THE ROLE OF PTPs IN REGENERATION FAILURE FOLLOWING SPINAL CORD INJURY

Lang, Bradley Thomas

13 February 2015

No description available.

Biomedical Research

Biology

Neurobiology

Neurology

Neurosciences

Spinal Cord Injury

Regenerative Medicine

Chondroitin Sulfate Proteoglycans

PTPsigma

Protein Tyrosine Phosphatase Sigma

Axonal Regeneration

Axonal Plasticity

Glial Scar

Meningeal Fibrosis in the Axolotl Spinal Cord: Extracellular Matrix and Cellular Responses

Deborah Anne Sarria (18405282)

03 June 2024

<p dir="ltr">Though mammalian spinal cord injury (SCI) has long been a topic of study, effective therapies that promote functional recovery are not yet available. The axolotl, <i>Ambystoma mexicanum</i>, is a valuable animal model in the investigation of spinal cord regeneration, as this urodele is able to achieve functional recovery even after complete spinal cord transection. Understanding the similarities and differences between the mammalian SCI response and that of the axolotl provides insight into the process of successful regeneration, and bolsters the fundamental knowledge used in the development of future mammalian SCI treatments. This thesis provides a detailed analysis of the ultrastructure of the axolotl meninges, as this has not yet been presented in existing literature, and reveals that the axolotl meninges consist of 3 distinct layers as does mammalian meninges; the dura mater, arachnoid mater, and pia mater. The role of reactive meningeal and ependymal cells is also investigated in regard to the deposition and remodeling of the fibrotic ECM, which is found to be similar in composition to hydrogel scaffolds being studied in mammalian SCI. It is shown that meningeal fibroblasts are the primary source of the extensive fibrillar collagen deposition that fills the entire spinal canal, peaking at approximately 3 weeks post transection and remaining until approximately 5 weeks post transection, and that there is no deposition of type IV collagen within the lesion site. Mesenchymal ependymal cells are shown to contribute to the ECM deposition through the production of glycosaminoglycans that are used in sidechains of both unsulfated and sulfated proteoglycans, while simultaneously remodeling the ECM through the production of MMPs and phagocytosis of cellular debris. Further, this study shows that mesenchymal ependymal cells and a population of foamy macrophages contribute to the degradation of the fibrin clot that forms in the acute phase of injury, and that this fibrin clot provides a necessary and permissive substrate for early mesenchymal outgrowth.</p>

meninges

spinal cord regeneration

axolotl spinal cord

axolotl meninges

fibrotic scar

fibrin clot in spinal cord regeneration

ependymal cells

foamy macrophages

spinal cord injury

Efeito neuroprotetor do transplante de células-tronco mesenquimais derivadas de dente decíduo humano em ratos Wistar submetidos à lesão medular

