New growth hormone secretagogues

Summary Starting from EP 51389, a potent growth hormone secretagogue (GHS), a new series of GHS has been designed, synthesized and tested. This series was built on a gem-diamino moiety and a structure activity relationship study was performed including N-methylation of the amide bonds. Some analogues exhibited more powerful activity than Hexarelin, they were activeper os on dog and have been selected as candidates for further development.     

Diversification and coevolution of the ghrelin/growth hormone secretagogue receptor system in vertebrates

The gut hormone ghrelin is involved in numerous metabolic functions, such as the stimulation of growth hormone secretion, gastric motility, and food intake. Ghrelin is modified by ghrelin O‐acyltransferase (GOAT) or membrane‐bound O‐acyltransferase domain‐containing 4 (MBOAT4) enabling action through the growth hormone secretagogue receptors (GHS‐R). During the course of evolution, initially strong ligand/receptor specificities can be disrupted by genomic changes, potentially modifying physiological roles of the ligand/receptor system. Here, we investigated the coevolution of ghrelin, GOAT, and GHS‐R in vertebrates. We combined similarity search, conserved synteny analyses, phylogenetic reconstructions, and protein structure comparisons to reconstruct the evolutionary history of the ghrelin system. Ghrelin remained a single‐gene locus in all vertebrate species, and accordingly, a single GHS‐R isoform was identified in all tetrapods. Similar patterns of the nonsynonymous (dN) and synonymous (dS) ratio (dN/dS) in the vertebrate lineage strongly suggest coevolution of the ghrelin and GHS‐R genes, supporting specific functional interactions and common physiological pathways. The selection profiles do not allow confirmation as to whether ghrelin binds specifically to GOAT, but the ghrelin dN/dS patterns are more similar to those of GOAT compared to MBOAT1 and MBOAT2 isoforms. Four GHS‐R isoforms were identified in teleost genomes. This diversification of GHS‐R resulted from successive rounds of duplications, some of which remained specific to the teleost lineage. Coevolution signals are lost in teleosts, presumably due to the diversification of GHS‐R but not the ghrelin gene. The identification of the GHS‐R diversity in teleosts provides a molecular basis for comparative studies on ghrelin's physiological roles and regulation, while the comparative sequence and structure analyses will assist translational medicine to determine structure–function relationships of the ghrelin/GHS‐R system.     

Stress response and tolerance of the submerged macrophyte Elodea nuttallii (Planch) St. John to heat stress: a comparative study of shock heat stress and gradual heat stress

Sudden and gradual increases of temperature in aquatic environments play important roles in determining growth and physiological dynamics of aquatic macrophytes. However, a lesser attention has been paid to identify the effects of different temperature regimes on aquatic macrophytes. Therefore, the present study is focused on comparing the effects of shock and gradual heat stresses (SHS and GHS) on growth, photosynthetic attributes, and oxidative damage on Elodea nuttallii as a model plant. Laboratory-oriented two experimental setups were maintained to induce the SHS and GHS. A significant decline in shoot elongation coupled with a decline in endogenous indoleacetic acid (IAA) and an increase in hydrogen peroxide (H₂O₂) was observed in both temperature treatments. These effects were further accompanied by oxidative damage to photosynthetic pigments and cell membrane structures in E. nuttallii. Temperature-mediated oxidative stress was significantly pronounced under SHS, which induced the activation of different defensive mechanisms against reactive oxygen species, including antioxidant enzymes, secondary metabolites, and osmoprotectants. The present study revealed that temperature-induced oxidative damage was more severe when the temperature increased suddenly. Further, heat acclimation was observed when the plant was exposed to 30 °C under GHS, although this treatment induces significant oxidative stress under 35 °C.     

