Substance P Endopeptidase : Purification and Characterizataion of Enzyme Activity and Evaluation of its Function during Stressful Condition

Karlsson, Krister

January 2004

<p>The purification and biochemical characterization of the substance P (SP) hydrolyzing enzyme, substance P endopeptidase (SPE), have been carried out; with subsequent orientation in neurobiological fundamental processes involved in opioid dependence, withdrawal, and heat-stress.</p><p>SPE was purified from rat spinal cord, human spinal cord and cerebrospinal fluid (CSF), rat ventral tegemental area (VTA), and rat hippocampus. The enzyme activity was found to release the biologically active fragments SP(1-7) and SP(1-8) as major products. The purified enzymes were characterized with regard to their biochemical and kinetic properties. The typical SPE is neither inhibited by phosphoramidon nor captopril nor phenylmethanesulfonylflourid (PMSF). In comparison to other known proteases SPE differed in characteristics regarding substrate specificity, inhibition-profile, cleavage pattern, and other kinetic parameters. The technically very delicate approach of micro purification of SPE from the rat ventral tegemental area (VTA) (this is a very small tissue), turned out to be possible with the ÄKTA™-purifier system. Studies revealed a crucial role of SPE in a series of clinically important neuropathological conditions, such as opioid tolerance, and withdrawal (SPE, increased); and heat-stress (SPE, increased). These findings emerged from assessment of enzyme activity in hypothalamus, nucleus accumbens (NAc) periaqueductal gray (PAG), pituitary, striatum, substantia nigra (SN), VTA, spinal cord. Viewing the role of SPE in morphine tolerance, it was possible to note regional differences with a decrease in PAG, and striatum, whereas an increase was seen in SN, and VTA. After heat-stress treatment, SPE was raised in several regions (cerebral cortex, hippocampus, diencephalon, cerebellum, spinal cord), and the most precise observation of this was located to the hippocampus structure.</p>

Pharmacology

Substance P Endopeptidase

Neuropeptide

Central Nervous System

Purification

Drug Dependence

Heat Stress

Farmakologi

Pharmacological research

Farmakologisk forskning

Megalin, an Endocytotic Receptor with Signalling Potential

Larsson, Mårten

January 2006

<p>Megalin is an endocytotic receptor belonging to the low-density lipoprotein family. It has often been viewed only as merely a scavenger receptor of absorptive and secretory epithelia. Recent work has revealed that the megalin intracellular domain contains several motifs potentially binding proteins involved in signal transduction. </p><p>To find potential intracellular proteins binding to megalin, a yeast two-hybrid screening was initiated with the intracellular tail of megalin as the bait. A partial clone encoding the scaffolding protein postsynaptic protein 95 (PSD-95) was found to bind to megalin with its second PDZ-domain. Co-localization experiments in HEK-293 cells and kidney, placenta and parathyroid tissue confirmed this interaction. The PSD-95 related proteins PSD-93 and SAP102 were also confirmed to bind megalin with their PDZ2-domains, but the corresponding domain from SAP97 did not bind. Mutation analysis revealed that an amino acid residue change Ala to Thr was the cause of this.</p><p>Megalin has within the central nervous system (CNS) been shown to be expressed only in the ependymal cells and choroid plexus. Nothing has been known about megalin expression in the spinal cord. To study spatio-temporal expression of megalin in the spinal cord, extensive staining of prenatal and postnatal mouse spinal cord was undertaken. Megalin expression was found in the dorsal part of the embryonic spinal cord. Most of these cells also expressed vimentin, suggesting that megalin has a role in the normal development of astrocytes. In the postnatal mouse, megalin seems to be expressed in oligodendrocytes only in the spinal cord white matter, and co-incident with myelination. This suggests that megalin is involved in the formation and maintenance of myelin along long spinal pathways. Megalin staining was clearly seen in the nucleus of these cells, indicating that megalin works in a notch-like signalling pathway.</p><p>Uptake of retinol to the retina pigment epithelium (RPE) has long been thought to be a diffusion process. Staining for megalin in RPE revealed strong expression, and uptake experiments with 3H-retinol bound to retinol-binding protein and blocking with the LDL-receptor family specific antagonist receptor-associated protein (RAP) showed that megalin is a receptor for uptake of retinol to the RPE.</p>

