The role of PYY in regulating energy balance and glucose homeostasis

Boey, Dana, School of Medicine, UNSW

January 2007

Peptide YY (PYY) is a gut-derived hormone that is renowned for its effects on satiety. Reduced satiety in obese people has been attributed to low fasting and postprandial PYY levels. However, it has not been determined whether low PYY levels are the cause or the outcome of obesity. Moreover, the long-term role of PYY in regulating energy balance is unclear. Results presented in this thesis, using PYY-deficient mice (PYY-/-) and PYY transgenic mice (PYYtg) highlight that PYY indeed has an important role in regulating energy balance and glucose homeostasis in vivo. PYY knockout mice became obese with ageing or high-fat feeding linked to a hyperinsulinemic phenotype associated with hypersecretion of insulin from isolated pancreatic islets. These findings suggested that PYY deficiency may be a predisposing factor for the development of obesity and type 2 diabetes. On the other hand, PYYtg mice exhibited decreased adiposity and increased metabolism under high-fat feeding. Furthermore, PYYtg/ob mice had improved glucose tolerance and decreased adiposity. These latter studies suggested that high circulating PYY levels may protect against the development of obesity and type 2 diabetes. Interestingly, both animal models support PYY as an important regulator of the somatotropic axis. These preliminary findings prompted investigations in understanding whether low PYY levels may be a predisposing factor for the development of obesity and type 2 diabetes in human subjects. In a population of healthy human subjects that had a predisposition to the development of type 2 diabetes and obesity, fasting PYY levels were lower than in normal subjects. Moreover, low fasting PYY levels strongly correlated with decreased insulin sensitivity and high levels of fasting insulin. Collectively, these findings suggest that low circulating levels of PYY could contribute to increased adiposity, insulin resistance and type 2 diabetes. Therefore determination of PYY levels may be a method of detecting whether people are predisposed to becoming obese and insulin resistant. This work also suggests that treatments that enhance circulating PYY levels may be protective in the development of obesity and type 2 diabetes.

Peptides -- Analysis.

Obesity -- Animal models.

Neuropeptides.

Homeostatis.

Molecular Profiling and Imaging of Peptides, Proteins and Drugs in Biological Tissue using Mass Spectrometry

Nilsson, Anna

January 2008

Biological functions within cells and organisms are mainly carried out by the translational products; proteins and peptides. The analysis and characterization of these biomolecules are of great importance for the progress in disease research and biomarker and drug discovery. The term peptidomics was introduced to describe the comprehensive analysis of peptides (e.g. neuropeptides) in biological tissues. In this thesis, a peptidomics approach using nanoflow liquid chromatography coupled to electrospray mass spectrometry (MS) has been developed for detection, identification, and quantification of neuropeptides in different disease models. A thoroughly controlled sample preparation technique and targeted neuropeptide sequence collections have been used to improve sample quality and to increase the number of identified neuropeptides. In particular, neuropeptide changes in experimental models of Parkinson’s disease (PD), with or without L-DOPA treatment, and the effect of antidepressant treatment on neuropeptide expression have been investigated. Several novel, potentially bioactive, neuropeptides have been identified and a number of peptides derived from precursors such as secretogranin-1, preproenkephalin-B, and somatostatin have been found differentially expressed. Some of them represent novel findings, not previously associated with PD or treatment with antidepressants. In addition, MALDI imaging MS (IMS), a technology that permits detection and spatial distribution determination of endogenous compounds and/or administered drugs directly on tissue sections, has been used in both small protein and drug applications. MALDI IMS on tissue samples from experimental models of PD revealed differential expression patterns of two small proteins involved in calcium regulation, PEP-19 and FKBP-12. Biomolecular interaction analysis was performed on FKBP-12 using surface plasmon resonance together with MS and several potential binding partners were identified. In a second approach, MALDI IMS was used to study the distribution of the anticholinergic bronchodilator tiotropium in rat lung following inhalation of the drug. The distribution of the drug was monitored in both MS and MS/MS mode and the levels where linearly quantifiable in the range of 80 fmol – 5 pmol. Conclusively, in this thesis mass spectrometry based technologies have successfully been developed to detect, identify, and characterize small proteins, peptides, and drugs in various tissue samples.

