Your search keyword '"Muir EM"' showing total 35 results

1. Cerebellar plasticity and associative memories are controlled by perineuronal nets

Author

Carulli, D, Broersen, Robin, Winter, F, Muir, EM, Meskovic, M, de Waal, M, Vries, S, Boele, Henk-jan, Canto, Cathrin, de Zeeuw, Chris, Verhaagen, J, Carulli, D, Broersen, Robin, Winter, F, Muir, EM, Meskovic, M, de Waal, M, Vries, S, Boele, Henk-jan, Canto, Cathrin, de Zeeuw, Chris, and Verhaagen, J

Published

2020

2. Trafficking and processing of bacterial proteins by mammalian cells: Insights from chondroitinase ABC

Author

Muir, EM, Fawcett, J, Keynes, R, Fawcett, James [0000-0002-7990-4568], Keynes, Roger [0000-0002-1557-7684], and Apollo - University of Cambridge Repository

Abstract

Background: There is very little reported in the literature about the relationship between modifications of bacterial proteins and their secretion by mammalian cells that synthesize them. We previously reported that the secretion of the bacterial enzyme Chondroitinase ABC by mammalian cells requires the strategic removal of at least three N-glycosylation sites. The aim of this study was to determine if it is possible to enhance the efficacy of the enzyme as a treatment for spinal cord injury by increasing the quantity of enzyme secreted or by altering its cellular location. Methodology/principal findings: To determine if the efficiency of enzyme secretion could be further increased, cells were transfected with constructs encoding the gene for chondroitinase ABC modified for expression by mammalian cells; these contained additional modifications of strategic N-glycosylation sites or alternative signal sequences to direct secretion of the enzyme from the cells. We show that while removal of certain specific N-glycosylation sites enhances enzyme secretion, N-glycosylation of at least two other sites, N-856 and N-773, is essential for both production and secretion of active enzyme. Furthermore, we find that the signal sequence directing secretion also influences the quantity of enzyme secreted, and that this varies widely amongst the cell types tested. Last, we find that replacing the 3’UTR on the cDNA encoding Chondroitinase ABC with that of β-actin is sufficient to target the enzyme to the neuronal growth cone when transfected into neurons. This also enhances neurite outgrowth on an inhibitory substrate. Conclusion/significance: Some intracellular trafficking pathways are adversely affected by cryptic signals present in the bacterial gene sequence, whilst unexpectedly others are required for efficient secretion of the enzyme. Furthermore, targeting chondroitinase to the neuronal growth cone promotes its ability to increase neurite outgrowth on an inhibitory substrate. These findings are timely in view of the renewed prospects for gene therapy, and of direct relevance to strategies aimed at expressing foreign proteins in mammalian cells, in particular bacterial proteins.

3. Bridging the gap of axonal regeneration in the central nervous system: A state of the art review on central axonal regeneration.

Author

Costa G, Ribeiro FF, Sebastião AM, Muir EM, and Vaz SH

Abstract

Neuronal regeneration in the central nervous system (CNS) is an important field of research with relevance to all types of neuronal injuries, including neurodegenerative diseases. The glial scar is a result of the astrocyte response to CNS injury. It is made up of many components creating a complex environment in which astrocytes play various key roles. The glial scar is heterogeneous, diverse and its composition depends upon the injury type and location. The heterogeneity of the glial scar observed in different situations of CNS damage and the consequent implications for axon regeneration have not been reviewed in depth. The gap in this knowledge will be addressed in this review which will also focus on our current understanding of central axonal regeneration and the molecular mechanisms involved. The multifactorial context of CNS regeneration is discussed, and we review newly identified roles for components previously thought to solely play an inhibitory role in central regeneration: astrocytes and p75NTR and discuss their potential and relevance for deciding therapeutic interventions. The article ends with a comprehensive review of promising new therapeutic targets identified for axonal regeneration in CNS and a discussion of novel ways of looking at therapeutic interventions for several brain diseases and injuries., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Costa, Ribeiro, Sebastião, Muir and Vaz.)

