in humans as well as in animal models. The melanocortin-4 receptor gene (MC4R) has been implicated in the regulation of feeding behavior and body weight in humans and mice. We have studied MC4R as a candidate gene for the control of economically important growth and performance traits in the pig. A missense mutation was identified in a region highly conserved among melanocortin receptor (MCR) genes. To determine whether there was an association of this MC4R polymorphism with phenotypic variation, we tested the mutation in a large number of individual animals from several different pig lines. Analyses of growth and performance test records showed significant associations of MC4R genotypes with backfat and growth rate in a number of lines as well as feed intake overall. It is probable that the variant amino acid residue of the MC4R mutation (or a closely linked mutation) causes a significant change of the MC4R function. These results support the functional significance of a pig MC4R missense mutation and suggest that comparative genomics based on model species may be equally important for application to farm animals as they are for human medicine. Received: 21 June 1999 / Accepted: 9 September 1999     

Evolution of the melanocortin-1 receptor (MC1R) in Boobies and Gannets (Aves, Suliformes)

The melanocortin-1 receptor (MC1R) has been linked to intraspecific variation of melanin-based plumage color in several unrelated bird species. However, its involvement in interspecific variation has far less evidence. The Sulidae is a family in the Suliformes composed of 10 species of pelagic seabirds, distributed in 3 genera. There is significant variation in the amount and distribution of melanin pigments among species in the family Sulidae, and 2 species, the brown booby (Sula leucogaster) and the red-footed booby (S. sula), present plumage polymorphisms, with the latter being considered one of the most plumage polymorphic birds. We performed a survey of the MC1R evolution in 68 individuals representing all 9 species in the Sulidae, except the Abbott's booby, to determine the role played by this locus in explaining the melanic variation observed in the Sulidae. We found the amino acid substitution R112H to be in full concordance with the plumage color observed in the brown booby, which shows a unique phaeomelanin-dominant coloration. Furthermore, all amino acid residues known to be important for function at the MC1R were completely conserved in the Sulidae, except for the previously described V85M and H207R substitutions among the 2 red-footed booby's color morphs. A total of 14 substitutions were inferred from estimated ancestral nodes throughout the Sulidae phylogeny. Finally, we found evidence that the MC1R is under strong purifying selection in all Sulid species. This study provides additional evidence of the potential involvement of the MC1R in melanin-based plumage variation at the interspecific level.     

An effect of a missense mutation in the porcine melanocortin-4 receptor (MC4R) gene on production traits in Polish pig breeds is doubtful

A missense G-A SNP in the porcine melanocortin-4 receptor (MC4R) gene that causes an Asp-Asn substitution at position 298 of the corresponding MC4R protein is considered to be economically important, although published results on its effect are inconsistent. We analysed the association of this MC4R polymorphism with production traits in 679 gilts from two breeds, Polish Large White (PLW) and Polish Landrace (PL), as well as one synthetic line 990. The frequency of the A allele differed significantly among the breeds with frequencies of 0.76, 0.29 and 0.16 in PLW, PL and line 990 respectively. There was no evidence of an effect of this polymorphism on daily food intake, backfat thickness or abdominal fat. The A allele was correlated with higher test daily gains and lower levels of intramuscular fat in PL, and increased levels of intramuscular fat in PLW.     

Polymorphism Val103Ile of the melanocortin-4 receptor gene in the Serbian population

The melanocortin-4 receptor (MC4R) plays an important role in weight and energy homeostasis and it is associated with lower risk to develop obesity and lower body mass index. The contribution of MC4R mutation to obesity in Vojvodina (Northern Province of Serbia), known as a region with the largest number of overweight people, has not been previously investigated. The objective of this study was to examine the Val103Ile polymorphism of MC4R in a population of Vojvodina and its association with obesity. The study was carried out in a group of 96 persons: 62 obese and 34 normal weight men and women. Anthropometric measurements and cardiovascular risk factors assessment were done. The genotypes were determined by PCR-RFLP. In our on going study, three subjects were heterozygous for Val103Ile mutation (3.12%), and one was homozygous for 103Ile allele (1.04%). Among obese patients no isoleucine allele homozygous was found. The frequencies of the 103Ile allele in a group of obese and normal weight persons were found to be 1.61 and 4.41%, respectively. Val103Ile polymorphism of melanocortin-4 receptor is unlikely to be a major cause of overweight and obesity in Vojvodina, but further studies on larger groups of patients are needed.     

