Interaction du peptide beta amyloïde avec les membranes plasmiques cellulaires / Interaction of beta amyloid peptide with plasma membranes

Gilson, Virginie

05 July 2013

La maladie d’Alzheimer (MA) est une maladie neurodégénérative du système nerveux central qui se caractérise notamment par l’accumulation de peptide beta-amyloïde (Aβ) dans le tissus nerveux. Dans la première partie de cette thèse nous avons montré que l’interaction des oligomères Aβ1-42 de haut poids moléculaire avec la membrane plasmique des cellules PC12 différenciées ou des cellules nerveuses (neurones et astrocytes primaires) provoque des variations de la [Ca2+]i dépendant de l’activation des récepteurs NMDA. Dans la seconde partie nous avons montré qu’une pré-exposition des cellules PC12 et des cellules nerveuses à de faibles concentrations de peptide Aβ module l’interaction ultérieure des oligomères avec la membrane plasmique. Enfin dans le cadre d’une collaboration avec l’entreprise Innovative Health Diagnostics (IHD) nous avons participé à la caractérisation d’une sonde amyloïde fluorescente développée pour réaliser des tests de détection de la MA à partir d’échantillons sanguins. / Alzheimer’s disease (AD) is a neurodegenerative disease of the central nervous system which is characterized in particular by the accumulation of beta amyloïde peptide (Aβ) in nerve tissues. In the first part of this thesis we showed that the interaction of high molecular weight Aβ1-42 oligomers with the plasma membrane of differenciated PC12 or nerve cells (neurons and astrocytes) triggers variations of their depending on the activation of the NMDA receptors. In the second part we showed that a pre-exposure of PC12 and nerve cells with low concentrations Aβ1-42 of modulates the later interaction of oligomers with the plasma membrane. Finally in collaboration with the company Innovative Health Diagnostics (IHD) we participated in the characterization of a fluorescent amyloid probe developed to realize detection test of AD from blood samples.

Maladie d’Alzheimer

Peptide beta amyloïde

Oligomères

Récepteur NMDA

Culture primaire de neurones

Cellules PC12

Alzheimer’s disease

Beta amyloid peptide

Oligomers

NMDA receptor

Neuronal primary culture

PC12 cells

572.4

616.83

Etude du rôle de PAR-2 dans l'inflammation neurogène cutanée / Study of the role of PAR-2 in cutaneous neurogenic inflammation