Published

2022

4. Characterization of an immune-evading doxycycline-inducible lentiviral vector for gene therapy in the spinal cord.

Author

De Winter F, Quijorna IF, Burnside E, Hobo B, Eggers R, Hoyng SA, Mulder HP, Hoeben RC, Muir EM, Bradbury EJ, and Verhaagen J

Subjects

Animals, Gene Expression Regulation, Genetic Therapy methods, Herpesvirus 4, Human genetics, Rats, Spinal Cord, Trans-Activators genetics, Doxycycline pharmacology, Epstein-Barr Virus Infections

Abstract

Gene therapy is a powerful approach to promote spinal cord regeneration. For a clinical application it is important to restrict therapeutic gene expression to the appropriate time window to limit unwanted side effects. The doxycycline (dox)-inducible system is a widely used regulatable gene expression platform, however, this system depends on a bacterial-derived immunogenic transactivator. The foreign origin of this transactivator prevents reliable regulation of therapeutic gene expression and currently limits clinical translation. The glycine-alanine repeat (GAR) of Epstein-Barr virus nuclear antigen-1 protein inhibits its presentation to cytotoxic T cells, allowing virus-infected cells to evade the host immune system. We developed a chimeric transactivator (GARrtTA) and show that GARrtTA has an immune-evading advantage over "classical" rtTA in vivo. Direct comparison of lentiviral vectors expressing rtTA and GARrtTA in the rat spinal cord shows that the GARrtTA system is inducible for 6 doxycycline-cycles over a 47 week period, whereas with the rtTA-based system luciferase reporter expression declines during the 3rd cycle and is no longer re-inducible, indicating that GARrtTA provides an immune-advantage over rtTA. Immunohistochemistry revealed that GARrtTA expressing cells in the spinal cord appear healthier and survive better than rtTA expressing cells. Characterization of the immune response shows that expression of GARrtTA, in contrast to rtTA, does not recruit cytotoxic T-cells to the transduced spinal cord. This study demonstrates that fusion of the GAR domain to rtTA results in a functional doxycycline-inducible transactivator with a clear immune-advantage over the classical rtTA in vivo., (Copyright © 2022 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2022

5. Microglia-mediated degradation of perineuronal nets promotes pain.

Author

Tansley S, Gu N, Guzmán AU, Cai W, Wong C, Lister KC, Muñoz-Pino E, Yousefpour N, Roome RB, Heal J, Wu N, Castonguay A, Lean G, Muir EM, Kania A, Prager-Khoutorsky M, Zhang J, Gkogkas CG, Fawcett JW, Diatchenko L, Ribeiro-da-Silva A, De Koninck Y, Mogil JS, and Khoutorsky A

Subjects

Animals, Extracellular Matrix pathology, Rats, Rats, Sprague-Dawley, Hyperalgesia etiology, Hyperalgesia pathology, Hyperalgesia physiopathology, Microglia pathology, Pain pathology, Pain physiopathology, Peripheral Nerve Injuries complications, Peripheral Nerve Injuries pathology, Spinal Cord Dorsal Horn pathology, Spinal Cord Dorsal Horn physiopathology

Abstract

Activation of microglia in the spinal cord dorsal horn after peripheral nerve injury contributes to the development of pain hypersensitivity. How activated microglia selectively enhance the activity of spinal nociceptive circuits is not well understood. We discovered that after peripheral nerve injury, microglia degrade extracellular matrix structures, perineuronal nets (PNNs), in lamina I of the spinal cord dorsal horn. Lamina I PNNs selectively enwrap spinoparabrachial projection neurons, which integrate nociceptive information in the spinal cord and convey it to supraspinal brain regions to induce pain sensation. Degradation of PNNs by microglia enhances the activity of projection neurons and induces pain-related behaviors. Thus, nerve injury-induced degradation of PNNs is a mechanism by which microglia selectively augment the output of spinal nociceptive circuits and cause pain hypersensitivity.

Published

2022

6. Combining timed GDNF and ChABC gene therapy to promote long-distance regeneration following ventral root avulsion and repair.