peptidomics

mass spectrometry

liquid chromatography

MALDI imaging

neuropeptides

drugs

brain

Pharmacology

Farmakologi

Estrogen-inducible neuropeptides in the rat brain: role in focal ischemic lesions

Theodorsson, Annette

January 2005

Sex steroids in general and estrogens in particular – in addition to their effects on the reproductive organs – affect a large number of crucial bodily functions, including “higher” brain functions. Neuropeptides constitute the phylogenetically oldest neurotransmitter system and are currently thought to act mainly during stress, disease or injury. The concentration of galanin is i.a. up-regulated by injury to the nervous system and by estrogen. The main focus of the present thesis was to investigate whether the reported neuroprotective effect of 17β-estradiol in experimental animal stroke models is partially mediated through its effects on galanin and if galanin per se exerts neuroprotective effects in stroke. An exploratory study of the effects of sex steroid concentrations due to gender and pubertal development showed differences in concentrations of i.a. the neuropeptides galanin and neuropeptide Y also in brain regions of female rats important for higher brain functions, including hippocampus and cortex, brain regions not directly involved in reproduction. Puberty brings about changes in several hormonal mechanisms, and our studies showed that the major effect on the concentrations of galanin in various brain regions of ovariectomized (ovx) rats, was brought about by 17β-estradiol. The pathophysiological mechanisms involved in thrombolysis – the current treatment of choice in human stroke – attempts the re-establishment of perfusion (reperfusion) to the lesioned area of the brain. This prompted us to develop a reperfusion stroke model in rats designed to be mild, focal and transient, allowing long-term observation periods of animals thriving well postoperatively. Mortality and morbidity during and after the middle cerebral artery (MCA) occlusion are important confounding factors crucial for the results. Changing anaesthesia from intraperitoneally administered chloral hydrate to isofl urane inhalation anaesthesia using endotracheal intubation and controlled ventilation markedly reduced the mortality rate from 25% to 10.6%, which was even further reduced down to 2.7 % by successively improved surgical skills. Contrary to our initial hypothesis, long-term 17β-estradiol treatment resulted in larger ischemic lesions in our stroke model compared to control treatment. After 3 days the cerebral ischemic lesion area was doubled after 17β-estradiol treatment in rats subjected to 60 min microclip occlusion of the MCA followed by reperfusion. A similar, but not statistically signifi cant difference was found after 7 and 14 days. Three groups studying different types of experimental animal stroke and different doses of 17β-estradiol treatment have recently also demonstrated lack of neuroprotection by 17β-estradiol treatment. Furthermore, large epidemiological clinical studies have recently also reported an increased risk and poorer outcome in postmenopausal women subjected to hormone replacement therapy. The concentrations of galanin-like immunoreactivity in extracts of punch biopsies from the penumbra area after transient MCA occlusion were found unchanged, but were decreased (p=0.015) in the apparently undamaged ipsilateral hippocampus. Galanin administered by continuous intracerebroventricular infusion (2.4 nmol/day) resulted in a 30% larger ischemic lesion compared to controls, measured 7 days after the MCA occlusion. Taken together, these results indicate that galanin in the brain is primarily a factor reacting to ischemic injury rather than a neuroprotective factor in its own right. Very limited information is available about the steady state serum concentrations of 17β-estradiol in response to different modes of administration to rats for days and weeks. The need for this information has become especially apparent during recent years due to the observable dichotomy of estrogens effects – neuroprotective or not – in the various animal models of brain ischemia reported in the current scientific literature. The cause of this dichotomy is likely to be found in the experimental setup, including the mode of administration of 17β-estradiol. Delayed steady state of serum 17β-estradiol concentrations were found when comparing two common modes of exogenous administration of 17β-estradiol – slow-release osmotic pumps vs. daily subcutaneously injections of 17β-estradiol solved in sesame oil – to ovx rats during 2 times 6 weeks crossover treatment. Steady state was reached at week 4 in the daily injections group compared to at week 6 in the slow release osmotic pumps group. Once steady state was reached, the concentration was the same in both groups for the reminder of the experiment (in total 12 weeks). / On the day of the public defence of the doctoral thesis, the status of article V was: Available on line since 24th of May 2005.

