Melanocortin‐1 receptor structure and functional regulation

The melanogenic actions of the melanocortins are mediated by the melanocortin‐1 receptor (MC1R). MC1R is a member of the G‐protein‐coupled receptors (GPCR) superfamily expressed in cutaneous and hair follicle melanocytes. Activation of MC1R by adrenocorticotrophin or α‐melanocyte stimulating hormone is positively coupled to the cAMP signaling pathway and leads to a stimulation of melanogenesis and a switch from the synthesis of pheomelanins to the production of eumelanic pigments. The functional behavior of the MC1R agrees with emerging concepts in GPCR signaling including dimerization, coupling to more than one signaling pathway and a high agonist‐independent constitutive activity accounting for inverse agonism phenomena. In addition, MC1R displays unique properties such as an unusually high number of natural variants often associated with clearly visible phenotypes and the occurrence of endogenous peptide antagonists. Therefore MC1R is an ideal model to study GPCR function. Here we review our current knowledge of MC1R structure and function, with emphasis on information gathered from the analysis of natural variants. We also discuss recent data on the regulation of MC1R function by paracrine and endocrine factors and by external stimuli such as ultraviolet light.     

The role of 5‐HT2A receptor and 5‐HT2A/5‐HT1A receptor interaction in the suppression of catalepsy

In the present study, the 5‐HT_2A and 5‐HT_1A receptors functional activity and 5‐HT_2A receptor gene expression were examined in the brain of ASC/Icg and congenic AKR.CBAD13Mit76C mouse strains (genetically predisposed to catalepsy) in comparison with the parental catalepsy‐resistant AKR/J and catalepsy‐prone CBA/Lac mouse strains. The significantly reduced 5‐HT_2A receptor functional activity along with decreased 5‐HT_2A receptor gene expression in the frontal cortex was found in all mice predisposed to catalepsy compared with catalepsy‐resistant AKR/J. 5‐HT_2A agonist DOI (0.5 and 1 mg/kg, i.p.) significantly reduced catalepsy in ASC/Icg and CBA/Lac, but not in AKR.CBAD13Mit76C mice. Essential increase in 5‐HT_1A receptor functional activity was shown in catalepsy‐prone mouse strains in comparison with catalepsy‐resistant AKR/J mice. However, in AKR.CBAD13Mit76C mice it was lower than in ASC/Icg and CBA/Lac mice. The inter‐relation between 5‐HT_2A and 5‐HT_1A receptors in the regulation of catalepsy was suggested. This suggestion was confirmed by prevention of DOI anticataleptic effect in ASC/Icg and CBA/Lac mice by pretreatment with 5‐HT_1A receptor antagonist p‐MPPI (3 mg/kg, i.p.). At the same time, the activation of 5‐HT_2A receptor led to the essential suppression of 5‐HT_1A receptor functional activity, indicating the opposite effect of 5‐HT_2A receptor on pre‐ and postsynaptic 5‐HT_1A receptors. Thus, 5‐HT_2A/5‐HT_1A receptor interaction in the mechanism of catalepsy suppression in mice was shown.     

Accelerated pseudogenization of trace amine‐associated receptor genes in primates

Trace amines (TAs) in the mammalian brain have been investigated for four decades. Trace amine‐associated receptors (TAARs) were discovered during the search for receptors activated by TAs. TAARs are considered a second class of vertebrate olfactory receptors and successfully proliferated in conjunction with adaptation to living on the ground to detect carnivore odors. Thus, therian mammals have a high number of TAAR genes due to rapid species‐specific gene duplications. In primate lineages, however, their genomes have significantly smaller numbers of TAAR genes than do other mammals. To elucidate the evolutionary force driving these patterns, exhaustive data mining of TAAR genes was performed for 13 primate genomes (covering all four infraorders) and two nonprimate euarchontan genomes. This study identified a large number of pseudogenes in many of these primate genomes and thus investigated the pseudogenization event process for the TAAR repertoires. The degeneration of TAARs is likely associated with arboreal inhabitants reducing their exposure to carnivores, and this was accelerated by the change in the nose shape of haplorhines after their divergence from strepsirrhines. Arboreal life may have decreased the reliance on the chemosensing of predators, suggestive of leading to the depauperation of TAAR subfamilies. The evolutionary deterioration of TAARs in primates has been reestablished in recently derived primates due to high selection pressure and probably functional diversity.     