Author

Eggers R, de Winter F, Smit L, Luimens M, Muir EM, Bradbury EJ, Tannemaat MR, and Verhaagen J

Subjects

Animals, Axons physiology, Cell Line, Female, Genetic Therapy methods, HEK293 Cells, Humans, Motor Neurons physiology, Nerve Regeneration physiology, Rats, Rats, Wistar, Recovery of Function genetics, Schwann Cells physiology, Chondroitin ABC Lyase genetics, Glial Cell Line-Derived Neurotrophic Factor genetics, Nerve Regeneration genetics, Spinal Nerve Roots physiology

Abstract

Ventral root avulsion leads to severe motoneuron degeneration and prolonged distal nerve denervation. After a critical period, a state of chronic denervation develops as repair Schwann cells lose their pro-regenerative properties and inhibitory factors such as CSPGs accumulate in the denervated nerve. In rats with ventral root avulsion injuries, we combined timed GDNF gene therapy delivered to the proximal nerve roots with the digestion of inhibitory CSPGs in the distal denervated nerve using sustained lentiviral-mediated chondroitinase ABC (ChABC) enzyme expression. Following reimplantation of lumbar ventral roots, timed GDNF-gene therapy enhanced motoneuron survival up to 45 weeks and improved axonal outgrowth, electrophysiological recovery, and muscle reinnervation. Despite a timed GDNF expression period, a subset of animals displayed axonal coils. Lentiviral delivery of ChABC enabled digestion of inhibitory CSPGs for up to 45 weeks in the chronically denervated nerve. ChABC gene therapy alone did not enhance motoneuron survival, but led to improved muscle reinnervation and modest electrophysiological recovery during later stages of the regeneration process. Combining GDNF treatment with digestion of inhibitory CSPGs did not have a significant synergistic effect. This study suggests a delicate balance exists between treatment duration and concentration in order to achieve therapeutic effects., (© 2020 The Authors. The FASEB Journal published by Wiley Periodicals LLC on behalf of Federation of American Societies for Experimental Biology.)

Published

2020

7. Cerebellar plasticity and associative memories are controlled by perineuronal nets.

Author

Carulli D, Broersen R, de Winter F, Muir EM, Mešković M, de Waal M, de Vries S, Boele HJ, Canto CB, De Zeeuw CI, and Verhaagen J

Subjects

Animals, Extracellular Matrix, Male, Memory, Mice, Mice, Inbred C57BL, Blinking physiology, Cerebellar Nuclei physiology, Conditioning, Eyelid physiology, Nerve Net physiology, Neuronal Plasticity physiology, Neurons physiology

Abstract

Perineuronal nets (PNNs) are assemblies of extracellular matrix molecules, which surround the cell body and dendrites of many types of neuron and regulate neural plasticity. PNNs are prominently expressed around neurons of the deep cerebellar nuclei (DCN), but their role in adult cerebellar plasticity and behavior is far from clear. Here we show that PNNs in the mouse DCN are diminished during eyeblink conditioning (EBC), a form of associative motor learning that depends on DCN plasticity. When memories are fully acquired, PNNs are restored. Enzymatic digestion of PNNs in the DCN improves EBC learning, but intact PNNs are necessary for memory retention. At the structural level, PNN removal induces significant synaptic rearrangements in vivo, resulting in increased inhibition of DCN baseline activity in awake behaving mice. Together, these results demonstrate that PNNs are critical players in the regulation of cerebellar circuitry and function., Competing Interests: The authors declare no competing interest., (Copyright © 2020 the Author(s). Published by PNAS.)

Published

2020

8. Positive mental health as a predictor of recovery from mental illness.

Author

Iasiello M, van Agteren J, Keyes CLM, and Cochrane EM

Subjects

Adult, Aged, Cross-Sectional Studies, Female, Humans, Logistic Models, Longitudinal Studies, Male, Middle Aged, Odds Ratio, United States, Health Status, Mental Disorders psychology, Mental Disorders rehabilitation, Mental Health, Mental Health Recovery

Abstract

Background: High levels of positive mental health protect individuals from mental illness. This study investigates longitudinal change in positive mental health as a predictor of mental illness recovery in a cohort group., Methods: Using data from the 1995 and 2005 Midlife in the United States cross-sectional surveys (n = 1,723), logistic regression was used to estimate the odds ratio that individuals diagnosed with a mental illness in 1995 would have recovered in 2005 based on whether their level of positive mental health changed over the 10-year period., Results: Individuals who maintained or gained the highest levels of positive mental health were more than 27.6 and 7.4 times, respectively, more likely to recover when compared to those who maintained the lowest level of positive mental health. Those who maintained or gained moderate levels of positive mental health had more moderate likelihood of recovery, and those whose positive mental health declined to the lowest levels had no significantly different likelihood of recovery compared to participants whose positive mental health remained low., Limitations: This study was limited by the age of the data, and the inability to control for some predictors of recovery., Conclusions: This study suggests that positive mental health may be an important resource for individuals to recover from mental illness and stay mentally healthy. Results point to the need to include positive mental health assessment and interventions into mental health care systems., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

9. Regional responses to the challenge of delivering integrated care to older people with mental health problems in rural Australia.