Estrogen

neuropeptides

galanin

cerebral ischemia

middle cerebral artery occlusion

Neurochemistry

Neurokemi

The neuropeptide VIP and the IL-6 family of cytokines in bone : effects on bone resorption, cytokine expression and receptor signalling in osteoblasts and bone marrow stromal cells

Persson, Emma

January 2005

Bone tissue is continuously degraded and rebuilt to respond to the needs of the body. Cells of the osteoblast lineage are responsible for the formation of bone, whereas the resorption of bone tissue is carried out by osteoclasts. To prevent imbalance between bone formation and resorption, these processes are delicately regulated by a complex network of both systemic factors and factors produced locally in the bone microenvironment, including members of the IL-6 family of cytokines. During the last decades, the presence of nerve fibers in skeletal tissue and presence of receptors for several neurotransmitters on both osteoblasts and osteoclasts, have suggested a possible role for neuropeptides in the regulation of skeletal metabolism. The overall aim of this study was to investigate the roles of cytokines in the IL-6 family and the neuropeptide VIP in regulation of osteotropic cytokine expression and bone metabolism in vitro. In Paper I, stimulation of bone resorption by the cytokine IL-6, in the presence of its soluble receptor sIL-6R, was demonstrated in mouse calvarial bones. OSM and LIF, other members of the IL-6 family of cytokines, were also shown to increase bone resorption. Furthermore, IL-6+sIL-6R, LIF, and OSM increased the expression of RANKL, which by binding to its receptor RANK functions as a crucial inducer of osteoclast formation and activation. In Paper II-IV, the effects of the neuropeptide VIP and related peptides on expression of osteotropic cytokines by osteoblasts and bone resorption in vitro have been studied. VIP and PACAP-38 both increased IL-6 production in osteoblasts in a time- and concentration-dependent manner. In contrast, no effect was seen with the related peptide secretin, indicating that the effects were mediated by the VPAC2 receptor. VIP and PACAP, in contrast to secretin, also induced IL-6 promoter activity in osteoblastic MC3T3-E1 cells transfected with an IL-6 promoter/luciferase construct. The effects of VIP on IL-6 were shown to be mediated by several intracellular pathways, including cAMP/PKA/CREB, AP-1, and C/EBP, but not NF-kB or the cAMP-activated Epac pathway. The release of IL-6 from osteoblasts was increased by several pro-inflammatory osteotropic cytokines, including interleukin-1b, an effect that was further potentiated by VIP, indicating a possible neuro-immunomodulatory interaction in the regulation of bone metabolism. VIP and PACAP-38 also increased the osteoblastic expression of RANKL and decreased the expression of OPG and M-CSF, factors crucial in regulation of differentiation and activation of osteoclasts. Although this indicated a possible bone resorptive effect, VIP was found to decrease osteoclast formation and bone resorption by directly targeting osteoclast progenitor cells through an inhibitory mechanism. In conclusion, the results in this thesis indicate that several cytokines in the IL-6 family stimulate bone resorption in calvarial bones in vitro, most likely through the RANKL-RANK interaction. Furthermore, expression of the osteotropic cytokine IL-6 in osteoblasts is stimulated by the neuropeptide VIP through VPAC2 receptors via several intracellular pathways, further strengthening the role of neuropeptides as local regulators of bone metabolism.

osteoblast

bone resorption

cytokines

IL-6

neuropeptides

VIP

transcription factor

Cell biology

Cellbiologi

The neuronal and non-neuronal substance P, VIP and cholinergic systems in the colon in ulcerative colitis