Relative roles of T‐cell receptor ligands and interleukin‐2 in driving T‐cell proliferation

Stimulation of T cells by the T‐cell receptor (TCR)/CD3 complex results in interleukin‐2 (IL‐2) synthesis and surface expression of the IL‐2 receptor (IL‐2R), which in turn drive T‐cell proliferation. However, the significance of the requirement of IL‐2 in driving T‐cell proliferation, when TCR stimulation itself delivers potential mitogenic signals, is unclear. We show that blocking of IL‐2 synthesis by Cyclosporin A (CsA) suppressed both the Concanavalin A (Con A)‐ and phorbol myristate acetate (PMA)/ionomycin‐induced proliferation of T cells. The latter is also inhibited by anti‐IL‐2R. Kinetic studies showed that T‐cell proliferation begins to become resistant to CsA inhibition by about 12 h and became largely resistant by 18 h of stimulation. PMA, the protein kinase C activator, enhanced Con A‐induced T‐cell proliferation if added only within first 12 h of stimulation, and not after that. Given the fact that, in the present study, TCR is downregulated within 2 h of Con A stimulation and T cells entered the S phase of cell cycle by about 18 h of stimulation, the above results suggest that TCR stimulation provides the initial trigger to the resting T cells, which allows the cells to traverse the first two third portions of G1 phase of cell cycle and become proliferation competent. IL‐2 action begins afterward, delivering the actual proliferation signal(s), allowing the cells to traverse the rest of G1 phase and enter the S phase of the cell cycle. J. Cell. Biochem. 76:37–43, 1999. © 1999 Wiley‐Liss, Inc.     

The endoplasmic reticulum‐associated protein,OS‐9, behaves as a lectin in targeting the immature calcium‐sensing receptor

The mechanisms responsible for the processing and quality control of the calcium‐sensing receptor (CaSR) in the endoplasmic reticulum (ER) are largely unknown. In a yeast two‐hybrid screen of the CaSR C‐terminal tail (residues 865–1078), we identified osteosarcoma‐9 (OS‐9) protein as a binding partner. OS‐9 is an ER‐resident lectin that targets misfolded glycoproteins to the ER‐associated degradation (ERAD) pathway through recognition of specific N‐glycans by its mannose‐6‐phosphate receptor homology (MRH) domain. We show by confocal microscopy that the CaSR and OS‐9 co‐localize in the ER in COS‐1 cells. In immunoprecipitation studies with co‐expressed OS‐9 and CaSR, OS‐9 specifically bound the immature form of wild‐type CaSR in the ER. OS‐9 also bound the immature forms of a CaSR C‐terminal deletion mutant and a C677A mutant that remains trapped in the ER, although binding to neither mutant was favored over wild‐type receptor. OS‐9 binding to immature CaSR required the MRH domain of OS‐9 indicating that OS‐9 acts as a lectin most likely to target misfolded CaSR to ERAD. Our results also identify two distinct binding interactions between OS‐9 and the CaSR, one involving both C‐terminal domains of the two proteins and the other involving both N‐terminal domains. This suggests the possibility of more than one functional interaction between OS‐9 and the CaSR. When we investigated the functional consequences of altered OS‐9 expression, neither knockdown nor overexpression of OS‐9 was found to have a significant effect on CaSR cell surface expression or CaSR‐mediated ERK1/2 phosphorylation.     