Author

Henderson J, Dawson S, Fuller J, O'Kane D, Gerace A, Oster C, and Cochrane EM

Subjects

Aged, Attitude of Health Personnel, Health Personnel, Humans, Qualitative Research, South Australia, Aging, Delivery of Health Care, Integrated, Mental Disorders therapy, Mental Health Services, Rural Health Services, Rural Population

Abstract

Objective: Integrated care has been identified as means of managing the demands on the healthcare budget while improving access to and quality of services. It is particularly pertinent to rural health services, which face limited access to specialist and support services. This paper explores the capacity of three rural communities in South Australia to deliver integrated mental health support for older people., Methods: Thirty-one interviews were conducted with local health and social service providers from mental health, community health, general practice, residential aged care, private practice, NGOs and local government as part of a larger action research project on service integration., Results: Participants highlighted differences in service delivery between the communities related to size of the community and access to services. Three structural barriers to delivery of integrated care were identified. These are as follows: fragmentation of governmental responsibility, the current funding climate, and centralisation and standardisation of service delivery., Conclusion: We conclude that despite a focus upon integrated care in mental health policy, many features of current service delivery undermine the flexibility and informal relationships that typically underpin integration in rural communities.

Published

2018

10. Immune-evasive gene switch enables regulated delivery of chondroitinase after spinal cord injury.

Author

Burnside ER, De Winter F, Didangelos A, James ND, Andreica EC, Layard-Horsfall H, Muir EM, Verhaagen J, and Bradbury EJ

Subjects

Animals, Chondroitin ABC Lyase pharmacology, Disease Models, Animal, Female, Gene Expression Regulation, Gene Transfer Techniques, Nerve Regeneration drug effects, Neuronal Plasticity drug effects, Rats, Rats, Mutant Strains, Recovery of Function physiology, Spinal Cord pathology, Spinal Cord Injuries physiopathology, Transgenes genetics, Chondroitin ABC Lyase administration & dosage, Genetic Therapy methods, Spinal Cord Injuries drug therapy

Abstract

Chondroitinase ABC is a promising preclinical therapy that promotes functional neuroplasticity after CNS injury by degrading extracellular matrix inhibitors. Efficient delivery of chondroitinase ABC to the injured mammalian spinal cord can be achieved by viral vector transgene delivery. This approach dramatically modulates injury pathology and restores sensorimotor functions. However, clinical development of this therapy is limited by a lack of ability to exert control over chondroitinase gene expression. Prior experimental gene regulation platforms are likely to be incompatible with the non-resolving adaptive immune response known to occur following spinal cord injury. Therefore, here we apply a novel immune-evasive dual vector system, in which the chondroitinase gene is under a doxycycline inducible regulatory switch, utilizing a chimeric transactivator designed to evade T cell recognition. Using this novel vector system, we demonstrate tight temporal control of chondroitinase ABC gene expression, effectively removing treatment upon removal of doxycycline. This enables a comparison of short and long-term gene therapy paradigms in the treatment of clinically-relevant cervical level contusion injuries in adult rats. We reveal that transient treatment (2.5 weeks) is sufficient to promote improvement in sensory axon conduction and ladder walking performance. However, in tasks requiring skilled reaching and grasping, only long term treatment (8 weeks) leads to significantly improved function, with rats able to accurately grasp and retrieve sugar pellets. The late emergence of skilled hand function indicates enhanced neuroplasticity and connectivity and correlates with increased density of vGlut1+ innervation in spinal cord grey matter, particularly in lamina III-IV above and below the injury. Thus, our novel gene therapy system provides an experimental tool to study temporal effects of extracellular matrix digestion as well as an encouraging step towards generating a safer chondroitinase gene therapy strategy, longer term administration of which increases neuroplasticity and recovery of descending motor control. This preclinical study could have a significant impact for tetraplegic individuals, for whom recovery of hand function is an important determinant of independence, and supports the ongoing development of chondroitinase gene therapy towards clinical application for the treatment of spinal cord injury.