The Asp298Asn polymorphism of melanocortin-4 receptor (MC4R) in pigs: evidence for its potential effects on MC4R constitutive activity and cell surface expression

In humans and mice, melanocortin receptor 4 (MC4R) and melanocortin receptor accessory protein 2 (MRAP2) can form a complex and control energy balance, thus regulating body weight and obesity. In pigs, a missense variant (p.Asp298Asn) of MC4R has been suggested to be associated with growth and fatness; however, the effect of Asp298Asn substitution on MC4R function is controversial, limiting its application in animal breeding. Here we examined the effect of this polymorphism on MC4R constitutive activity, cell surface expression and signaling, and its interaction with MRAP2 in pigs. We found that: (i) both pig MC4R^Asp and MC4R^Asn can be activated by its ligands (α-MSH and ACTH) and stimulate cAMP/PKA signaling pathway, as detected by pGL3–CRE–luciferase reporter assay, indicating that, like pMC4R^Asp, pMC4R^Asn is coupled to the cAMP/PKA signaling pathway; (ii) compared with pMC4R^Asp, pMC4R^Asn loses the basal constitutive activity and shows a decreased surface expression, as detected by dual-luciferase reporter assay and Nano-HiBiT system; (iii) as in other vertebrates, both pMC4R^Asp and pMC4R^Asn can interact with pMRAP2, thus decreasing receptor surface expression and enhancing ligand sensitivity, although, in contrast to pMC4R^Asp, the basal constitutive activity of pMC4R^Asn cannot be affected by pMRAP2; and (iv) RNA-seq data analysis revealed a co-expression of MC4R and MRAP2 in pig hypothalamus. Taken together, our data provide convincing evidence that Asp298Asn substitution decreases the constitutive activity and cell surface expression of MC4R or MC4R–MRAP2 complex, which may affect energy balance and be a valuable selection marker for breeding programs in pigs.     

A melanocortin-4 receptor (MC4R) polymorphism is associated with performance traits in divergently selected Large White pig populations

The melanocortin-4 receptor (MC4R) has a vital role in the control of energy balance and the genetic basis of obesity. A polymorphism, which results in the replacement of aspartic acid with asparagine at position 298 of the porcine MC4R gene, within the seventh transmembrane domain, has previously been described. In the current study, allele frequencies for this Asp298Asn polymorphism were investigated in lines of Large White pigs which had been divergently selected for seven generations based on lean food conversion (LFC), lean growth with ad libitum feeding (LGA), lean growth with restricted feeding (LGS) and daily feed intake (DFI). The association of the Asp298Asn polymorphism with performance traits in these lines was assessed. The frequency of Asp298 was higher (P < 0.001) in the LFC high line (0.48) than the low line (0.00), while the frequency of Asn298 was higher (P < 0.01) in the LGA high line (0.22) than the low line (0.04). When analysed across all lines, the Asp298Asn polymorphism was significantly associated with ultrasonic backfat depth, average daily gain and daily feed intake (P < 0.05). Asp298 homozygous animals had mean values of 13.3 mm, 733 g and 1933 g for backfat, average daily gain and daily feed intake respectively, compared with 14.7 mm, 805 g and 2098 g for Asn298 homozygotes. Therefore, the data support a role for the MC4R Asp298Asn polymorphism in the genetic basis of economically important traits in Large White pigs.     

Association of MC3R gene polymorphisms with body weight in the red fox and comparative gene organization in four canids

There are five genes encoding melanocortin receptors. Among canids, the genes have mainly been studied in the dog (MC1R, MC2R and MC4R). The MC4R gene has also been analysed in the red fox. In this report, we present a study of chromosome localization, comparative sequence analysis and polymorphism of the MC3R gene in the dog, red fox, arctic fox and Chinese raccoon dog. The gene was localized by FISH to the following chromosome: 24q24‐25 in the dog, 14p16 in the red fox, 18q13 in the arctic fox and NPP4p15 in the Chinese raccoon dog. A high identity level of the MC3R gene sequences was observed among the species, ranging from 96.0% (red fox – Chinese raccoon dog) to 99.5% (red fox – arctic fox). Altogether, eight polymorphic sites were found in the red fox, six in the Chinese raccoon dog and two in the dog, while the arctic fox appeared to be monomorphic. In addition, association of several polymorphisms with body weight was analysed in red foxes (the number of genotyped animals ranged from 319 to 379). Two polymorphisms in the red fox, i.e. a silent substitution c.957A>C and c.*185C>T in the 3′‐flanking sequence, showed a significant association (P < 0.01) with body weight.     

Homologous regulation of melanocortin-1 receptor (MC1R) expression in melanoma tumor cells in vivo