Endocrine and non-endocrine activities of growth hormone secretagogues in humans

Growth hormone (GH) secretagogues (GHS) are synthetic peptidyl and non-peptidyl molecules which possess strong, dose-dependent and reproducible GH releasing effects as well as significant prolactin (PRL) and adrenocorticotropic hormone (ACTH) releasing effects. The neuroendocrine activities of GHS are mediated by specific receptors mainly present at the pituitary and hypothalamic level but also elsewhere in the central nervous system. GHS release GH via actions at the pituitary and (mainly) the hypothalamic level, probably acting on GH releasing hormone (GHRH) secreting neurons and/or as functional somatostatin antagonists. GHS release more GH than GHRH and the coadministration of these peptides has a synergistic effect but these effects need the integrity of the hypothalamo-pituitary unit. The GH releasing effect of GHS is generally gender-independent and undergoes marked age-related variations reflecting age-related changes in the neural control of anterior pituitary function. The PRL releasing activity of GHS probably comes from direct pituitary action, which indeed is slight and independent of both age and gender. The acute stimulatory effect of GHS on ACTH/cortisol secretion is similar to that of corticotropin releasing hormone (CRH) and arginine vasopressin (AVP). In physiological conditions, the ACTH releasing activity of GHS is mediated by central mechanisms, at least partially, independent of both CRH and AVP but probably involving GABAergic mechanisms. The ACTH releasing activity of GHS is gender-independent and undergoes peculiar age-related variations showing a trend towards increase in ageing. GHS possess specific receptors also at the peripheral levels in endocrine and non-endocrine human tissues. Cardiac receptors are specific for peptidyl GHS and probably mediate GH-independent cardiotropic activities both in animals and in humans.     

TRIAD3/RNF216 mutations associated with Gordon Holmes syndrome lead to synaptic and cognitive impairments via Arc misregulation

Multiple loss‐of‐function mutations in TRIAD3 (a.k.a. RNF216) have recently been identified in patients suffering from Gordon Holmes syndrome (GHS), characterized by cognitive decline, dementia, and movement disorders. TRIAD3A is an E3 ubiquitin ligase that recognizes and facilitates the ubiquitination of its target for degradation by the ubiquitin‐proteasome system (UPS). Here, we demonstrate that two of these missense substitutions in TRIAD3 (R660C and R694C) could not regulate the degradation of their neuronal target, activity‐regulated cytoskeletal‐associated protein (Arc/Arg 3.1), whose expression is critical for synaptic plasticity and memory. The synaptic deficits due to the loss of endogenous TRIAD3A could not be rescued by TRIAD3A harboring GHS‐associated missense mutations. Moreover, we demonstrate that the loss of endogenous TRIAD3A in the mouse hippocampal CA1 region led to deficits in spatial learning and memory. Finally, we show that these missense mutations abolished the interaction of TRIAD3A with Arc, disrupting Arc ubiquitination, and consequently Arc degradation. Our current findings of Arc misregulation by TRIAD3A variants suggest that loss‐of‐function mutations in TRIAD3A may contribute to dementia observed in patients with GHS driven by dysfunctional UPS components, leading to cognitive impairments through the synaptic protein Arc.     

Ca^2+介导肾小管ICAM-1高表达参与肾结石的形成

本研究旨在探讨细胞间黏附分子1 (intercellular cell adhesion molecule-1, ICAM-1)在高钙尿肾结石(genetic hypercalcium renal stones, GHS)大鼠中的表达以及Ca^2+对肾小管上皮细胞ICAM-1的影响。取GHS大鼠和SD大鼠,荧光定量PCR检测肾组织ICAM-1 mRNA表达水平,免疫组化检测ICAM-1蛋白表达。比色法检测大鼠肾组织SOD活力和MDA水平。通过ICAM-1 siRNA转染大鼠肾小管上皮细胞系NRK-52E构建ICAM-1低表达细胞模型,Ca^2+(5 mmol/L)处理NRK-52E细胞,检测细胞SOD活力和MDA水平,通过Western blotting检测细胞ICAM-1蛋白表达水平。荧光定量PCR结果显示,与SD对照组相比,GHS组大鼠肾组织ICAM-1 mRNA水平显著升高,差异具有统计学意义(p<0.01);免疫组化结果显示,ICAM-1蛋白在GHS大鼠肾组织中呈阳性表达;氧化应激检测结果显示,与SD对照组比较,GHS组大鼠肾组织SOD活性显著降低,MDA含量显著升高,差异具有统计学意义(p<0.01)。Western blotting结果显示,与对照组比较,Ca^2+组NRK-52E细胞ICAM-1表达蛋白显著升高,差异具有统计学意义(p<0.01);与Ca^2+处理NC-siRNA组比较,Ca^2+处理ICAM-1 siRNA组NRK-52E细胞ICAM-1表达蛋白显著降低;与ICAM-1 siRNA组NRK-52E细胞比较,Ca^2+处理ICAM-1 siRNA组NRK-52E细胞后ICAM-1表达蛋白水平无显著性变化(p>0.05)。细胞氧化应激检测结果显示,与对照组比较,Ca^2+组NRK-52E细胞SOD活性显著降低,MDA含量显著升高,差异具有统计学意义(p<0.01);与Ca^2+处理NC-siRNA组比较,Ca^2+处理ICAM-1 siRNA组SOD活性显著升高,MDA含量显著降低,差异均具有统计学意义(p<0.01);与ICAM-1 siRNA组NRK-52E细胞比较,Ca^2+处理ICAM-1 siRNA组NRK-52E细胞SOD活力和MDA含量无显著性变化(p>0.05)。ICAM-1在GHS肾小管上皮细胞中高表达,Ca^2+诱导肾小管上皮细胞ICAM-1高表达,促进细胞氧化应激水平。     