Published

2018

11. Transplantation of canine olfactory ensheathing cells producing chondroitinase ABC promotes chondroitin sulphate proteoglycan digestion and axonal sprouting following spinal cord injury.

Author

Carwardine D, Prager J, Neeves J, Muir EM, Uney J, Granger N, and Wong LF

Subjects

Animals, Dog Diseases pathology, Dogs, Olfactory Mucosa cytology, Olfactory Mucosa metabolism, Spinal Cord Injuries metabolism, Spinal Cord Injuries pathology, Axons, Chondroitin ABC Lyase biosynthesis, Chondroitin Sulfate Proteoglycans metabolism, Dog Diseases metabolism, Olfactory Mucosa transplantation, Spinal Cord Injuries veterinary

Abstract

Olfactory ensheathing cell (OEC) transplantation is a promising strategy for treating spinal cord injury (SCI), as has been demonstrated in experimental SCI models and naturally occurring SCI in dogs. However, the presence of chondroitin sulphate proteoglycans within the extracellular matrix of the glial scar can inhibit efficient axonal repair and limit the therapeutic potential of OECs. Here we have used lentiviral vectors to genetically modify canine OECs to continuously deliver mammalian chondroitinase ABC at the lesion site in order to degrade the inhibitory chondroitin sulphate proteoglycans in a rodent model of spinal cord injury. We demonstrate that these chondroitinase producing canine OECs survived at 4 weeks following transplantation into the spinal cord lesion and effectively digested chondroitin sulphate proteoglycans at the site of injury. There was evidence of sprouting within the corticospinal tract rostral to the lesion and an increase in the number of corticospinal axons caudal to the lesion, suggestive of axonal regeneration. Our results indicate that delivery of the chondroitinase enzyme can be achieved with the genetically modified OECs to increase axon growth following SCI. The combination of these two promising approaches is a potential strategy for promoting neural regeneration following SCI in veterinary practice and human patients.

Published

2017

12. Electrospun silk-polyaniline conduits for functional nerve regeneration in rat sciatic nerve injury model.

Author

Das S, Sharma M, Saharia D, Sarma KK, Muir EM, and Bora U

Subjects

Animals, Biocompatible Materials chemistry, Biocompatible Materials toxicity, Cell Line, Disease Models, Animal, Female, Fibroins, Materials Testing, Nanocomposites chemistry, Nanocomposites toxicity, Peripheral Nerve Injuries pathology, Peripheral Nerve Injuries physiopathology, Rats, Rats, Sprague-Dawley, Schwann Cells cytology, Schwann Cells drug effects, Sciatic Nerve pathology, Sciatic Nerve physiopathology, Sciatic Neuropathy pathology, Sciatic Neuropathy physiopathology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Tissue Scaffolds chemistry, Aniline Compounds chemistry, Aniline Compounds toxicity, Nerve Regeneration drug effects, Nerve Regeneration physiology, Peripheral Nerve Injuries therapy, Sciatic Nerve injuries, Sciatic Neuropathy therapy, Silk

Abstract

The present study describes the fabrication of polyaniline-silk fibroin (PASF) nanocomposite-based nerve conduits and their subsequent implantation in a rat sciatic nerve injury model for peripheral nerve regeneration. This is the first in vivo study of polyaniline-based nerve conduits describing the safety and efficacy of the conduits in treating peripheral nerve injuries. The nanocomposite was synthesized by electrospinning a mixture of silk fibroin protein and polyaniline wherein the silk nanofibers were observed to be uniformly coated with polyaniline nanoparticles. Tubular shaped nerve conduits were subsequently formed by multiple rolling of the electrospun sheet over a stainless steel mandrel. The conduits were characterized in vitro for their physico-chemical properties as well as their compatibility with rat Schwann cells. Upon implantation in a 10 mm sciatic nerve injury model, the conduits were evaluated for their neuro-regenerative potential through extensive electrophysiological studies and monitoring of gait pattern over a course of 12 months. Gross examination, histological and ultra-structure analyses of the conduits and the regenerated nerve were also performed to evaluate morphological regeneration of transected nerve. PASF nanocomposite conduits seeded with Schwann cell (cell seeded PASF) exhibited excellent nerve conduction velocity (NCV) (50 m s -1 ), compound muscle action potential (CMAP) (12.8 mV), motor unit potential (MUP) (124 μV), growth of healthy tissue along the nerve gap and thick myelination of axons 12 months after implantation indicating enhanced neuro-regeneration. The excellent functional recovery achieved by animals implanted with cell seeded PASF conduits (86.2% NCV; 80.00% CMAP; 76.07% MUP) are superior to outcomes achieved previously with similar electrically conductive conduits. We believe that the present study would encourage further research in developing electrically active neural implants using synthetic conducting polymers and the in vivo applications of the same.