Biochemistry

Megalin

LRP-2

Postsynaptic density-95

Retinol-binding protein

Oligodendrocytes

Central nervous system

Biokemi

Biochemistry

Biokemi

Substance P Endopeptidase : Purification and Characterizataion of Enzyme Activity and Evaluation of its Function during Stressful Condition

Karlsson, Krister

January 2004

The purification and biochemical characterization of the substance P (SP) hydrolyzing enzyme, substance P endopeptidase (SPE), have been carried out; with subsequent orientation in neurobiological fundamental processes involved in opioid dependence, withdrawal, and heat-stress. SPE was purified from rat spinal cord, human spinal cord and cerebrospinal fluid (CSF), rat ventral tegemental area (VTA), and rat hippocampus. The enzyme activity was found to release the biologically active fragments SP(1-7) and SP(1-8) as major products. The purified enzymes were characterized with regard to their biochemical and kinetic properties. The typical SPE is neither inhibited by phosphoramidon nor captopril nor phenylmethanesulfonylflourid (PMSF). In comparison to other known proteases SPE differed in characteristics regarding substrate specificity, inhibition-profile, cleavage pattern, and other kinetic parameters. The technically very delicate approach of micro purification of SPE from the rat ventral tegemental area (VTA) (this is a very small tissue), turned out to be possible with the ÄKTA™-purifier system. Studies revealed a crucial role of SPE in a series of clinically important neuropathological conditions, such as opioid tolerance, and withdrawal (SPE, increased); and heat-stress (SPE, increased). These findings emerged from assessment of enzyme activity in hypothalamus, nucleus accumbens (NAc) periaqueductal gray (PAG), pituitary, striatum, substantia nigra (SN), VTA, spinal cord. Viewing the role of SPE in morphine tolerance, it was possible to note regional differences with a decrease in PAG, and striatum, whereas an increase was seen in SN, and VTA. After heat-stress treatment, SPE was raised in several regions (cerebral cortex, hippocampus, diencephalon, cerebellum, spinal cord), and the most precise observation of this was located to the hippocampus structure.

Pharmacology

Substance P Endopeptidase

Neuropeptide

Central Nervous System

Purification

Drug Dependence

Heat Stress

Farmakologi

Pharmacological research

Farmakologisk forskning

Megalin, an Endocytotic Receptor with Signalling Potential

Larsson, Mårten

January 2006

Megalin is an endocytotic receptor belonging to the low-density lipoprotein family. It has often been viewed only as merely a scavenger receptor of absorptive and secretory epithelia. Recent work has revealed that the megalin intracellular domain contains several motifs potentially binding proteins involved in signal transduction. To find potential intracellular proteins binding to megalin, a yeast two-hybrid screening was initiated with the intracellular tail of megalin as the bait. A partial clone encoding the scaffolding protein postsynaptic protein 95 (PSD-95) was found to bind to megalin with its second PDZ-domain. Co-localization experiments in HEK-293 cells and kidney, placenta and parathyroid tissue confirmed this interaction. The PSD-95 related proteins PSD-93 and SAP102 were also confirmed to bind megalin with their PDZ2-domains, but the corresponding domain from SAP97 did not bind. Mutation analysis revealed that an amino acid residue change Ala to Thr was the cause of this. Megalin has within the central nervous system (CNS) been shown to be expressed only in the ependymal cells and choroid plexus. Nothing has been known about megalin expression in the spinal cord. To study spatio-temporal expression of megalin in the spinal cord, extensive staining of prenatal and postnatal mouse spinal cord was undertaken. Megalin expression was found in the dorsal part of the embryonic spinal cord. Most of these cells also expressed vimentin, suggesting that megalin has a role in the normal development of astrocytes. In the postnatal mouse, megalin seems to be expressed in oligodendrocytes only in the spinal cord white matter, and co-incident with myelination. This suggests that megalin is involved in the formation and maintenance of myelin along long spinal pathways. Megalin staining was clearly seen in the nucleus of these cells, indicating that megalin works in a notch-like signalling pathway. Uptake of retinol to the retina pigment epithelium (RPE) has long been thought to be a diffusion process. Staining for megalin in RPE revealed strong expression, and uptake experiments with 3H-retinol bound to retinol-binding protein and blocking with the LDL-receptor family specific antagonist receptor-associated protein (RAP) showed that megalin is a receptor for uptake of retinol to the RPE.