Growth hormone secretagogues and ghrelin: an update on physiology and clinical relevance

The pulsatile release of growth hormone (GH) by the anterior pituitary is stimulated by small synthetic molecules termed GH secretagogues (GHS). The receptor for GHS (GHS-R) belongs to the family of G-protein-coupled receptors. An endogenous specific ligand of 28 amino acids has recently been purified from rat stomach, it has been termed 'ghrelin'. Ghrelin demonstrates potent and reproducible GH-releasing activity, as well as significant prolactin-, ACTH- and cortisol-releasing activity. However, its major physiological relevance may relate to energy homeostasis. Peripheral daily administration of ghrelin caused weight gain by reducing fat utilization in mice and rats. In man, intravenous ghrelin was shown to stimulate food intake. The pathophysiological role and the potential clinical use of ghrelin are reviewed.     

Spiro(indoline-3,4'-piperidine) growth hormone secretagogues as ghrelin mimetics.

A series of small molecules derived from MK-0677, a potent synthetic GHS, mimicking the N-terminal Gly-Ser-O-(n-octanoyl)-L-Ser-Phe segment of ghrelin was synthesized and tested in a binding and in a functional assay measuring intracellular calcium elevation in HEK-293 cells expressing hGHSR1a. Replacement of Phe in this tetrapeptide with a spiro(indoline-3,4'-piperidine) group, Gly-Ser with 2-aminoisobutyric acid, and O-(n-octanoyl)-L-Ser with O-benzyl-D-Ser provided synthetic GHS agonists with similar functional potency as ghrelin.     

Discovery, synthesis, and structure-activity studies of tetrazole based growth hormone secretagogues

A novel class of Growth Hormone Secretagogues (GHS), based on a tetrazole template, has been discovered. In vitro SAR and in vivo potency within this new class of GHS are described. The tetrazole 9q exhibits good oral bioavailability in rats and dogs as well as efficacy following an oral 10 mg/kg dose in dogs. Solution and solid phase protocols for the synthesis of tetrazole based GHS have been developed.     

Clinical and experimental effects of growth hormone secretagogues on various organ systems

A new class of growth hormone (GH) secretagogues (GHS) has been developed. In rats, the GHS hexarelin exerts cardioprotective effects. In humans, GHS increase growth velocity in children with short stature/GH deficiency. In adults, a combined infusion of GH releasing peptide-2 and thyrotropin releasing hormone increases circulating concentrations of GH as well as that of insulin-like growth factor-I. In healthy volunteers, oral GHS administration reverses diet-induced catabolism, and in healthy obese men, oral GHS treatment increases fat-free mass. However, little is known about the possible direct effects of GHS and there are few long-term studies. Therefore, it is not yet possible to fully evaluate the use of GHS.     