Gouin, Olivier

24 March 2017

L’inflammation neurogène cutanée (INC) est une inflammation de la peau induite par l’activation des fibres nerveuses intra-épidermiques qui secrètent des neuropeptides tels que la substance P (SP). L’INC est impliquée dans des dermatoses inflammatoires prurigineuses comme le psoriasis, la dermatite atopique (DA) et le syndrome de Netherton (SN). Un nouveau concept émerge, suggérant que les kératinocytes sont également des acteurs majeurs de l’INC. Le récepteur activé par des protéases de type 2 (PAR-2) est fortement incriminé dans l’INC associée à ces dermatoses, ce qui permet de comprendre les voies du prurit non-histaminergique. Les enjeux thérapeutiques sont de taille puisqu’il n’existe actuellement aucun traitement efficace permettant la prise en charge spécifique du prurit histamino-indépendant au cours des dermatoses prurigineuses associées à l’INC.Bien que le rôle de PAR-2 dans la sécrétion de neuropeptides à partir des neurones sensoriels soit clairement établi, son implication dans la modulation de gènes pouvant contribuer à l’entretien ou l’amplification de l’INC reste méconnue. Le rôle inflammatoire de PAR-2 a également été démontré sur des kératinocytes cultivés en monocouche via la sécrétion de cytokines par des mécanismes dépendants du Ca2+. La surexpression de PAR-2 et la perte d’expression de certains canaux calciques impliqués dans sa réponse calcique dans les kératinocytes différenciés suggèrent des mécanismes d’action de PAR-2 différents pour ceux-ci. Dans le but d’étudier le rôle pro-inflammatoire de PAR-2 au cours des dermatoses prurigineuses, nous avons analysé l’effet de son activation sur des monocultures de neurones sensoriels issus de ganglions rachidiens dorsaux (GRD) de rat et de kératinocytes humains différenciés (DhPK), en criblant l’expression de médiateurs de l’inflammation. Pour approfondir, les voies calciques de PAR-2 sous-jacente à la modulation d’expression dans les kératinocytes différenciés, des expériences d’imagerie calcique ont été réalisées et différents antagonistes ont été utilisés pour analyser les acteurs impliqués.Dans le cadre d’un partenariat avec les laboratoires dermatologiques d’Uriage, nous avons testé les effets de l’eau thermale d’Uriage sur la modulation de gènes induite par PAR-2 dans les DhPK. Nous avons également utilisé une lignée de PC12 différenciables en neurones par le NGF afin de les utiliser comme alternatives des neurones sensoriels issus des GRD de rat pour l’étude de l’INC.L’ensemble des résultats obtenus au cours du criblage des gènes modules par PAR-2 confirme le rôle pro-inflammatoire de PAR-2 dans les neurones sensoriels de rat et dans les DhPK. La découverte d’une nouvelle voie calcique de PAR-2 dans les DhPK offre de nouvelles pistes thérapeutiques pour les dermatoses prurigineuses telles que le psoriasis, la DA et le NS. Les résultats obtenus avec l’eau thermale d’Uriage peuvent présenter une perspective thérapeutique pour les patients souffrants de dermatoses prurigineuses réfractaires aux traitements conventionnels. L’utilisation d’une lignée neuronale comme lesPC12 pour l’étude de l’INC serait une alternative utile dans le développement des tests cosmétiques avec les industriels pour notre laboratoire. / Cutaneous neurogenic inflammation (CNI) is an inflammation of the skin induced by the activation of intraepidermal nerve fibers that release neuropeptides such as substance P (SP). CNI is involved in pruritic inflammatory skin disorders such as psoriasis, atopic dermatitis (AD) and Netherton syndrome (NS). A new concept is growing, suggesting that keratinocytes could also trigger INC. The proteases activated receptor 2 (PAR-2) is strongly incriminated in CNI associated with these dermatoses, which allow to understand the histamine-independent itching pathways. The therapeutic stakes are high since there is currently no effective treatment allowing the specific management of histamine-independent pruritus during skin disorders associated with CNI.Although the role of PAR-2 in the secretion of neuropeptides from sensory neurons is clearly established, its involvement in the modulation of genes involved in the maintenance or amplification of CNI remains unknown. The inflammatory role of PAR-2 on keratinocytes has also been demonstrated through the production of cytokines in a Ca2+-dependent mechanisms. The overexpression of PAR-2 and the loss of ORAI1 expression, a calcium channel following keratinocytes differentiation suggest different signaling pathways downstream to PAR-2 activation between undifferentiated and differentiated keratinocytes.In order to study the pro-inflammatory role of PAR-2 during pruritic dermatoses, we analyzed the effect of its activation on rat primary sensory neurons from dorsal spinal ganglia (DRG) and on differentiated human primary keratinocytes (DhPK) by screening the expression of inflammatory mediators. To deepen the Ca2+ pathways underlying PAR-2-mediated inflammatory mediator modulation in DhPK, we performed Ca2+ imaging experiments and different antagonists were used to analyze the involvement of intracellular actors. In a partnership with the dermatological laboratories of Uriage, we tested the effects of Uriage thermal water on PAR-2-induced gene modulation in DhPK. We also used a PC12 cell line differentiable in neurons by the NGF in order to use them as alternatives of rat primary sensory neurons from DRG for the study of INC. We also used a PC12 cell line differentiable in neurons by the NGF use them as alternatives of rat primary sensory neurons from DRG for the study of INC.The results obtained during the screening of the PAR-2-modulated genes confirmed the proinflammatory role of PAR-2 in rat primary sensory neurons and in DhPK. The discovery of a new PAR-2-mediated Ca2+ pathway in DhPK offers new therapeutic pathways for pruritic dermatoses such as psoriasis, AD and NS. The results obtained with the thermal water of Uriage can present a therapeutic perspective for patients suffering from pruritic dermatoses refractory to conventional treatments. The use of a neuronal cell line as the PC12 for the study of INC would be an useful alternative in the development of cosmetic tests.