Biochemistry

Megalin

LRP-2

Postsynaptic density-95

Retinol-binding protein

Oligodendrocytes

Central nervous system

Biokemi

Biochemistry

Biokemi

Biomechanics and electrophysiology of sensory regulation during locomotion in a novel in vitro spinal cord-hindlimb preparation

Hayes, Heather Brant

18 October 2010

The purpose of this dissertation was to gain insight into spinal sensory regulation during locomotion. To this end, I developed a novel in vitro spinal cord-hindlimb preparation (SCHP) composed of the isolated in vitro neonatal rat spinal cord oriented dorsal-up with intact hindlimbs locomoting on a custom-built treadmill or instrumented force platforms. The SCHP combines the neural and pharmacological accessibility of classic in vitro spinal cord preparations with intact sensory feedback from physiological hindlimb movements. thereby expanding our ability to study spinal sensory function. I then validated the efficacy of the SCHP for studying behaviorally-relevant, sensory-modulated locomotion by showing the impact of sensory feedback on in vitro locomotion. When locomotion was activated by serotonin and N-methyl D-aspartate, the SCHP produced kinematics and muscle activation patterns similar to the intact rat. The mechanosensory environment could significantly alter SCHP kinematics and muscle activitation patterns, showing that sensory feedback regulates in vitro spinal function. I further demonstrated that sensory feedback could reinforce or initiate SCHP locomotion. Using the SCHP custom-designed force platform system, I then investigated how presynaptic inhibition dynamically regulates sensory feedback during locomotion and how hindlimb mechanics influence this regulation. I hypothesized that contralateral limb mechanics would modulate presynaptic inhibition on the ipsilateral limb. My results indicate that contralateral limb stance-phase loading regulates ipsilateral swing-phase sensory inflow. As contralateral stance-phase force increases, contralateral afferents act via a GABAergic pathway to increase ipsilateral presynaptic inhibition, thereby inhibiting sensory feedback entering the spinal cord. Such force-sensitive contralateral presynaptic inhibition may help preserve swing, coordinate the limbs during locomotion, and adjust the sensorimotor strategy for task-specific demands. This work has important implications for sensorimotor rehabilitation. After spinal cord injury, sensory feedback is one of the few remaining inputs available for accessing spinal locomotor circuitry. Therefore, understanding how sensory feedback regulates and reinforces spinally-generated locomotion is vital for designing effective rehabilitation strategies. Further, sensory regulation is degraded by many neural insults, including spinal cord injury, Parkinson's disease, and stroke, resulting in spasticity and impaired locomotor function. This work suggests that contralateral limb loading may be an important variable for restoring appropriate sensory regulation during locomotion.

Spinal cord

Sensory feedback

Presynaptic inhibition

Locomotion

Motor control

Central pattern generator

Presynaptic receptors

Neurotransmitter receptors

Central nervous system

Characterization of a sacral dorsal column pathway activating autonomic and hindlimb motor pattern generation