Immune enhancing effect of a growth hormone secretagogue

Growth hormone (GH) has been known to enhance immune responses, whether directly or through the insulin like growth factor-1, induced by GH. Recently a nonpeptidyl small m.w. compound, a GH secretagogue (GHS), was found to induce the production of GH by the pituitary gland. In this study, we examined the effect of GHS in immunological functions of 5- to 6-wk-old and 16- to 24-month-old mice. In young mice, we observed a significant increase in PBLs, but T and B cell-proliferative responses were not consistently enhanced. The old mice, treated with GHS for 3 wk, did not show increases in peripheral lymphocytes, but they exhibited a statistically significant increase in thymic cellularity and differentiation. When inoculated with a transplantable lymphoma cell line, EL4, the treated old mice showed statistically significant resistance to the initiation of tumors and the subsequent metastases. Generation of CTL to EL4 cells was also enhanced in the treated mice, suggesting that GHS has a considerable immune enhancing effect, particularly in the old mice. We have also found that GHS promoted better thymic engraftment in bone marrow transplant of SCID mice. We found more cycling cells in the spleens of treated mice, suggesting that GHS may exert its immune enhancing effect by promoting cell division in lymphoid cells. These observations ascribe to GHS a novel therapy possible for aging, AIDS, and transplant individuals, whose immune functions are compromised.     

生长激素促分泌素受体(GHS-R)的发现及影响

生长激素的分泌不仅受到GHRH、SRIF的调节 ,还受到GHS R及其配体GHS的作用。本文综述了GHS R的发现背景、结构特点以及生理功能 ,讨论了GHS R促GH分泌的分子机制及其对多种组织器官可能影响 ,同时还探讨了除Ia和Ib亚型外还存在其它GHS R亚型的可能性。     

A novel cDNA from Parthenium argentatum Gray enhances the rubber biosynthetic activity in vitro

Natural rubber (cis-1,4-polyisoprene) is an isoprenoid compound produced exclusively in plants by the action of rubber transferase. Despite a keen interest in revealing the mechanisms of rubber chain elongation and chain length determination, the molecular nature of rubber transferase has not yet been identified. A recent report has revealed that a 24 kDa protein tightly associated with the small rubber particles of Hevea brasiliensis, therefore designated small rubber particle protein (SRPP), plays a positive role in rubber biosynthesis. Since guayule (Parthenium argentatum Gray) produces natural rubber similar in size to H. brasiliensis, it is of critical interest to investigate whether guayule contains a similar protein to the SRPP. A cDNA clone has been isolated in guayule that shares a sequence homology with the SRPP, thus designated guayule homologue of SRPP (GHS), and the catalytic function of the protein was characterized. Sequence analysis revealed that the GHS is highly homologous in several conserved regions to the SRPP (50% identity). In vitro functional analysis of the recombinant protein overexpressed in E. coli revealed that the GHS plays a positive role in isopentenyl diphosphate incorporation into high molecular weight rubbers as SRPP does. These results indicate that guayule and Hevea rubber trees contain a protein that is similar in its amino acid sequence and plays a role in isopentenyl diphosphate incorporation in vitro, implying that it contributes to the enhancement of rubber biosynthetic activity in rubber trees.     

Signal transduction mechanism of the seabream growth hormone secretagogue receptor

We have recently cloned the full-length cDNAs of the two growth hormone secretagogue receptor (GHSR) subtypes from a teleost species, the black seabream (Acanthopagrus schlegeli) [Mol. Cell. Endocrinol. 214 (2004) 81], namely sbGHSR-1a and sbGHSR-1b. Functional expression of these two receptor constructs in human embryonic kidney 293 (HEK293) cells indicated that stimulation of sbGHSR-1a by growth hormone secretagogues (GHS) could evoke increases in intracellular Ca2+ concentration ([Ca2+]i), whereas sbGHSR-1b appeared to play an inhibitory role on the signal transduction activity of sbGHSR-1a. In the present study, we have further investigated the signal transduction mechanism of sbGHSR-1a. The peptide GHS GHRP-6 and the non-peptide GHS L163,540 were able to trigger a receptor specific and phospholipase C (PLC)-dependent elevation of [Ca2+]i in HEK293 cells stably expressing sbGHSR-1a. This GHS-induced calcium mobilization was also dependent on protein kinase C activated L-type calcium channel opening. It was found that sbGHSR-1a could function in an agonist-independent manner as it exhibited a high basal activity of inositol phosphate production in the absence of GHS, indicating that the fish receptor is constitutively active. In addition, the extracellular signal-regulated kinases 1 and 2 (ERK1/2) were found to be activated upon stimulation of sbGHSR-1a by GHRP-6. This observation provides direct evidence in the coupling of sbGHSR-1a to ERK1/2 activation. Neither Gs nor Gi proteins are coupled to the receptor, as GHS did not induce cAMP production nor inhibit forskolin-stimulated cAMP accumulation in the sbGHSR-1a bearing cells. Furthermore, the ability of the GHSR antagonist D-Lys3-GHRP-6 to inhibit basal PLC and basal ERK1/2 activity suggests that this compound is an inverse agonist. In summary, the sbGHSR-1a appears to couple through the G(q/11)-mediated pathway to activate PLC, resulting in increased IP3 production and Ca2+ mobilization from both intracellular and extracellular stores. Moreover, sbGHSR-1a may trigger multiple signal transduction cascades to exert its physiological functions.     

