Melanocortin 3 receptor activation with [D-Trp8]-γ-MSH suppresses inflammation in apolipoprotein E deficient mice.

The melanocortin MC1 and MC3 receptors elicit anti-inflammatory actions in leukocytes and activation of these receptors has been shown to alleviate arterial inflammation in experimental atherosclerosis. Thus, we aimed to investigate whether selective targeting of melanocortin MC3 receptor protects against atherosclerosis. Apolipoprotein E deficient (ApoE-/-) mice were fed high-fat diet for 12 weeks and randomly assigned to receive either vehicle (n = 11) or the selective melanocortin MC3 receptor agonist [D-Trp(8)]-gamma-melanocyte-stimulating hormone ([D-Trp8]-γ-MSH; 15 µg/day, n = 10) for the last 4 weeks. Lesion size as well as macrophage and collagen content in the aortic root plaques were determined. Furthermore, leukocyte counts in the blood and aorta and cytokine mRNA expression levels in the spleen, liver and aorta were quantified. No effect was observed in the body weight development or plasma cholesterol level between the two treatment groups. However, [D-Trp8]-γ-MSH treatment significantly reduced plasma levels of chemokine (C-C motif) ligands 2, 4 and 5. Likewise, cytokine and adhesion molecule expression levels were reduced in the spleen and liver of γ-MSH-treated mice, but not substantially in the aorta. In line with these findings, [D-Trp8]-γ-MSH treatment reduced leukocyte counts in the blood and aorta. Despite reduced inflammation, [D-Trp8]-γ-MSH did not change lesion size, macrophage content or collagen deposition of aortic root plaques. In conclusion, the findings indicate that selective activation of melanocortin MC3 receptor by [D-Trp8]-γ-MSH suppresses systemic and local inflammation and thereby also limits leukocyte accumulation in the aorta. However, the treatment was ineffective in reducing atherosclerotic plaque size.

[THE THYROID STATUS OF RATS IMMUNIZED WITH PEPTIDES DERIVED FROM THE EXTRACELLULAR REGIONS OF THE TYPES 3 AND 4 MELANOCORTIN RECEPTORS AND THE 1B-SUBTYPE 5-HYDROXYTRYPTAMINE RECEPTOR].

The activity of the hypothalamic-pituitary-thyroid (HPT) axis is controlled by the brain neurotransmitter systems, including the melanocortin signaling system. Pharmacological inhibition of type 4 melanocortin receptor (M4R) leads to disruption of the functioning of HPT axis and to reduction of the level of thyroid hormones. At the same time, the data on how prolonged inhibition of M4R affects this axis and on its role in regulation of M3R are absent. The relationship between the thyroid status and the activity of 1B-subtype 5-hydroxytryptamine receptor (5-HT1BR) is scarcely explored. The aim of this work to study the effects of chronic inhibition of M3R, M4R and 5-HT1BR induced by immunization of rats with BSA-conjugated peptide derived from the extracellular regions of these receptors on the thyroid status and the activity of thyroid stimulating hormone (TSH)-sensitive adenylyl cyclase signaling system (ACSS) in the thyroid glarid (TG) of the immunized animals. In rats immunized with the peptides K-[TSLHL WNRSSHGLHG11-25]-A of M4R, A[PTNPYCICTTAH269-280]-A of M3R and. [QAKAEE-EVSEC(Acm)-VVNTDH189-205]-A of 5-HT1BR levels of thyroid hormones such as fT4, tT4 and tT3 were significantly reduced. In rats immunized with M4R and M3R peptides, an increase of TSH was detected whereas in the animals immunized with 5-HT1BR peptide the level of TSH, on the contrary, was reduced. In the TG of rats immunized with M4R and M3R peptides, the stimulatory effects of hormones (TSH, PA-CAP-3 8) and GppNHp on adenylyl cyclase activity were attenuated, and the changes were most pronounced in the case M4R peptide immunization. After immunization with 5-HT1BR peptide the stimulatory effects of TSH, PACAP-38 and GppNHp were retained. Thus, the main cause of thyroid hormones deficit in rats immunized with M4R and M3R peptides was the decreased sensitivity of ACSS thyrocytes to TSH, whereas in rats iimunized with 5-HT1BR peptide the deficit of thyroid hormones was associated with decreased level of TSH. Our data on the negative impact of long-term immunization of rats with BSA-conjugated peptides derived from the extracellular regions of M4R, M3R.and 5-HT1BR on their thyroid status is a strong argument in favor of participation of these receptors and intracellular signaling pathways associated with them in the regulation of HPT axis.

[The influence of immunization of rats with BSA-conjugated peptide 269-280 of type 3 melanocortin receptor on the metabolic parameters and thyroid functions].