As G protein-coupled receptors (GPCRs) are the target of numerous signaling molecules, including about half of the therapeutic drugs currently used, it is important to understand the consequences of homologous (ligand-induced) receptor regulation. Continuous exposure of GPCRs to agonist in vitro most frequently results in receptor down-regulation, but receptor up-regulation may occur as well. These phenomena are expected to play a role in the physiological adaptation to endogenous ligands and also in the response to repetitive administration of drugs in the clinic. However, there is little information on homologous regulation of GPCRs in vivo. Here, we report on the regulation of melanocortin-1 receptor (MC1R) expression in melanoma cells implanted into mice. Two melanoma cell lines were investigated, D10 and B16F1, which in vitro had previously been shown to undergo homologous receptor up- and down-regulation, respectively. After implantation into mice and exposure to the natural MC1R agonist alpha-melanocyte-stimulating hormone (alpha-MSH), cell-surface MC1R expression was evaluated by competition binding experiments in tumor membrane preparations. In B 16F1 cells, a single injection of 50 to 500 microg alpha-MSH induced a rapid but moderate dose-dependent MC1R down-regulation which could be totally reverted within 16-24 h. By continuous administration of alpha-MSH via osmotic minipumps, MC1R down-regulation was considerably amplified and reached the level observed in vitro, demonstrating that prolonged receptor interaction was necessary to induce a maximal effect in vivo. Similar results were obtained in vitro, which demonstrates that homologous MC1R regulation in B16F1 cells is essentially independent of the physiological environment. In D10 cells, however, up-regulation could not be reproduced in vivo, suggesting that MC1R up-regulation is more dependent on the physiological environment. These results demonstrate the importance of in vivo receptor regulation studies, in particular in view of the potential use of MC1R as a target for melanoma therapy.     

红鳍东方鲀(Takifugu rubripes)MC4R基因的多态性分析

采用PCR-SSCP(single strand conformation polymorphism)技术和DNA测序方法分析红鳍东方鲀MC4R(Melanocortin-4receptor)基因编码区多态性。在MC4R基因编码区48 nt和264 nt均发生了碱基的转换突变(G→A),两个突变位点分别位于M1和M2引物扩增产物中。引物M1扩增产物SSCP分析得到两种基因型:AA基因型和AB基因型,并且AA基因型和A等位基因频率明显高于AB基因型和B等位基因。引物M2扩增产物也得到两种基因型:CC基因型和CD基因型,CC基因型和C等位基因频率明显高于CD基因型和D等位基因。遗传变异结果分析表明,两个突变位点均属于低度多态性,而且群体遗传杂合度较低,反映了该群体的遗传一致性较高。     

Polymorphisms in the melanocortin-1 receptor (MC1R) and agouti signaling protein (ASIP) genes in Korean vitiligo patients

We have examined the frequency of SNP polymorphisms within the melanocortin-1 receptor (MC1R) and agouti signaling protein (ASIP) genes in 114 Korean vitiligo patients and 111 normal controls to assess the association of these loci with vitiligo risk. Using direct sequencing techniques, we found the following five MC1R coding region SNPs: Arg67Gln (G200A), Val92Met (G274A), Ile120Thr (T359C), Arg160Arg (C478A), and Gln163Arg (A488G). Of these, the most common were Val92Met at 14% in patients vs. 9% in controls (P = 0.17) and Gln163Arg at 17% in patients vs. 17% in controls (P = 0.84). Presence of the A allele of Val92Met (G274A) was higher in vitiligo patients [P = 0.12, odds ratio (OR) [95% confidence interval (CI)] = 1.68 (0.86-3.25)]. The other three variants showed a frequency <5% of both patients and controls. The ASIP 3'UTR genotype (g.8818A-G) was also assessed in the same subjects. The frequency of the G allele of 3'UTR in ASIP was 17% in vitiligo and 12% in controls [P = 0.14, OR (95% CI) = 1.49 (0.87-2.54)]. Carriage of the G allele was higher in vitiligo patients [P = 0.17, OR (95% CI) = 1.50 (0.83-2.72)], and those who also carried MC1R Val92Met were more prone to vitiligo [eight of 111 patients vs. four of 111 in controls, P = 0.14, OR (95% CI) = 2.75 (0.71-8.69)]. None of these associations, however, reached statistical significance.     

Sequence variation in the melanocortin-1 receptor (MC1R) pigmentation gene and its role in the cryptic coloration of two South American sand lizards

In reptiles, dorsal body darkness often varies with substrate color or temperature environment, and is generally presumed to be an adaptation for crypsis or thermoregulation. However, the genetic basis of pigmentation is poorly known in this group. In this study we analyzed the coding region of the melanocortin-1-receptor (MC1R) gene, and therefore its role underlying the dorsal color variation in two sympatric species of sand lizards (Liolaemus) that inhabit the southeastern coast of South America: L. occipitalis and L. arambarensis. The first is light-colored and occupies aeolic pale sand dunes, while the second is brownish and lives in a darker sandy habitat. We sequenced 630 base pairs of MC1R in both species. In total, 12 nucleotide polymorphisms were observed, and four amino acid replacement sites, but none of them could be associated with a color pattern. Comparative analysis indicated that these taxa are monomorphic for amino acid sites that were previously identified as functionally important in other reptiles. Thus, our results indicate that MC1R is not involved in the pigmentation pattern observed in Liolaemus lizards. Therefore, structural differences in other genes, such as ASIP, or variation in regulatory regions of MC1R may be responsible for this variation. Alternatively, the phenotypic differences observed might be a consequence of non-genetic factors, such as thermoregulatory mechanisms.