PAR-2

TRPV1

InsP3R

Ca2+

Kératinocytes différenciés

Neurones sensoriels

PC12

Eau thermale d’Uriage

PAR-2

TRPV1

InsP3R

Ca2+

Differentiated keratinocytes

Sensory neurones

PC12

Uriage thermale water

573.539

Efeitos do desbalanço de cobre e zinco no tratamento de células PC12 com quelantes específicos

Pereira, Milene Aparecida

January 2012

Orientadora: Giselle Cerchiaro / Dissertação (mestrado) - Universidade Federal do ABC, Programa de Pós-Graduação em Biossistemas, 2012

Cobre

ZINCO

Feocromocitoma PC12

Homeostase metálica

Modulation of growth factor-induced ERK signaling by the microtubule associated protein tau

Leugers, Chad Jeremy

01 May 2010

The microtubule-associated protein tau is known for its ability to bind to and stabilize microtubules and for its ability to nucleate microtubule assembly. In neurodegenerative tauopathies such as Alzheimer's disease, tau becomes hyperphosphorylated and loses the capacity for microtubule binding, possibly contributing to microtubule destabilization and axonal degeneration. However, evidence now indicates that soluble forms of hyperphosphorylated tau might have a toxic gain of function linked to abnormal signal transduction and cell cycle events in normally post-mitotic neurons. In support of this hypothesis, tau has been found to associate with numerous signaling proteins such as tyrosine kinases, adaptor proteins, and scaffold proteins. During early brain development, fetal tau is also more phosphorylated than tau in the adult brain and weakly binds microtubules, suggesting tau has functions in addition to microtubule stabilization. The aim of this dissertation research is to investigate the possible role of tau in neuronal signaling, using tau-expressing and tau-depleted cell lines. Here, we provide evidence that during growth factor stimulation of neuronal cells, tau functions in advance of the neurite elongation stage. Tau is required for neurite initiation in a manner that does not require its microtubule binding function, and in addition, tau potentiates AP-1 transcription factor activation in response to nerve growth factor (NGF). The effect of tau on AP-1 activation is mediated through the enhanced activation of extracellular signal-regulated kinase (ERK), in response to both NGF and epidermal growth factor (EGF). We show that phosphorylation of tau at Thr231 also occurs in response to NGF and is required for tau to impact on ERK signaling, whereas the ability of tau to bind to microtubules is not required. Together, these findings indicate a new functional role for tau in neuronal signal transduction and have implications for tau function during early brain development and in neurodegenerative disease.

Alzheimer's disease

ERK signaling

growth factor

PC12

phosphorylation

tau

Neuroscience and Neurobiology

Mécanismes de la sécrétion régulée des hormones et des neurotransmetteurs ; rôle des GTPases Rab3 et Rab27.

Schonn, Jean-Sébastien

19 September 2003

Les bases moléculaires de la sécrétion hormonale et de la libération de neurotransmetteurs dépendantes du calcium sont très semblables. Durant ma thèse, je me suis intéressé à divers aspects du cycle des granules de sécrétion dans des modèles cellulaires neuroendocriniens. J'ai en particulier étudié la contribution des transporteurs plasmiques de neuromédiateurs à la taille du quantum de sécrétion. Nous avons démontré que la surexpression de SERT (le transporteur plasmique de recapture de la sérotonine) au sein de la lignée neuroendocrine PC12 induit une augmentation de la taille des quanta sécrétés, et que le contrôle du remplissage vésiculaire était cinétique plutôt que thermodynamique. Ces observations ont permis de développer une méthode de mesure de l'activité sécrétrice d'une sous-population transfectée des cellules PC12. Cette technique permet de quantifier l'effet d'une protéine co-transfectée avec SERT sur l'activité sécrétrice.<br /><br />Une autre partie de mon travail concerne les petites GTPases Rab. Ces protéines régulent de nombreuses étapes du trafic cellulaire. Rab3 joue un rôle dans le contrôle d'étapes tardives de la neurotransmission/sécrétion d'hormones. Nos résultats, basés sur des analyses électrochimiques et biochimiques, suggèrent que Rab3 contrôlerait l'étape d'amorçage de la fusion.<br /><br />Plus récemment, notre attention s'est portée sur Rab27, une Rab proche de la famille Rab3, ainsi que sur MyRIP (Myosin and Rab Interacting Protein). Nous avons montré que MyRIP est un ligand de Rab27 et que ces deux protéines sont associées aux granules de sécrétion. MyRIP interagit aussi avec les myosines 7a/5a et avec l'actine. Ainsi, Rab27 et MyRIP lient les granules au cytosquelette d'actine et contrôlent leur mobilité au voisinage de la membrane plasmique.<br /><br />Nos études sur Rab3 et Rab27 ont permis de mieux comprendre les mécanismes moléculaires des processus impliquant ces GTPases, et illustrent la diversité des modes d'action de ces protéines.