Nicola, Fabrício do Couto

January 2017

A lesão medular (LM) é uma patologia incapacitante que resulta em déficits sensoriais e motores. No Brasil, a incidência anual é de 30 novos casos de lesão medular a cada 1 milhão de indivíduos e, infelizmente, a LM permanece sem um tratamento eficaz. Células-tronco derivadas do dente decíduo humano estão entre as potenciais fontes de células-tronco para transplante após a lesão medular, cujo objetivo é de promover a proteção ou a recuperação da lesão na medula espinal. Buscou-se nesta tese avaliar os efeitos do transplante, uma hora após a lesão, das células tronco de dente decíduo humano (SHED) no período agudo, subagudo e crônico sobre a neuroproteção, proteção tecidual e recuperação funcional em ratos Wistar submetidos à lesão medular por contusão. Os principais objetivos foram: a) investigar os efeitos do transplante das SHED sobre a recuperação funcional, volume da lesão e morte neuronal; b) verificar os efeitos do transplante sobre as células progenitoras, formação da cicatriz glial e modificações astrocitárias após o modelo de contusão medular Observou-se a melhora na recuperação funcional, redução do volume da lesão e morte neuronal na medula espinal dos animais que receberam o transplante de SHED após a lesão medular. As SHED aumentam o número de células precursoras na medula espinal, no período subagudo, reduzem a expressão da proteína fibrilar glial ácida (GFAP) e aumentam a expressão do canal retificador de influxo de potássio 4.1, ambas proteínas astrocitárias. Concluímos que o transplante de células-tronco derivadas do dente decíduo humano após a lesão medular promove a recuperação funcional a partir do efeito neuroprotetor iniciado na fase aguda, confirmado pelo maior número de neurônios motores presentes seis semanas após a contusão. As SHED são capazes de aumentar o número de células precursoras e de produzir modificações astrocitárias na medula espinal de ratos lesados na fase subaguda, reduzindo a formação da cicatriz glial. / Spinal cord injury (SCI) is a disabling condition that results in sensory and motor deficits. The estimated annual incidence in Brazil is of 30 new cases of spinal cord injury per 1 million of individuals; unfortunately SCI remains without an effective treatment. Stem cells from human exfoliated deciduous teeth (SHED) are one among potential sources of stem cells for transplantation after spinal cord injury in order to promote protection or tissue and functional recovery after spinal cord injury. The aim of this Thesis was to evaluate the effects of stem cells from human exfoliated deciduous teeth (SHED) transplantation, one hour after lesion, in the acute, subacute and chronic phases on neuroprotection, tissue protection and functional recovery in Wistar rats submitted to spinal cord injury by contusion The main goals were: a) to investigate the effects of SHED transplantation on functional recovery, lesion volume, and neuronal death; b) to verify the effects of the transplantation on the progenitor cells number, glial scar formation and astrocytic modifications after spinal cord contusion. Improvement of functional recovery, reduction of lesion volume and neuronal death were observed in the spinal cord of animals submitted to spinal cord injury and SHED transplantation. SHEDs increased the number of precursor cells in the spinal cord in the subacute period, reduced the expression of glial fibrillary acidic protein (GFAP) and increased the expression of the potassium influx rectifier channel 4.1, both astrocyte proteins. We conclude that transplantation of stem cells from human exfoliated deciduous teeth after spinal cord injury promotes functional recovery from the neuroprotection effect, which starts in the acute phase and is confirmed six weeks after the contusion with a higher number of motor neurons in the ventral horn of spinal cord. SHEDs are able to increase the number of precursor cells and produce astrocyte modifications in the spinal cord of injured rats in the subacute phase, reducing glial scar formation.

Traumatismos da medula espinal

Transplante de células-tronco

Células-tronco mesenquimais

Dente decíduo

Neuroproteção

Regeneração da medula espinal

Neurônios

Apoptose

Proteína glial fibrilar ácida

Proteínas S100

Spinal cord injury

Mesenchymal stem cell

Dental pulp stem cell

Tissue protection

Neuroprotection

Cell death

Apoptosis

Astrogliosis

Glial scar

Progenitor cells

Functional recovery

Efeito neuroprotetor do transplante de células-tronco mesenquimais derivadas de dente decíduo humano em ratos Wistar submetidos à lesão medular