Regulation of antigen‐receptor gene assembly in hagfish

Variable lymphocyte receptors (VLRs) are antigen receptors in the jawless vertebrates lamprey and hagfish. VLR genes are classified into VLRA and VLRB, and lymphocytes expressing VLRA are T‐cell‐like, whereas those expressing VLRB are B‐cell‐like in the sea lamprey. Diverse VLR genes are assembled somatically in lymphocytes; however, how the assembly is regulated is still largely unknown. Here, we analyse VLR gene assembly at the single‐cell level in the inshore hagfish (Eptatretus burgeri). Each lymphocyte assembles and transcribes only one type of VLR gene, either VLRA or VLRB. In general, monoallelic assembly of VLR was observed, but diallelic assembly was found in some cases—in many of which, one allele was functional and the other was defective. In fact, all VLR‐assembled lymphocytes contained at least one functional VLR gene. Together, these results indicate a feedback inhibition of VLR assembly and selection of VLR‐positive lymphocytes.     

Generation of an estrogen receptor beta‐iCre knock‐in mouse

A novel knock‐in mouse that expresses codon‐improved Cre recombinase (iCre) under regulation of the estrogen receptor beta (Esr2) promoter was developed for conditional deletion of genes and for the spatial and/or temporal localization of Esr2 expression. ESR2 is one of two classical nuclear estrogen receptors and displays a spatiotemporal expression pattern and functions that are different from the other estrogen receptor, ESR1. A cassette was constructed that contained iCre, a polyadenylation sequence, and a neomycin selection marker. This construct was used to insert iCre in front of the endogenous start codon of the Esr2 gene of a C57BL/6J embryonic stem cell line via homologous recombination. Resulting Esr2‐iCre mice were bred with ROSA26‐lacZ and Ai9‐RFP reporter mice to visualize cells of functional iCre expression. Strong expression was observed in the ovary, the pituitary, the interstitium of the testes, the head and tail but not body of the epididymis, skeletal muscle, the coagulation gland (anterior prostate), the lung, and the preputial gland. Additional diffuse or patchy expression was observed in the cerebrum, the hypothalamus, the heart, the adrenal gland, the colon, the bladder, and the pads of the paws. Overall, Esr2‐iCre mice will serve as a novel line for conditionally ablating genes in Esr2‐expressing tissues, identifying novel Esr2‐expressing cells, and differentiating the functions of ESR2 and ESR1. genesis 54:38–52, 2016. © 2016 Wiley Periodicals, Inc.     

Toll‐like receptor 4 regulates spontaneous intestinal tumorigenesis by up‐regulating IL‐6 and GM‐CSF

Inflammation is as an important component of intestinal tumorigenesis. The activation of Toll‐like receptor 4 (TLR4) signalling promotes inflammation in colitis of mice, but the role of TLR4 in intestinal tumorigenesis is not yet clear. About 80%–90% of colorectal tumours contain inactivating mutations in the adenomatous polyposis coli (Apc) tumour suppressor, and intestinal adenoma carcinogenesis in familial adenomatous polyposis (FAP) is also closely related to the germline mutations in Apc. The Apc^Min/+ (multiple intestinal neoplasia) model mouse is a well‐utilized model of FAP, an inherited form of intestinal cancer. In this study, Apc^Min/+ intestinal adenoma mice were generated on TLR4‐sufficient and TLR4‐deficient backgrounds to investigate the carcinogenic effect of TLR4 in mouse gut by comparing mice survival, peripheral blood cells, bone marrow haematopoietic precursor cells and numbers of polyps in the guts of Apc^Min/+ WT and Apc^Min/+ TLR4^?/? mice. The results revealed that TLR4 had a critical role in promoting spontaneous intestinal tumorigenesis. Significant differential genes were screened out by the high‐throughput RNA‐Seq method. After combining these results with KEGG enrichment data, it was determined that TLR4 might promote intestinal tumorigenesis by activating cytokine‐cytokine receptor interaction and pathways in cancer signalling pathways. After a series of validation experiments for the concerned genes, it was found that IL6, GM‐CSF (CSF2), IL11, CCL3, S100A8 and S100A9 were significantly decreased in gut tumours of Apc^Min/+ TLR4^?/? mice compared with Apc^Min/+ WT mice. In the functional study of core down‐regulation factors, it was found that IL6, GM‐CSF, IL11, CCL3 and S100A8/9 increased the viability of colon cancer cell lines and decreased the apoptosis rate of colon cancer cells with irradiation and chemical treatment.     