[SDV:BC] Life Sciences/Cellular Biology

GTPases

Rab3

Rab27

MyRIP

chromaffine

amperométrie à fibre de carbone

SERT

PC12

exocytose

The effect of brn3a and zhangfei on the nerve growth factor receptor, trkA.

Valderram Linares, Ximena Paola

30 August 2007

Herpes simplex viruses (HSV) establish latent infections in sensory neurons of their host and are maintained in this state by little understood mechanisms that, at least in part, are regulated by signalling through nerve growth factor (NGF) and its receptor tropomyosin related kinase, trkA. Previous studies have demonstrated that Zhangfei is a transcriptional factor that is expressed in differentiated neurons and is thought to influence HSV replication and latency. Zhangfei, like the HSV trans-activator VP16 and Luman, binds the ubiquitous nuclear protein host cell factor (HCF) inhibiting the ability of VP16 and Luman to initiate HSV replication. <p>Recently, Brn3a, another neuronal factor thought to influence HSV latency and reactivation was found to possess an HCF-binding domain and could potentially require HCF for activity. The neuronal POU IV domain protein, Brn3a, among its many regulatory functions has been described as an enhancer of the NGF receptor trkA, during development in mouse. I therefore investigated the possible link between Brn3a, TrkA, NGF signaling, HCF, Zhangfei and HSV-1 latency and reactivation. I hypothesized that Zhangfei would also suppress the ability of Brn3a to activate the expression of TrkA and that this would have an impact on NGF-TrkA signaling and, consequently on HSV-1 reactivation from latency.<p>My first study determined which Brn3a/trkA promoter interactions were important for trkA transcription. I constructed a plasmid that contains 1043 base pairs of genomic sequences that extend from 30 nucleotides upstream of trkA coding region. In contrast to previous data, a short 190 bp region that lies proximal to the trkA initiation codon was sufficient for Brn3a trans-activation in NGF-differentiated PC12, Vero and human medulloblastoma cells. At least two portions of the 190 bp fragment bind to Brn3a. In addition, Brn3a increased endogenous levels of trkA transcripts in PC12 cells and initiated trkA expression in medulloblastoma cells, which normally do not express trkA. <p>The second step was to determine the effects of HCF and Zhangfei association with Brn3a on trkA trans-activation. I found that Brn3a required HCF for activating the trkA promoter and that Zhangfei has a suppressive effect over Brn3a-trkA activation in non-neuronal cells. In sympathetic neuron-like NGF-treated PC12 cells, Zhangfei did not suppress the ability of Brn3a to activate the TrkA promoter, however, Zhangfei was able capable of inducing the expression of TrkA in the absence of Brn3a. Both Brn3a and Zhangfei induced the expression of endogenous trkA in PC12 cells.<p>Since Vero and PC12 cells are not from human origin I wanted to examine the ability of Zhangfei to induce trkA transcription in medulloblastoma cells, that because of its tumor nature do not express trkA. TrkA transfections in these cells have shown to drive them to cell arrest or apoptosis. Since Zhangfei is not express in medulloblastoma tumors I then used ONS-76 medulloblastoma cells as a model to determine Zhangfeis envolvement in the NGF-trkA signaling pathway.<p> I show herein that in ONS-76 medulloblastoma cells resveratrol, an inducer of apoptosis and differentiation, increased the expression of Zhangfei and trkA as well as Early Growth Response Gene 1 (Egr1), a gene normally activated by NGF-trkA signalling. ONS-76 cells stop growing soon after treatment with resveratrol and a portion of the cell undergo apoptosis. While the induction of Zhangfei in resveratrol-treated cells was modest albeit consistent, the infection of actively growing medulloblastoma cells with an adenovirus vector expressing Zhangfei mimicked the effects of resveratrol. Zhangfei activated the expression of trkA and Egr1 and caused these cells to display markers of apoptosis. The phosphorylation of Erk1, an intermediate kinase in the NGF-trkA signaling critical for differentiation, was observed in Zhangfei infected cells, supporting the hypothesis that Zhangfei is a mediator of trkA-NGF signaling in theses cells leading either to differentiation or apoptosis. Binding of HCF by Zhangfei did not appear to be required for this effect as a mutant of Zhangfei incapable of binding HCF was also able to induce the expression of trkA and Egr1. <p>In in vivo and in vitro models of HSV-1 latency, the virus reactivates when NGF supply to the neuron is interrupted. Based on the above evidence Zhangfei, in HSV-1 latently infected neurons, would have the ability to prolong a state of latency by inducing trkA expression allowing the activation of NGF-trkA signaling pathway. Since NGF is produced by many cell types it is possible that reactivation is triggered not by a decrease in NGF but by a down-regulation of TrkA expression.Therefore, if Zhangfei expression is suppress the trkA signaling could be interrupted or shifted towards apoptosis signaling, this would allow neuronal HCF-binding proteins like Luman, which can activate HSV IE expression, to initiate HSV IE expression and subsequently viral replication.