One of the approaches to study the role of the brain hormonal signaling systems in the regulation of biochemical and physiological processes is their shutdown using the antibodies generated to peptides corresponding to extracellular regions of receptors. The brain type 3 melanocortin receptors (M3R) play an important role in the central regulation of the metabolism and the endocrine system. However, the influence of prolonged inhibition of M3R on energy metabolism, insulin resistance, and thyroid gland (TG) function is practically not studied. The aim of the study was to investigate the influence of prolonged repeated immunization of male rats with the BSA-conjugated peptide Ala-[Pro-Thr-Asn-Pro-Tyr-Cys-Ile-Cys-Thr-Thr-Ala-His269-280]-Ala (A[269- 280]A) corresponding to the third extracellular loop of M3R on their metabolic parameters and functional activity of TG. 9 months after the first immunization, the weight of rats was reduced and after 12-13 months was significantly lower than in controls. The weight of abdominal and brown adipose tissues, on the contrary, increased. At the same timeline there was an increase in the fasting glucose and insulin levels, and increase of the HOMA-IR index (by 75%) indicating that immunized animals develop insulin resistance. The rats have increased glucose utilization due to an increase of insulin production by pancreatic ß-cells. 12 months after the first immunization, the increase of the triglycerides level (by 74%) and the ratio of LDL- and HDL-cholesterol (by 36%) were revealed. 13 months after the start of immunization, the levels of free and total thyroxine and total triiodothyronine significantly decreased. In the TG plasma membranes of immunized rats the weakening adenylyl cyclase stimulating effect of thyroid-stimulating hormone was detected. Thus, long-term decrease in the bra- in M3R activity due to repeated immunization of rats with BSA-conjugated peptide A[269-280]A induces the disturbances of the peripheral metabolism and TG function.

Melanocortin receptors in rat liver cells: change of gene expression and intracellular localization during acute-phase response.

MCRs are known to be expressed predominantly in the brain where they mediate metabolic and anti-inflammatory functions. Leptin plays an important role in appetite and energy regulation via signaling through melanocortin receptors (MCRs) in the brain. As serum levels of MCR ligands are elevated in a clinical situation [acute-phase response (APR)] to tissue damage, where the liver is responsible for the metabolic changes, we studied hepatic gene expression of MCRs in a model of muscle tissue damage induced by turpentine oil (TO) injection in rats. A significant increase in gene expression of all five MCRs (MC4R was the highest) in liver at the RNA and protein level was detected after TO injection. A similar pattern of increase was also found in the brain. Immunohistology showed MC4R in the cytoplasm, but also in the nucleus of parenchymal and non-parenchymal liver cells, whereas MC3R-positivity was mainly cytoplasmic. A time-dependent migration of MC4R protein from the cytoplasm into the nucleus was observed during APR, in parallel with an increase in α-MSH and leptin serum levels. An increase of MC4R was detected at the protein level in wild-type mice, while such an increase was not observed in IL-6ko mice during APR. Moreover, treatment of isolated liver cells with melanocortin agonists (α-MSH and THIQ) inhibited the endotoxin-induced upregulation of the acute-phase cytokine (IL-6, IL1ß and TNF-α) gene expression in Kupffer cells and of chemokine gene expression in hepatocytes. MCRs are expressed not only in the brain, but also in liver cells and their gene expression in liver and brain tissue is upregulated during APR. Due to the presence of specific ligands in the serum, they may mediate metabolic changes and exert a protective effect on liver cells.

Physiological roles of the melanocortin MC3 receptor.

The melanocortin MC(3) receptor remains the most enigmatic of the melanocortin receptors with regard to its physiological functions. The receptor is expressed both in the CNS and in multiple tissues in the periphery. It appears to be an inhibitory autoreceptor on proopiomelanocortin neurons, yet global deletion of the receptor causes an obesity syndrome. Knockout of the receptor increases adipose mass without a readily measurable increase in food intake or decrease in energy expenditure. And finally, no melanocortin MC(3) receptor null humans have been identified and associations between variant alleles of the melanocortin MC(3) receptor and diseases remain controversial, so the physiological role of the receptor in humans remains to be determined.

Antibodies raised against different extracellular loops of the melanocortin-3 receptor affect energy balance and autonomic function in rats.

Melanocortin receptors (MCR) play an important role in the regulation of energy balance and autonomic function. In the present studies, we used active immunization against peptide sequences from the first and the third extracellular loop (EL1 and EL3) of the MC3R to generate selective antibodies (Abs) against this MCR subtype in rats. Immunization with the EL1 peptide resulted in Abs that enhanced the effects of the endogenous ligand α-melanocyte-stimulating hormone (α-MSH), whereas immunization with the EL3 peptide resulted in Abs acting as non-competitive antagonists. The phenotype of immunized rats chronically instrumented with telemetry transducers was studied under four different conditions: a high-fat diet was followed by standard lab chow, by fasting, and finally by an intraperitoneal injection of lipopolysaccharide (LPS). Under high-fat diet, food intake and body weight were higher in the EL3 than in the EL1 or the control group. Blood pressure was increased in EL3 rats and locomotor activity was reduced. Plasma concentrations of triglycerides, insulin, and leptin tended to rise in the EL3 group. After switching to standard lab chow, the EL1 group showed a small significant increase in blood pressure that was more pronounced and associated with an increase in heart rate during food restriction. No differences between the EL1 or the EL3 group were observed after LPS injection. These results show that immunization against the MC3R resulted in the production of Abs with positive or negative allosteric properties. The presence of such Abs induced small changes in metabolic and cardiovascular parameters.