Nicola, Fabrício do Couto

January 2017

A lesão medular (LM) é uma patologia incapacitante que resulta em déficits sensoriais e motores. No Brasil, a incidência anual é de 30 novos casos de lesão medular a cada 1 milhão de indivíduos e, infelizmente, a LM permanece sem um tratamento eficaz. Células-tronco derivadas do dente decíduo humano estão entre as potenciais fontes de células-tronco para transplante após a lesão medular, cujo objetivo é de promover a proteção ou a recuperação da lesão na medula espinal. Buscou-se nesta tese avaliar os efeitos do transplante, uma hora após a lesão, das células tronco de dente decíduo humano (SHED) no período agudo, subagudo e crônico sobre a neuroproteção, proteção tecidual e recuperação funcional em ratos Wistar submetidos à lesão medular por contusão. Os principais objetivos foram: a) investigar os efeitos do transplante das SHED sobre a recuperação funcional, volume da lesão e morte neuronal; b) verificar os efeitos do transplante sobre as células progenitoras, formação da cicatriz glial e modificações astrocitárias após o modelo de contusão medular Observou-se a melhora na recuperação funcional, redução do volume da lesão e morte neuronal na medula espinal dos animais que receberam o transplante de SHED após a lesão medular. As SHED aumentam o número de células precursoras na medula espinal, no período subagudo, reduzem a expressão da proteína fibrilar glial ácida (GFAP) e aumentam a expressão do canal retificador de influxo de potássio 4.1, ambas proteínas astrocitárias. Concluímos que o transplante de células-tronco derivadas do dente decíduo humano após a lesão medular promove a recuperação funcional a partir do efeito neuroprotetor iniciado na fase aguda, confirmado pelo maior número de neurônios motores presentes seis semanas após a contusão. As SHED são capazes de aumentar o número de células precursoras e de produzir modificações astrocitárias na medula espinal de ratos lesados na fase subaguda, reduzindo a formação da cicatriz glial. / Spinal cord injury (SCI) is a disabling condition that results in sensory and motor deficits. The estimated annual incidence in Brazil is of 30 new cases of spinal cord injury per 1 million of individuals; unfortunately SCI remains without an effective treatment. Stem cells from human exfoliated deciduous teeth (SHED) are one among potential sources of stem cells for transplantation after spinal cord injury in order to promote protection or tissue and functional recovery after spinal cord injury. The aim of this Thesis was to evaluate the effects of stem cells from human exfoliated deciduous teeth (SHED) transplantation, one hour after lesion, in the acute, subacute and chronic phases on neuroprotection, tissue protection and functional recovery in Wistar rats submitted to spinal cord injury by contusion The main goals were: a) to investigate the effects of SHED transplantation on functional recovery, lesion volume, and neuronal death; b) to verify the effects of the transplantation on the progenitor cells number, glial scar formation and astrocytic modifications after spinal cord contusion. Improvement of functional recovery, reduction of lesion volume and neuronal death were observed in the spinal cord of animals submitted to spinal cord injury and SHED transplantation. SHEDs increased the number of precursor cells in the spinal cord in the subacute period, reduced the expression of glial fibrillary acidic protein (GFAP) and increased the expression of the potassium influx rectifier channel 4.1, both astrocyte proteins. We conclude that transplantation of stem cells from human exfoliated deciduous teeth after spinal cord injury promotes functional recovery from the neuroprotection effect, which starts in the acute phase and is confirmed six weeks after the contusion with a higher number of motor neurons in the ventral horn of spinal cord. SHEDs are able to increase the number of precursor cells and produce astrocyte modifications in the spinal cord of injured rats in the subacute phase, reducing glial scar formation.

Traumatismos da medula espinal

Transplante de células-tronco

Células-tronco mesenquimais

Dente decíduo

Neuroproteção

Regeneração da medula espinal

Neurônios

Apoptose

Proteína glial fibrilar ácida

Proteínas S100

Spinal cord injury

Mesenchymal stem cell

Dental pulp stem cell

Tissue protection

Neuroprotection

Cell death

Apoptosis

Astrogliosis

Glial scar

Progenitor cells

Functional recovery

Efeito neuroprotetor do transplante de células-tronco mesenquimais derivadas de dente decíduo humano em ratos Wistar submetidos à lesão medular