HCF

host cell factor

herpes simplex virus

Zhangfei

medulloblastomas

PC12 cells

nerve growth factor

Brn3a

trkA

The effect of brn3a and zhangfei on the nerve growth factor receptor, trkA.

Valderram Linares, Ximena Paola

30 August 2007

Herpes simplex viruses (HSV) establish latent infections in sensory neurons of their host and are maintained in this state by little understood mechanisms that, at least in part, are regulated by signalling through nerve growth factor (NGF) and its receptor tropomyosin related kinase, trkA. Previous studies have demonstrated that Zhangfei is a transcriptional factor that is expressed in differentiated neurons and is thought to influence HSV replication and latency. Zhangfei, like the HSV trans-activator VP16 and Luman, binds the ubiquitous nuclear protein host cell factor (HCF) inhibiting the ability of VP16 and Luman to initiate HSV replication. <p>Recently, Brn3a, another neuronal factor thought to influence HSV latency and reactivation was found to possess an HCF-binding domain and could potentially require HCF for activity. The neuronal POU IV domain protein, Brn3a, among its many regulatory functions has been described as an enhancer of the NGF receptor trkA, during development in mouse. I therefore investigated the possible link between Brn3a, TrkA, NGF signaling, HCF, Zhangfei and HSV-1 latency and reactivation. I hypothesized that Zhangfei would also suppress the ability of Brn3a to activate the expression of TrkA and that this would have an impact on NGF-TrkA signaling and, consequently on HSV-1 reactivation from latency.<p>My first study determined which Brn3a/trkA promoter interactions were important for trkA transcription. I constructed a plasmid that contains 1043 base pairs of genomic sequences that extend from 30 nucleotides upstream of trkA coding region. In contrast to previous data, a short 190 bp region that lies proximal to the trkA initiation codon was sufficient for Brn3a trans-activation in NGF-differentiated PC12, Vero and human medulloblastoma cells. At least two portions of the 190 bp fragment bind to Brn3a. In addition, Brn3a increased endogenous levels of trkA transcripts in PC12 cells and initiated trkA expression in medulloblastoma cells, which normally do not express trkA. <p>The second step was to determine the effects of HCF and Zhangfei association with Brn3a on trkA trans-activation. I found that Brn3a required HCF for activating the trkA promoter and that Zhangfei has a suppressive effect over Brn3a-trkA activation in non-neuronal cells. In sympathetic neuron-like NGF-treated PC12 cells, Zhangfei did not suppress the ability of Brn3a to activate the TrkA promoter, however, Zhangfei was able capable of inducing the expression of TrkA in the absence of Brn3a. Both Brn3a and Zhangfei induced the expression of endogenous trkA in PC12 cells.<p>Since Vero and PC12 cells are not from human origin I wanted to examine the ability of Zhangfei to induce trkA transcription in medulloblastoma cells, that because of its tumor nature do not express trkA. TrkA transfections in these cells have shown to drive them to cell arrest or apoptosis. Since Zhangfei is not express in medulloblastoma tumors I then used ONS-76 medulloblastoma cells as a model to determine Zhangfeis envolvement in the NGF-trkA signaling pathway.<p> I show herein that in ONS-76 medulloblastoma cells resveratrol, an inducer of apoptosis and differentiation, increased the expression of Zhangfei and trkA as well as Early Growth Response Gene 1 (Egr1), a gene normally activated by NGF-trkA signalling. ONS-76 cells stop growing soon after treatment with resveratrol and a portion of the cell undergo apoptosis. While the induction of Zhangfei in resveratrol-treated cells was modest albeit consistent, the infection of actively growing medulloblastoma cells with an adenovirus vector expressing Zhangfei mimicked the effects of resveratrol. Zhangfei activated the expression of trkA and Egr1 and caused these cells to display markers of apoptosis. The phosphorylation of Erk1, an intermediate kinase in the NGF-trkA signaling critical for differentiation, was observed in Zhangfei infected cells, supporting the hypothesis that Zhangfei is a mediator of trkA-NGF signaling in theses cells leading either to differentiation or apoptosis. Binding of HCF by Zhangfei did not appear to be required for this effect as a mutant of Zhangfei incapable of binding HCF was also able to induce the expression of trkA and Egr1. <p>In in vivo and in vitro models of HSV-1 latency, the virus reactivates when NGF supply to the neuron is interrupted. Based on the above evidence Zhangfei, in HSV-1 latently infected neurons, would have the ability to prolong a state of latency by inducing trkA expression allowing the activation of NGF-trkA signaling pathway. Since NGF is produced by many cell types it is possible that reactivation is triggered not by a decrease in NGF but by a down-regulation of TrkA expression.Therefore, if Zhangfei expression is suppress the trkA signaling could be interrupted or shifted towards apoptosis signaling, this would allow neuronal HCF-binding proteins like Luman, which can activate HSV IE expression, to initiate HSV IE expression and subsequently viral replication.