Jönsson, Maria

January 2009

Ulcerative colitis (UC) is a chronic relapsing inflammatory bowel disease. Neuropeptides, especially vasoactive intestinal peptide (VIP) and substance P (SP), have long been considered to play key roles in UC. Among other effects, these neuropeptides have trophic and growth-modulating as well as wound-healing effects. Furthermore, whilst VIP has anti-inflammatory properties, SP has pro-inflammatory effects. It is generally assumed that the main source of SP and VIP in the intestine is the tissue innervation. It is not known whether or not they are produced in the epithelial layer. The details concerning the expressions of their receptors in UC are also, to a great extent, unclear. Apart from the occurrence of peptidergic systems in the intestine, there are also neuronal as well as non-neuronal cholinergic systems. The pattern concerning the latter is unknown with respect to UC. The studies in this thesis aimed to investigate the expression of SP and VIP and their major receptors (NK-1R and VPAC1) in UC colon, compared to non-UC colon. The main emphasis was devoted to the epithelium. A second aim was to examine for levels of these neuropeptides in blood plasma in UC. Another aim was to examine for the non-neuronal cholinergic system in UC, thus, to investigate whether there is acetylcholine production outside nerves in the UC colon. Methods used in the thesis were immunohistochemistry, in situ hybridization, enzyme immunosorbent assay, and in vitro receptor autoradiography. For the first time, mRNA for VIP and SP has here been found in the colonic epithelium. That was especially noted in UC mucosa showing a rather normal morphology, and in non-UC mucosa. Marked derangement of the mucosa was found to lead to a distinct decrease in VIP binding, and also a decrease in the expression level of VIP receptor VPAC1 in the epithelium. In general, there was an upregulation of the SP receptor NK-1R in the epithelium when the mucosa was deranged. The plasma levels of SP and VIP were higher for UC patients compared to healthy controls. There were marked correlations between the levels of the peptides in plasma, their levels in the mucosa and the degree of mucosal derangement/inflammation. A pronounced nonneuronal cholinergic system was found in both UC and non-UC colon. Certain changes occurred in this system in response to inflammation/derangement in UC. The present study shows unexpectedly that expressions for VIP and SP are not only related to the nerve structures and the inflammatory cells. The downregulation of VPAC1 expression, and the tendencies of upregulation of NK-1R expression levels when there is marked tissue derangement, may be a drawback for the intestinal function. The study also shows that there is a marked release of neuropeptides to the bloodstream in parallel with a marked derangement of the mucosa in UC. The cholinergic effects in the UC colon appear not only to be associated with nerverelated effects, but also effects of acetylcholine produced in local non-neuronal cells. The thesis shows that local productions for not only acetylcholine, but also SP and VIP, occur to a larger extent than previously considered.

ulcerative colitis

neuropeptides

substance P

VIP

non-neuronal cholinergic system

Anatomy

Anatomi

Surgery

Kirurgi

Influences of paratendinous innervation and non-neuronal substance P in tendinopathy : studies on human tendon tissue and an experimental model of Achilles tendinopathy

Andersson, Gustav

January 2010

Pain of the musculoskeletal system is one of the most common reasons for people seeking medical attention, and is also one of the major factors that prevent patients from working. Chronic tendon pain, tendinopathy, affects millions of workers world-wide, and the Achilles tendon is an important structure often afflicted by this condition. The pathogenesis of tendinopathy is poorly understood, but it is thought to be of multifactoral aetiology. It is known that tendon pain is often accompanied not only by impaired function but also by structural tissue changes, like vascular proliferation, irregular collagen organisation, and hypercellularity, whereby the condition is called tendinosis. In light of the poor knowledge of tendinosis pathophysiology and recent findings of a non-neuronal signalling system in tendon tissue, the contributory role of neuropeptides such as substance P (SP) has gained increased interest. SP, known for afferent pain signalling in the nervous system, also has multiple efferent functions and has been described to be expressed by non-neuronal cells. As pain is the most prominent symptom of tendinopathy, the focus of the studies in this thesis was the innervation patterns of the tissue ventral to the Achilles tendon (i.e. the tissue targeted in many contemporary treatment methods) as well as the distribution of SP and its preferred receptor, the neurokinin-1 receptor (NK-1R), in the tendon tissue itself. It was hereby hypothesised that the source of SP affecting the Achilles tendon might be the main cells of the tendon tissue (the tenocytes) as well as paratendinous nerves, and that SP might be involved in tendinosis- development. The studies were conducted, via morphological staining methods including immunohistochemistry and in situ hybridisation, on tendon biopsies from patients suffering from Achilles tendinosis and on those from healthy volunteers. The hypothesis of the thesis was furthermore tested using an experimental animal model (rabbit) of Achilles tendinopathy, which was first validated. The model was based on a previously established overuse protocol of repetitive exercise. In the human biopsies of the tissue ventral to the Achilles tendon, there was a marked occurrence of sympathetic innervation, but also sensory, SP-containing, nerve fibres. NK-1R was expressed on blood vessels and nerve fascicles of the paratendinous tissue, but also on the tenocytes of the tendon tissue proper itself, and notably more so in patients suffering from tendinosis. Furthermore, the human tenocytes displayed not only NK-1R mRNA but also mRNA for SP. The animal model was shown to produce objectively verified tendinosis-like changes, such as hypercellularity and increased vascularity, in the rabbit Achilles tendons, after a minimum of three weeks of the exercise protocol. The contralateral leg of the animals in the model was found to be an unreliable control, as bilateral changes occured. The model furthermore demonstrated that exogenously administered SP triggers an inflammatory response in the paratendinous tissue and accelerates the intratendinous tendinosis-like changes such that they now occur after only one week of the protocol. Injections of saline as a control showed similar results as SP concerning hypercellularity, but did not lead to vascular changes or pronounced paratendinous inflammation. In summary, this thesis concludes that interactions between the peripheral sympathetic and sensory nervous systems may occur in Achilles tendinosis at the level of the ventral paratendinous tissue, a region thought to be of great importance in chronic tendon pain since many successful treatments are directed toward it. Furthermore, the distribution of NK-1R:s in the Achilles tendon described in these studies gives a basis for SP, whether produced by nerves mainly outside the tendon or by tenocytes within the tendon, to affect blood vessels, nerve structures, and/or tendon cells, especially in tendinosis patients. In light of this and of previously known SP-effects, such as stimulation of angiogenesis, pain signalling, and cell proliferation, the proposed involvement of SP in tendinosis development seems likely. Indeed, the animal model of Achilles tendon overuse confirms that SP does induce vascular proliferation and hypercellularity in tendon tissue, thus strengthening theories of SP playing a role in tendinosis pathology.