Nicola, Fabrício do Couto

January 2017

A lesão medular (LM) é uma patologia incapacitante que resulta em déficits sensoriais e motores. No Brasil, a incidência anual é de 30 novos casos de lesão medular a cada 1 milhão de indivíduos e, infelizmente, a LM permanece sem um tratamento eficaz. Células-tronco derivadas do dente decíduo humano estão entre as potenciais fontes de células-tronco para transplante após a lesão medular, cujo objetivo é de promover a proteção ou a recuperação da lesão na medula espinal. Buscou-se nesta tese avaliar os efeitos do transplante, uma hora após a lesão, das células tronco de dente decíduo humano (SHED) no período agudo, subagudo e crônico sobre a neuroproteção, proteção tecidual e recuperação funcional em ratos Wistar submetidos à lesão medular por contusão. Os principais objetivos foram: a) investigar os efeitos do transplante das SHED sobre a recuperação funcional, volume da lesão e morte neuronal; b) verificar os efeitos do transplante sobre as células progenitoras, formação da cicatriz glial e modificações astrocitárias após o modelo de contusão medular Observou-se a melhora na recuperação funcional, redução do volume da lesão e morte neuronal na medula espinal dos animais que receberam o transplante de SHED após a lesão medular. As SHED aumentam o número de células precursoras na medula espinal, no período subagudo, reduzem a expressão da proteína fibrilar glial ácida (GFAP) e aumentam a expressão do canal retificador de influxo de potássio 4.1, ambas proteínas astrocitárias. Concluímos que o transplante de células-tronco derivadas do dente decíduo humano após a lesão medular promove a recuperação funcional a partir do efeito neuroprotetor iniciado na fase aguda, confirmado pelo maior número de neurônios motores presentes seis semanas após a contusão. As SHED são capazes de aumentar o número de células precursoras e de produzir modificações astrocitárias na medula espinal de ratos lesados na fase subaguda, reduzindo a formação da cicatriz glial. / Spinal cord injury (SCI) is a disabling condition that results in sensory and motor deficits. The estimated annual incidence in Brazil is of 30 new cases of spinal cord injury per 1 million of individuals; unfortunately SCI remains without an effective treatment. Stem cells from human exfoliated deciduous teeth (SHED) are one among potential sources of stem cells for transplantation after spinal cord injury in order to promote protection or tissue and functional recovery after spinal cord injury. The aim of this Thesis was to evaluate the effects of stem cells from human exfoliated deciduous teeth (SHED) transplantation, one hour after lesion, in the acute, subacute and chronic phases on neuroprotection, tissue protection and functional recovery in Wistar rats submitted to spinal cord injury by contusion The main goals were: a) to investigate the effects of SHED transplantation on functional recovery, lesion volume, and neuronal death; b) to verify the effects of the transplantation on the progenitor cells number, glial scar formation and astrocytic modifications after spinal cord contusion. Improvement of functional recovery, reduction of lesion volume and neuronal death were observed in the spinal cord of animals submitted to spinal cord injury and SHED transplantation. SHEDs increased the number of precursor cells in the spinal cord in the subacute period, reduced the expression of glial fibrillary acidic protein (GFAP) and increased the expression of the potassium influx rectifier channel 4.1, both astrocyte proteins. We conclude that transplantation of stem cells from human exfoliated deciduous teeth after spinal cord injury promotes functional recovery from the neuroprotection effect, which starts in the acute phase and is confirmed six weeks after the contusion with a higher number of motor neurons in the ventral horn of spinal cord. SHEDs are able to increase the number of precursor cells and produce astrocyte modifications in the spinal cord of injured rats in the subacute phase, reducing glial scar formation.