Anderson, JoAnna Todd

10 November 2011

Spinal cord injuries (SCI) sever communication between supraspinal centers and the central pattern generator (CPG) responsible for locomotion. Because the CPG is intact and retains the ability to initiate locomotor activity, it can be accessed electrically and pharmacologically. The goal of this thesis was to identify and characterize a novel spinal cord surface site along the sacral dorsal column (sDC) for electrically evoking locomotor-like activity in the neonatal rat spinal cord. Stimulation of the sDC robustly activated rhythmic left-right alternation in flexor-related ventral roots that was dependent on the activation of high-threshold C fiber afferents. The C fibers synapsed onto spinal neurons, which project to the lumbar segments as part of a pathway dependent on purinergic, adrenergic, and cholinergic receptor activation. In ventral roots containing only somatic efferents, rhythmic activity was rarely recruited. However, in ventral roots containing both autonomic and somatic efferents, sacral dorsal column stimulation recruited autonomic efferent rhythms, which subsequently recruited somatic efferent motor rhythms. The efferent rhythms revealed a half-center organization with very low stimulation frequencies, and the evoked alternating bursts entrained to the stimuli. Similar entrainment was seen when sDC stimuli were applied during ongoing neurochemically-induced locomotor rhythms. The rhythmic patterns evoked by sDC stimulation operated over a limited frequency range, with a discrete burst structure of fast-onset, frequency-independent peaks. In comparison, neurochemically-induced locomotor bursts operated over a wide frequency range and had slower time to peaks that varied with burst frequency. The overall findings support the discovery of an autonomic efferent pattern generator that is recruited by sacral visceral C fiber afferents. It is hoped that this research will advance the understanding of afferent activation of the lumbar central pattern generator and potentially provide insight useful for future development and design of neuroprosthetic devices.

Spinal cord

Central pattern generator

Electrical stimulation

Neuromodulation

Acetylcholine Receptors

Neural transmission

Neurotransmitters

Afferent pathways

Central nervous system

Neural stimulation

Platelet-Derived Growth Factor Enables Direct Derivation of Oligodendrocyte Progenitors from CNS Stem Cells

Rao, Rajesh Chalamalasetty

09 April 2008

Oligodendrocytes derived in the laboratory from stem cells have been proposed as a treatment for acute and chronic injury to the central nervous system (CNS). Platelet-derived growth factor-receptor alpha (PDGFRÑ)w signaling is known to play an important role for regulation of oligodendrocyte progenitor cell numbers both during development and adulthood. Here, we analyze the effect of PDGFRÑ signaling on CNS stem cells derived from embryonic day 13.5 murine cortex and cultured in monolayer. Fetal and adult CNS stem cells express PDGFRÑ, and PDGF-AA treatment increases viability and proliferation of these cells. In the absence of insulin, this effect of PDGF-AA is very clear. Consistent with this result, PDGF-AA strongly stimulates glycolytic rate. PDGF-AA treatment rapidly induces morphological changes in the cells although the cells maintain expression of a wide range of precursor markers. We show that a brief exposure to PDGF-AA rapidly and efficiently induces oligodendrocytes from CNS stem cells. Our data suggest that phosphoinositide kinase-3 (PI3K)/Akt, mitogen-activated protein/extracellular signal-regulated kinase kinase/extracellular signal-related kinase (MEK/Erk), mammalian target of rapamycin (mTOR) regulate survival, proliferation, glycolytic rate, and oligodendrogliogenesis induced by PDGF-AA. By treating with PDGF-AA, progenitor cells directly from embryonic cortex can be expanded and differentiated into oligodendrocytes with high efficiency. Our results show that PDGF-AA promotes oligodendrocyte progenitor generation from CNS stem cells and supports their survival and proliferation. The derivation of oligodendrocytes demonstrated here may support the safe and effective use of stem cells in the development of new therapies targeting this cell type.

receptors platelet-derived growth factor

injuries

central nervous system

humans

oligodendroglia

Μελέτη της επίδρασης της λιποκυτταροκίνης αντιπονεκτίνης στο κεντρικό νευρικό σύστημα