HCF

host cell factor

herpes simplex virus

Zhangfei

medulloblastomas

PC12 cells

nerve growth factor

Brn3a

trkA

Multiple Cell Signaling Pathways Modulate the Cocaine-Induced Increase in Mu Opioid Receptor Protein Expression in PC12 Cells

Softah, Abrar

27 May 2013

Cocaine is interrelated with the opioid system on many levels, especially via the mu opioid receptor (MOR). Also, cocaine has been involved in modulating nitric oxide (NO) actions within the cell. The effect of cocaine was first assessed on the MOR, and then on transcription by the use of 1 µg/ mL actinomycin D inhibitor. Several signaling pathways that cocaine may exert its action in modulating the MOR up-regulation in protein expression were also explored. Two dosage regimens were used in cocaine treatment, single continuous treatment (SCT), and repeated intermittent treatment (RIT). Different pathway inhibitors were used on PC12 cells, as follows: the PLC-PKC inhibitors 5 µM U-73122 and 10 µM BIS-1 used to investigate the involvement of the PKC signaling pathways in MOR expression levels, the evaluation of MAPK pathway by the use of 50 µM U0126 inhibitor, and the 10 µM LY94002 inhibitor was used to investigate the PI3K/Akt pathway. Moreover, the effect of NO on these signaling pathways was investigated by the use of 20 mM nonselective L-NAME inhibitor and qualitatively by DAF-2 florescence. Western blot analysis indicated that cocaine up-regulated MOR protein expression. Also, RIT cocaine treatment increased MOR protein levels via transcription. All three signaling pathways, MAPK, Akt and PKC modulated cocaine-induced increase of MOR following SCT cocaine treatment (post-transcriptional). Both MAPK and Akt have been found to modulate the cocaine-induced transcription of MOR via the two dosage regimens of cocaine, SCT and RIT. Also, inhibition of both PLC and PKC did not prevent cocaine-induced increase in MOR transcription, according to RIT of cocaine. Furthermore, Akt and PKC appeared to modulate cocaine-induced NO production while MAPK did not. NO seemed to be involved with the PKC and Akt pathways in up-regulating MOR in RIT of cocaine directly by the Akt pathway, and indirectly by the PKC pathway. On the other hand, NO and MAPK modulated the MOR up-regulation expression simultaneously, but in an individual/parallel manner. Furthermore, signaling pathway activation levels were tested using L-NAME which concluded that NO modulated cocaine-induced increase in total Akt protein levels, but did not appear to have an effect on phosphorylated MAPK activation levels. In conclusion, different treatment regimens of cocaine activate different pathways; SCT of cocaine activated all three signaling pathways, however, RIT of cocaine activated only the MAPK and Akt pathways. / Saudi Bureau in Canada