Arrestin‐dependent but G‐protein coupled receptor kinase‐independent uncoupling of D2‐dopamine receptors

We reconstituted D2 like dopamine receptor (D2R) and the delta opioid receptor (DOR) coupling to G‐protein gated inwardly rectifying potassium channels (K_ir3) and directly compared the effects of co‐expression of G‐protein coupled receptor kinase (GRK) and arrestin on agonist‐dependent desensitization of the receptor response. We found, as described previously, that co‐expression of a GRK and an arrestin synergistically increased the rate of agonist‐dependent desensitization of DOR. In contrast, only arrestin expression was required to produce desensitization of D2R responses. Furthermore, arrestin‐dependent GRK‐independent desensitization of D2R‐K_ir3 coupling could be transferred to DOR by substituting the third cytoplasmic loop of DOR with that of D2R. The arrestin‐dependent GRK‐independent desensitization of D2R desensitization was inhibited by staurosporine treatment, and blocked by alanine substitution of putative protein kinase C phosphorylation sites in the third cytoplasmic loop of D2R. Finally, the D2R construct in which putative protein kinase C phosphorylation sites were mutated did not undergo significant agonist‐dependent desensitization even after GRK co‐expression, suggesting that GRK phosphorylation of D2R does not play an important role in uncoupling of the receptor.

     

Synthetic pentapeptides inhibiting autophosphorylation of insulin receptor in a non‐ATP‐competitive mechanism

In an attempt to develop non‐ATP‐competitive inhibitors of the autophosphorylation of IR, the effects of the synthetic peptides, Ac‐DIY¹¹⁵⁸ET‐NH₂ and Ac‐DY¹¹⁶²Y¹¹⁶³RK‐NH₂, on the phosphorylation of IR were studied in vitro. The peptides were derived from the amino‐acid sequence in the activation loop of IR. They inhibited the autophosphorylation of IR to 20.5 and 40.7%, respectively, at 4000 µM . The Asp/Asn‐ and Glu/Gln‐substituted peptides, Ac‐NIYQT‐NH₂ and Ac‐NYYRK‐NH₂, more potently inhibited the autophosphorylation than did the corresponding parent peptides. The inhibitory potencies of the substituted peptides were decreased with increasing concentrations of ATP, indicating that these peptides employ an ATP‐competitive mechanism in inhibiting the autophosphorylation of IR. In contrast, those of the parent peptides were not affected. Mass spectrometry showed that the parent peptides were phosphorylated by IR, suggesting that they interact with the catalytic loop. Moreover, docking simulations predicted that the substituted peptides would interact with the ATP‐binding region of IR, whereas their parent peptides would interact with the catalytic loop of IR. Thus, Ac‐DIYET‐NH₂ and Ac‐DYYRK‐NH₂ are expected to be non‐ATP‐competitive inhibitors. These peptides could contribute to the development of a drug employing a novel mechanism. Copyright © 2009 European Peptide Society and John Wiley & Sons, Ltd.     

The role of 5‐HT2c receptor on corticosterone‐mediated food intake

Corticosterone plays an important role in feeding behavior. However, its mechanism remains unclear. Therefore, the present study aimed to investigate the effect of corticosterone on feeding behavior. In this study, cumulative food intake was increased by acute corticosterone administration in a dose‐dependent manner. Administration of the 5‐HT_2c receptor agonist m‐chlorophenylpiperazin (mCPP) reversed the effect of corticosterone on food intake. The anorectic effects of mCPP were also blocked by the 5‐HT_2c receptor antagonist RS102221 in corticosterone‐treated mice. Both corticosterone and mCPP increased c‐Fos expression in hypothalamic nuclei, but not the nucleus of the solitary tract. RS102221 inhibited c‐Fos expression induced by mCPP, but not corticosterone. In addition, mCPP had little effect on TH and POMC levels in the hypothalamus. Furthermore, mCPP antagonized decreasing effect of the leptin produced by corticosterone. Taken together, our findings suggest that 5‐HT_2c receptors and leptin may be involved in the effects of corticosterone‐induced hyperphagia.     