Ψηλοπαναγιώτη, Αριστέα

27 April 2009

Η αντιπονεκτίνη και οι υποδοχείς αντιπονεκτίνης, AdipoR1 και AdipoR2, αποτελούν συστατικά στοιχεία των ενεργειακών ομοιοστατικών μηχανισμών στους περιφερικούς ιστούς. Σύμφωνα με πρόσφατες μελέτες, η αντιπονεκτίνη φαίνεται, επιδρώντας σε κεντρικά νευρωνικά κυκλώματα, να συμμετέχει στη ρύθμισης πρόσληψης τροφής και κατανάλωσης ενέργειας. Σκοπός της παρούσας μελέτης ήταν η διερεύνηση της πιθανής έκφρασης και της κατανομής της αντιπονεκτίνης και των υποδοχέων της στην ανθρώπινη υπόφυση, στον υποθάλαμο και σε άλλες περιοχές του ανθρώπινου εγκεφάλου. Τομές υπόφυσης, υποθαλάμου και της παρακείμενης βασικής τηλεγκεφαλικής περιοχής, εγκεφαλικού φλοιού και παρεγκεφαλίδας μονιμοποιημένες σε ουδέτερη φορμόλη και εγκλεισμένες σε παραφίνη, από σαράντα περιστατικά, μελετήθηκαν ιστολογικά με τη χρήση ηωσίνης-αιματοξυλίνης, και των ειδικών χρώσεων PAS-orange G και luxol fast blue-cresyl violet. Εν συνεχεία, εφαρμόσθηκε απλή και διπλή ανοσοϊστοχημική μέθοδος, χρησιμοποιώντας ειδικά αντισώματα έναντι της αντιπονεκτίνης, του AdipoR1 και AdipoR2, της ακετυλομεταφοράσης της χολίνης, της FSH, LH, TSH, GH, ACTH και προλακτίνης. Ο μέσος όρος (± SD) ηλικίας και δείκτη μάζας σώματος (ΒΜΙ) των υπό εξέταση περιπτώσεων ήταν 56 (±18) έτη και 27 (±5) kg/m2, αντίστοιχα. Έντονη έκφραση της αντιπονεκτίνης παρατηρήθηκε στον πρόσθιο λοβό (pars distalis/PD) της υπόφυσης και στο χοανικό δακτύλιο (pars tuberalis/PT). Ειδικότερα, ισχυρή ανοσοϊστοχημική χρώση για την αντιπονεκτίνη παρατηρήθηκε στα κύτταρα που παράγουν GH, FSH, LH , TSH και FSH, LH, TSH, στον πρόσθιο λοβό και στο χοανικό δακτύλιο αντίστοιχα.. Στο PD, ισχυρή έως μέτρια έκφραση του AdipoR1 και AdipoR2 ανιχνεύθηκε στους ίδιους κυτταρικούς τύπους στους οποίους εντοπίσθηκε και η αντιπονεκτίνη. Δεν παρατηρήθηκε ανοσοθετικότητα για τους υποδοχείς της αντιπονεκτίνης στα κύτταρα του ΡT. Έντονη ανοσοϊστοχημική χρώση για τον AdipoR1 παρουσίασαν οι νευρώνες της πλάγιας υποθαλαμικής περιοχής και του βασικού πυρήνα του Meynert (NBM). Η έκφραση της αντιπονεκτίνης και των υποδοχέων της στην ανθρώπινη υπόφυση ενδεχομένως αποτελεί μία ένδειξη της ύπαρξης ενός τοπικού ρυθμιστικού συστήματος, το οποίο ασκεί τροποποιητικές δράσεις στους ενδοκρινικούς άξονες. Επιπρόσθετα, η παρουσία του AdipoR1 στον υποθάλαμο και στο NBM υποδεικνύει ότι η αντιπονεκτίνη μπορεί να 118 συμμετέχει σε κεντρικά νευρωνικά σηματοδοτικά μονοπάτια, ελέγχοντας την ενεργειακή ομοιόσταση και άλλες εγκεφαλικές λειτουργίες. / Adiponectin and its receptors, AdipoR1 and AdipoR2, constitute integral components of energy homeostatic mechanism, in peripheral tissues. Recent studies have implicated adiponectin in central neural networks regulating food intake and energy expenditure. The present study aimed at investigating the possible expression and distribution of adiponectin and its receptors in human pituitary gland, hypothalamus and different brain areas. Sections of the pituitary gland, hypothalamus and adjacent basal forebrain area, cerebrum and cerebellum from forty autopsy cases, were examined using H&E, PAS-Orange G, luxol fast blue/cresyl violet stains and single and double immunohistochemistry using adiponectin, AdipoR1, AdipoR2, choline acetyltransferase, FSH, LH, TSH, GH, ACTH and prolactinspecific antibodies. Age and BMI mean values ± SD of the autopsy cases were 56±18 years and 27±5 kg/m2, respectively. Strong adiponectin expression was observed in pituitary gland. In pars distalis (PD), adiponectin localized in GH, FSH, LH and TSH-producing cells and in pars tuberalis (PT) in FSH, LH and TSH-producing cells. Strong to moderate expression of AdipoR1 and AdipoR2 was observed in PD by the same cell types as adiponectin. No immunoreactivity for adiponectin receptors was noted in cells of PT. Intense AdipoR1 immunostaining was observed in neurons of lateral hypothalamic area and of nucleus basalis of Meynert (NBM). Adiponectin and its receptors expression in human pituitary might indicate the existence of a local system, modulating endocrine axes. Furthermore, the presence of AdipoR1 in hypothalamus and NBM suggests that adiponectin may participate in central neural signaling pathways controlling energy homeostasis and higher brain functions.