Achilles tendon

tendinopathy

tendinosis

paratenon

innervation

substance P

neuropeptides

neurokinin-1 receptor

Anatomy

Anatomi

Design, synthesis, kinetic analysis, molecular modeling, and pharmacological evaluation of novel inhibitors of peptide amidation

Foster, Michael Scott

18 November 2008

Novel, rationally-designed acrylate analogs of various known dipeptide substrates were found to be mechanism-based inactivators of the enzyme peptidylglycine alpha-amidating monooxygenase (PAM, EC 1.14.17.3). This enzyme is responsible for the rate-limiting and final bioactivation step, a C-terminal amidation of glycine-extended peptides, of a variety of peptide hormones including the potent pro-inflammatory compound Substance P. Protein-ligand docking studies, in tandem with in vitro kinetic analysis of these inactivators, indicated that the rational design of this class of compounds was successful in creating potent competitive inactivators of this enzyme. Pharmacological evaluation, via both acute and chronic models of inflammation in Sprague-Dawley rats, of these compounds indicates that they are highly potent anti-inflammatory agents which ameliorate both acute carrageenan-induced edema and the deleterious effects of chronic adjuvant-induced polyarthritis. Furthermore, these compounds were also able to induce a return toward a more normal phenotype in cancerous WB-Ras epithelial cells, via the interruption of the growth factor-stimulated pathway precipitated by Substance P. Finally, our modeling studies provide a structural basis for both the reaction and subsite stereospecificity of PAM toward its substrates, competitive inhibitors, and mechanism-based inactivators.

Molecular modeling

Stereochemistry

Molecules Models

Peptides

Chemical structure

Peptide hormones

Neuropeptides

Development of high-sensitivity atmospheric pressure (ap) matrix-assisted laser desorption/ionization (maldi) and open air ionization techniques for the analysis of biomolecules by mass spectrometry

Navare, Arti T.