Semisynthesis and optimization of G protein‐coupled receptor mimics

We have recently developed a soluble mimic of the corticotropin‐releasing factor receptor type 1 (CRF1), a membrane‐spanning G protein‐coupled receptor, which allowed investigations on receptor–ligand interactions. The CRF1 mimic consists of the receptor N‐terminus and three synthetic extracellular loops (ECL1–3), which constitute the extracellular receptor domains (ECDs) of CRF1, coupled to a linear peptide template. Here, we report the synthesis of a modified CRF1 mimic, which is more similar to the native receptor possessing a cyclic template that displays the ECDs in a more physiological conformation compared with the initial linear design. In order to facilitate detailed biophysical investigations on CRF1 mimics, we have further established a cost‐efficient access to the CRF1 mimic, which is suitable for isotopic labeling for NMR spectroscopy. To this end, the loop‐mimicking cyclic peptide of the ECL2 of CRF1 was produced recombinantly and cyclized by expressed protein ligation. Cyclic ECL2 was obtained in milligram scale, and CRF1 mimics synthesized from this material displayed the same binding properties as synthetic CRF1 constructs. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.     

Activation of Toll‐like receptor 9 inhibits lipopolysaccharide‐induced receptor activator of nuclear factor kappa‐ B ligand expression in rat B lymphocytes

B lymphocytes express multiple TLRs that regulate their cytokine production. We investigated the effect of TLR4 and TLR9 activation on receptor activator of NF‐κB ligand (RANKL) expression by rat spleen B cells. Splenocytes or purified spleen B cells from Rowett rats were cultured with TLR4 ligand Escherichia coli LPS and/or TLR9 ligand CpG‐oligodeoxynucleotide (CpG‐ODN) for 2 days. RANKL mRNA expression and the percentage of RANKL‐positive B cells were increased in rat splenocytes challenged by E. coli LPS alone. The increases were less pronounced when cells were treated with both CpG‐ODN and E. coli LPS. Microarray analysis showed that expressions of multiple cyclin‐dependent kinase (CDK) pathway‐related genes were up‐regulated only in cells treated with both E. coli LPS and CpG‐ODN. This study suggests that CpG‐ODN inhibits LPS‐induced RANKL expression in rat B cells via regulation of the CDK pathway.     

Binding of spermine and ifenprodil to a purified,soluble regulatory domain of the N‐methyl‐d‐aspartate receptor

The binding of spermine and ifenprodil to the amino terminal regulatory (R) domain of the N‐methyl‐D ‐aspartate receptor was studied using purified regulatory domains of the NR1, NR2A and NR2B subunits, termed NR1‐R, NR2A‐R and NR2B‐R. The R domains were over‐expressed in Escherichia coli and purified to near homogeneity. The K_d values for binding of [¹⁴C]spermine to NR1‐R, NR2A‐R and NR2B‐R were 19, 140, and 33 μM, respectively. [³H]Ifenprodil bound to NR1‐R (K_d, 0.18 μM) and NR2B‐R (K_d, 0.21 μM), but not to NR2A‐R at the concentrations tested (0.1–0.8 μM). These K_d values were confirmed by circular dichroism measurements. The K_d values reflected their effective concentrations at intact NR1/NR2A and NR1/NR2B receptors. The results suggest that effects of spermine and ifenprodil on NMDA receptors occur through binding to the regulatory domains of the NR1, NR2A and NR2B subunits. The binding capacity of spermine or ifenprodil to a mixture of NR1‐R and NR2A‐R or NR1‐R and NR2B‐R was additive with that of each individual R domain. Binding of spermine to NR1‐R and NR2B‐R was not inhibited by ifenprodil and vice versa, indicating that the binding sites for spermine and ifenprodil on NR1‐R and NR2B‐R are distinct.