Delivery Systems to Enhance Neural Regeneration in the Central Nervous System

Stumpf da Silva, Taisa Regina

10 July 2019

The central nervous system (CNS) is susceptible to several disorders that can affect the structure or function of the brain or spinal cord, such as stroke and spinal cord injury (SCI). CNS disorders are complex, frequently causing failure of cognitive, motor and sensory functions. Unfortunately, there are only a few care alternatives for patients with CNS disorders, due to the limited capacity of the CNS to spontaneously regenerate; what expresses the need to develop innovative solutions, such as scaffolds that also could act as drug delivery systems to promote tissue and functional repairs in the CNS. To achieve this goal, three main projects were developed in this thesis. In the first project, a novel drug releasing duraplasty that can be applied as part of decompressive craniectomy (DC) was designed and tested. While DC can significantly reduce the risk of death, this procedure does not reverse the stroke damage. Thus, biosynthesized cellulose (BC) was used to produce a new duraplasty loaded with growth factors. The in vivo animal studies revealed that our duraplasty had excellent biocompatibility when implanted onto rodents’ brains. In the second project, BC tubes were prepared and nerve growth factor was incorporated into the tubes to be used as potential nerve guides to assist with the reconstitution of nerve tissues across SCI lesion. Physical and mechanical properties of the drug delivery systems produced were evaluated and compared to the neural native tissue. In addition, cell cultures demonstrated that growth factors released from both drug delivery systems were bioactive for over 7 days. In the third project, linear and 2-branched peptides were synthesized as potential bioactive molecules to improve tissue regeneration. These peptides, containing the RGDS sequence, were synthesized through Solid Phase Peptide Synthesis and characterized by mass spectrometry, high-performance liquid chromatography, and their conformational structures were analyzed by an energy minimized 3D model. In summary, this thesis explores the use of BC as drug releasing systems, which are promising and clinically relevant strategies to enhance nerve regeneration for many patients facing physical, mental and financial strains due to stroke, SCI or other difficult-to-cure injuries to the CNS.

biosynthesized cellulose

stroke

duraplasty

spinal cord injury

nerve guidance tube

PC12

NSPC

branched peptides

RGDS

MicroRNAs 29b and 181a Down-Regulate the Expression of the Norepinephrine Transporter and Glucocorticoid Receptors in PC12 Cells

Deng, Maoxian, Tufan, Turan, Raza, Muhammad U., Jones, Thomas C., Zhu, Meng Yang

01 October 2016

MicroRNAs are short non-coding RNAs that provide global regulation of gene expression at the post-transcriptional level. Such regulation has been found to play a role in stress-induced epigenetic responses in the brain. The norepinephrine transporter (NET) and glucocorticoid receptors are closely related to the homeostatic integration and regulation after stress. Our previous studies demonstrated that NET mRNA and protein levels in rats are regulated by chronic stress and by administration of corticosterone, which is mediated through glucocorticoid receptors. Whether miRNAs are intermediaries in the regulation of these proteins remains to be elucidated. This study was undertaken to determine possible regulatory effects of miRNAs on the expression of NET and glucocorticoid receptors in the noradrenergic neuronal cell line. Using computational target prediction, we identified several candidate miRNAs potentially targeting NET and glucocorticoid receptors. Western blot results showed that over-expression of miR-181a and miR-29b significantly repressed protein levels of NET, which is accompanied by a reduced [3H] norepinephrine uptake, and glucocorticoid receptors in PC12 cells. Luciferase reporter assays verified that both miR-181a and miR-29b bind the 3′UTR of mRNA of NET and glucocorticoid receptors. Furthermore, exposure of PC12 cells to corticosterone markedly reduced the endogenous levels of miR-29b, which was not reversed by the application of glucocorticoid receptor antagonist mifepristone. These observations indicate that miR-181a and miR-29b can function as the negative regulators of NET and glucocorticoid receptor translation in vitro. This regulatory effect may be related to stress-induced up-regulation of the noradrenergic phenotype, a phenomenon observed in stress models and depressive patients. (Figure presented.) This study demonstrated that miR-29b and miR-181a, two short non-coding RNAs that provide global regulation of gene expression, markedly repressed protein levels of norepinephrine (NE) transporter and glucocorticoid receptor (GR), as well as NE uptake by binding the 3′UTR of their mRNAs in PC12 cells. Also, exposure of cells to corticosterone significantly reduced miR-29b levels through a GR-independent way.

gene regulation

glucocorticoid receptor

microRNA

norepinephrine transporter

PC12 cells

stress

Biological Sciences

Biomedical Sciences