Trp3, Arg5]-ghrelin(1-5) stimulates growth hormone secretion and food intake via growth hormone secretagogue (GHS) receptor

Ghrelin, a 28 amino acid peptide identified as an endogenous ligand for growth hormone secretagogue (GHS) receptor, stimulates food intake and growth hormone (GH) secretion. We designed low molecular weight peptides with affinity for the GHS receptor based on the primary structure of ghrelin. We found that [Trp3, Arg5]-ghrelin(1-5) (GSWFR), a novel pentapeptide composed of all L-amino acids, had affinity for the GHS receptor (IC50 = 10 microM). GSWFR stimulated GH secretion after intravenous or oral administration. Centrally administered GSWFR increased food intake in non-fasted mice. The orexigenic action of GSWFR was inhibited by a GHS receptor antagonist, [D-Lys3]-GH-releasing peptide-6, suggesting that GSWFR stimulated food intake through the GHS receptor. The orexigenic action of GSWFR was also inhibited by a neuropeptide Y (NPY) Y1 receptor antagonist, BIBO3304. These results suggest that the GSWFR-induced feeding is mediated by the NPY Y1 receptor.     

Ki-67 antibody immunostaining in benign and malignant human prostatic disease.

Indices of mitotic potential may improve prognostic discrimination in patients with malignant disease. Ki-67 is a monoclonal antibody directed against an unknown proliferation antigen which has been shown to be a measure of mitotic potential. Sixty-four benign and eighty malignant prostatic biopsies were stained with the Ki-67 antibody. Nuclear and cytoplasmic staining was identified in benign and malignant biopsies using immunoalkaline phosphatase and immunoperoxidase staining reactions. Nuclear staining was identified in 14 benign and 44 malignant biopsies. Nuclear staining for Ki-67 was seen in 36% of biopsies with Gleason histological score (GHS) 2-4, 71% with GHS 5-7 and 62% with GHS 8-10. Nuclear staining was associated with advanced local disease stage, but not with metastatic disease stage. Clinical follow-up is required to establish the value of Ki-67 immunostaining as a prognostic determinant in prostatic cancer.     

SYNTHESIS,HYDROLYSIS AND ANTI-EBV ACTIVITY OF A SERIES OF 3′-MODIFIED cycloSal-BVDUMP PRONUCLEOTIDES

A series of cycloSal-BVDUMP phosphate triesters has been prepared. The prototype compound was 3-methyl-cycloSal-BVDUMP 2. Furthermore, a series of 3′-O-acyl-modified derivatives having carboxylic acids with different lipophilicity or a L-configurated α-amino acid (phenylalanine) was prepared. The hydrolysis properties in phosphate buffer PBS as well as in PBS containing pig liver esterase (PLE) will be described. Finally, the biological activity against EBV has been determined.     

Some novel approaches to the design and synthesis of peptide-catecholamine conjugates

A series of novel, functionalized catecholamines (congeners) has been synthesized in which, formalistically, the N-isopropyl group of isoproterenol has been extended by a linear alkyl chain of varying length, terminated by a carboxyl group. Model amide derivatives have also been prepared in order to optimize the biological activity of these derivatives and also to aid in the design of appropriate peptides for the synthesis of conjugates. As a result of these studies, a series of amino acid and monodisperse peptide carriers, containing p-aminophenylalanine as the point of attachment for the drug, was prepared, together with the corresponding conjugates. In vitro and in vivo evaluation of the congeners, model amides, and conjugates has demonstrated that the biological activity of these derivatives is extremely sensitive to structural modifications at a point far-removed from the pharmacophore, in both the congener amide and conjugate series. A number of the model amides and conjugates have proven to be highly active when tested in both in vitro and in vivo test systems. The implications of these results in terms of a novel structure–activity approach to drug design are discussed.