Αντιπονεκτίνη

Υποθάλαμος

612.8

Central nervous system

Adiponectin

Nucleus basalis of Meynert

Hypothalamus

Judesių variabilumas atliekant šuolius į aukštį iš vietos / The variability of movement during the vertical standing jumps

Drebulys, Gintaras

15 May 2006

The aim of the study – To determine and assess the variability of movements during the vertical standing jumps with and without the regressive information. Subjects: The subjects were healthy men who cultivate triathlon (age 19-20 years; n = 10). The objectives: to identify and evaluate the variability of vertical jumps when the jumps are performed at 50% of maximal intensity without using the backward information; to identify and evaluate the variability of vertical jumps when the jumps are performed at 50% of maximum with the regressive information about the accuracy of jump; to identify and evaluate the variability of vertical jumps when the jumps are performed at 30% of maximum (before and after the workload) and at maximal intensity (workload) without the use of regressive information; to evaluate the variability of vertical jumps when the jumps are performed at 30% of maximum (before and after the workload) and at maximal intensity (workload) with the backward information for the control jumps. The main conclusions of the study are the following: During the vertical jumps at 50 % of maximum, we have determined similar repetition of vertical jump. This similarity of vertical jumps’ accuracy was determined during the jumps before the workload, during the workload, and after the workload; The repetition of the similar vertical jump depended on the delivery of regressive information: first two jumps with the backward information were significantly increased in comparison to... [to full text]

Biology

Judesių variabilumas

Efferent copy

Eferentinė kopija

Jumps

Centrinė nervų sistema

Variability of movements

Šuoliai

Central nervous system

Sportinių žaidimų ir ciklinių sporto šakų poveikis 11–14 metų berniukų širdies ir kraujagyslių sistemai, motorinių ir sensomotorinių gebėjimų raidai / Effect of regular long term sports games and cyclical sports events exercises at the age of 11–14 year old for boys development in motor and sensomotor abilities and cardiovascular system

Emeljanovas, Arūnas

22 February 2007

The aim of this study is to determine the effect of regular and long term sports games and cyclical sports events exercises at the age of 11–14 for boys development in motor and sensomotor abilities and cardiovascular system adaptation peculiarities. The next methods were used: Tapping test, Roufier exercise test, vertical jump test, 30 s maximal jumping test, measurements of arterial blood pressure, electrocardiography (ECG), dynamometry, stabilography, measurements of body mass components, non linear ECG data analysis methods. Conclusions: 1. Motor and sensomotor abilities of non-athlete children develop in the age phase of 11–14: muscles’ power and capability, central nervous system (CNS) efficiency indices increase. The improvement of results is irregular: the rate of improvement decreases at the age of 13–14. 2. The increase in motor, sensomotor and cardiovascular system indices of cyclic sports events for children were indicated higher than in non-athlete contemporaries at the age of 11–13. Statistically significant differences of cardiovascular and most of CNS indices were not noticed at the age of 13–14 and muscles’ functional preparedness indices were significantly better than non-athletes. 3. The improvement of children, attending sports games trainings, functional preparedness indices are significantly greater than in non-athletes and cyclic sports events athletes at the age of 11–13. At the age of 13–14 the rate of indices reduce and except muscles preparedness... [to full text]

Biology

Cardiovascular system

širdies ir kraujagyslių sistema

Centrinė nervų sistema

Central nervous system

The age of 11-14

11-14 metų amžius