29 March 2010

Matrix-assisted laser desorption/ionization (MALDI) has been celebrated as a soft ionization method for analyzing very diverse biological species including large proteins, peptides, carbohydrates, lipids and metabolites. The fact that MALDI is tolerant to salts and buffers and that it mostly produces singly charged ions from intact biomolecules is considered highly advantageous over electrospray ionization (ESI). Almost two decades after the introduction of vacuum MALDI, the technique was successfully implemented under atmospheric pressure (AP) conditions by Laiko and co-workers. Some of the most salient advantages of AP-MALDI over vacuum MALDI are its ability to generate intact ions from labile species with minimal fragmentation due to collisional cooling under AP, the ability of performing MSn experiments, and its exchangeability with other ion sources. However, AP-MALDI suffers from limited sensitivity due to low ion transmission efficiency under AP conditions. Because sensitivity is a function of the sample pretreatment method of choice, both preconcentration and selective sample fractionation can be used during the initial stages of the analytical pipeline to improve detectability. To that end, the first part of the work presented in this thesis is aimed at investigating various approaches to improve the sensitivity of AP-MALDI for mass spectrometric analysis of biomolecules. Chapter 1 reviews the history of laser desorption ionization (LDI), presenting salient features of vacuum MALDI and AP-MALDI, and concludes with a brief overview of leading ambient ionization techniques, such as Direct Analysis in Real Time (DART) ionization. Chapter 2 presents an investigation of an on chip sample preconcentration approach coupled to AP-MALDI for high-sensitivity analysis of neuropeptides extracted from Aedes aegypti mosquito heads. The theme of exploring efficient and reproducible purification methods for complex biosamples is continued in Chapter 3, where an evaluation of new on-tip solid-phase extraction (SPE) micro columns with various functional groups is presented. A second approach for enhancing AP-MALDI sensitivity by constructing a new pneumatically-assisted (PA) AP-MALDI ion source is presented in Chapter 4, where various factors affecting the performance of this device are investigated. Chapter 5 describes work involving the evaluation of DART ionization as a high-throughput method for the detection and identification of small terpene molecules central to the Aedes aegypti mosquito lifecycle.

Sensitivity

Neuropeptides

Juvenile hormone

Farnesol

DART

LDI

AP-MALDI

Mass spectrometry

Quantification of neuropeptides in the central nervous system of the wobbler mouse during the progression of the motor neuron disease: a study by radioimmunoassay andimmunocytochemistry

翁建霖, Yung, Kin-lam, Ken.

January 1992

published_or_final_version / Anatomy / Master / Master of Philosophy

Mice - Physiology.

Central nervous system.

Neuropeptides.

Motor neurons - Diseases.

Radioimmunoassay.

Immunocytochemistry - Technique.

Genetic association of objective sleep phenotypes with a functional polymorphism in the neuropeptide S receptor gene

Spada, Janek, Sander, Christian, Burkhardt, Ralph, Häntzsch, Madlen, Mergl, Roland, Scholz, Markus, Hegerl, Ulrich, Hensch, Tilman

12 June 2014

Background: The neuropeptide S receptor (NPSR1) and its ligand neuropeptide S (NPS) have received increased attention in the last few years, as both establish a previously unknown system of neuromodulation. Animal research studies have suggested that NPS may be involved in arousal/wakefulness and may also have a crucial role in sleep regulation. The single nucleotide polymorphism (SNP) rs324981 in NPSR1 has begun to shed light on a function of the NPS-system in human sleep regulation. Due to an amino acid exchange, the T-allele leads to an increased sensitivity of the NPSR1. In the only genomewide association study to date on circadian sleep parameters in humans, an association was found between rs324981 and regular bedtime. However, the sleep parameters in this study were only measured by self-rating. Therefore, our study aimed to replicate these findings using an objective measure of sleep. Methods: The study included n = 393 white subjects (62–79 years) who participated in an actigraphic assessment for determining sleep duration, rest duration, sleep onset, rest onset and sleep onset latency. Genotyping of the SNP rs324981 was performed using the TaqMan OpenArray System. Results: The genotype at rs324981 was not significantly associated with rest onset (bedtime) or sleep onset (p = .146 and p = .199, respectively). However, the SNP showed a significant effect on sleep- and rest duration (p = .007 and p = .003, respectively). Subjects that were homozygous for the minor T-allele had a significantly decreased sleep- and rest duration compared to A-allele carriers. Conclusion: The results of this study indicate that the sleep pattern in humans is influenced by the NPS-system. However, the previously reported association between bedtime and rs324981 could not be confirmed. The current finding of decreased sleep duration in T/T allele carriers is in accordance with studies in rodents reporting similar results after NPS application.

Schlafstörungen

ältere Personen

Neuropeptide

Nucleus arcuatus

Sleep disorders; Elderly

Neuropeptides; Arcuate nucleus

ddc:610