Traumatismos da medula espinal

Transplante de células-tronco

Células-tronco mesenquimais

Dente decíduo

Neuroproteção

Regeneração da medula espinal

Neurônios

Apoptose

Proteína glial fibrilar ácida

Proteínas S100

Spinal cord injury

Mesenchymal stem cell

Dental pulp stem cell

Tissue protection

Neuroprotection

Cell death

Apoptosis

Astrogliosis

Glial scar

Progenitor cells

Functional recovery

Repulsive cues and signalling cascades of the axon growth cone

Manns, Richard Peter Charles

January 2013

The aim of the work described in this thesis is to investigate the nature and mechanisms of action of repellent cues for growing axons. In particular I try to resolve the controversy in the literature regarding the need for protein synthesis in the growth cone in response to external guidance cues. My results resolve the conflicting data in the literature on Semaphorin-3A signalling, where differing labs had shown that inhibiting protein synthesis either blocks or has no effect upon repulsion. They demonstrate the presence of at least two independent pathways, protein synthesis-dependent mTOR activation and -independent GSK3? activation. The higher sensitivity of the synthesis-dependent pathway, and its redundancy at higher concentrations where synthesis-independent mechanisms can evoke a full collapse response alone, resolve the apparent conflict. My experiments also demonstrated that Nogo-?20, a domain of Nogo-A, requires local protein synthesis to cause collapse. Unlike Semaphorin-3A, the dependence of collapse upon protein synthesis is concentration-independent and does not involve guanylyl cyclase, but it does share a dependence upon mTOR activity and the synthesis of RhoA, sufficient to cause collapse downstream of Semaphorin-3A. The other axon-repelling domain of Nogo-A, Nogo-66, is partially dependent upon the proteasome instead. It does not share a common pathway with Nogo-?20, except that both are RhoA-dependent. I further attempted to identify the nature of a repulsive activity found in grey matter, ruling out a previously suggested candidate identity. Finally, I examined the phenomenon of nitric oxide-induced growth cone collapse. My experiments revealed that S-nitrosylated glutathione causes growth cone collapse through the activity of protein disulphide isomerase. This mechanism shows only a partial dependence upon soluble guanylyl cyclase, but I argue that it has total dependence upon an S-nitrosylated donor. Coupled with its apparent relation to S-palmitoylation, the reciprocal of S-nitrosylation, I propose that nitric oxide causes collapse by crossing the cell membrane to inhibit S-palmitoylation-determined localisation of proteins. These results reveal some of the many pathways involved in growth cone collapse, whose further characterisation may provide new targets for the treatment of injuries of the central nervous system.

612.8

Le geste martial comme expérience : esthétique de l’« être-là »-ninja / The martial gesture as experience : aesthetics of "being-here"-ninja

Hmida, Salah

29 September 2018

Il s’agit, dans ce travail, de trouver le geste qui renouvelle l’identité cicatrisée que le «guerrier » en nous recherche, à travers la pratique martiale définie comme habitation holiste d’un corps-soit, ce que Varela appelle « l’inscription corporelle de l’esprit ».Un être, par l’effet d’un art et par la compréhension de « l’expérience de l’expérience » que constitue la performativité du geste en général, peut-il jamais faire Un avec les choses qui l’entourent et qui l’enveloppent ? Il y a à parier que s’il y arrivait, il lui serait donné de saisir à la fois le caractère mythique des choses en tant qu’il est immanent à leur présence et cette présence en tant qu’oeuvre existentielle. L’art martial ninja constitue une telle réussite. Cette thèse en interroge les effets … / This work consists in finding the gesture that renovates the healed identity, a “worrior” withinus is looking for, through a martial practice defined as a holistic dwelling of a body-being.This is what Varela calls “the corporeal inscription of the spirit”.Is a being able to make one with the things surrounding and covering it, through the effect ofart and the comprehension of “the experience of the experience”, that the performativity of thegesture generally constitutes? It would bet, if possible, that it would be able of creating, at thesame time, the mythic aspect of things, having been inherent to their presence, and creatingthis presence as an existential art-workNinja martial art builds such a success, the effects of which are questioned by this thesis...

La mythologie

L’identité cicatrisée

L’expérience

La cicatrice

La cicatrisation

L’intelligence corporelle

La martialité

Les stratégies

La ruse

Les tactiques

Les ninjas

La magie

La facitivité

La corporéité

Le geste

La présence

L’inexpérience

Mythology

Healed identity

Experience

Thes scar

Wound healing

Corporeal intelligence

Martiality

Strategies

Cunning

Tactics

Ninjas

Magic

Facticity

Corporeality

The gesture

The presence

The inexperience