Published

2017

13. Canine olfactory ensheathing cells from the olfactory mucosa can be engineered to produce active chondroitinase ABC.

Author

Carwardine D, Wong LF, Fawcett JW, Muir EM, and Granger N

Subjects

Animals, Bacterial Proteins genetics, Blotting, Western, Chondroitin ABC Lyase genetics, Chondroitin Sulfate Proteoglycans metabolism, Dogs, Genetic Vectors, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, HEK293 Cells, HeLa Cells, Humans, Immunohistochemistry, Lentivirus genetics, Olfactory Mucosa transplantation, Proteus vulgaris enzymology, Proteus vulgaris genetics, Receptors, Nerve Growth Factor metabolism, Spinal Cord Injuries therapy, Chondroitin ABC Lyase metabolism, Olfactory Mucosa cytology, Olfactory Mucosa enzymology, Transduction, Genetic methods

Abstract

A multitude of factors must be overcome following spinal cord injury (SCI) in order to achieve clinical improvement in patients. It is thought that by combining promising therapies these diverse factors could be combatted with the aim of producing an overall improvement in function. Chondroitin sulphate proteoglycans (CSPGs) present in the glial scar that forms following SCI present a significant block to axon regeneration. Digestion of CSPGs by chondroitinase ABC (ChABC) leads to axon regeneration, neuronal plasticity and functional improvement in preclinical models of SCI. However, the enzyme activity decays at body temperature within 24-72h, limiting the translational potential of ChABC as a therapy. Olfactory ensheathing cells (OECs) have shown huge promise as a cell transplant therapy in SCI. Their beneficial effects have been demonstrated in multiple small animal SCI models as well as in naturally occurring SCI in canine patients. In the present study, we have genetically modified canine OECs from the mucosa to constitutively produce enzymatically active ChABC. We have developed a lentiviral vector that can deliver a mammalian modified version of the ChABC gene to mammalian cells, including OECs. Enzyme production was quantified using the Morgan-Elson assay that detects the breakdown products of CSPG digestion in cell supernatants. We confirmed our findings by immunolabelling cell supernatant samples using Western blotting. OECs normal cell function was unaffected by genetic modification as demonstrated by normal microscopic morphology and the presence of the low affinity neurotrophin receptor (p75(NGF)) following viral transduction. We have developed the means to allow production of active ChABC in combination with a promising cell transplant therapy for SCI repair., (Copyright © 2016. Published by Elsevier B.V.)

Published

2016

14. Chondroitinase gene therapy improves upper limb function following cervical contusion injury.

Author

James ND, Shea J, Muir EM, Verhaagen J, Schneider BL, and Bradbury EJ

Subjects

Analysis of Variance, Animals, Chondroitin ABC Lyase biosynthesis, Chondroitin ABC Lyase genetics, Disease Models, Animal, Electric Stimulation, Gait Disorders, Neurologic etiology, Gait Disorders, Neurologic therapy, Lentivirus genetics, Male, Muscle Strength physiology, Neural Conduction physiology, Psychomotor Disorders etiology, Psychomotor Disorders therapy, Rats, Rats, Sprague-Dawley, Recovery of Function genetics, Spinal Cord Injuries complications, Spinal Cord Injuries pathology, Chondroitin ABC Lyase therapeutic use, Forelimb physiology, Genetic Therapy methods, Recovery of Function physiology, Spinal Cord Injuries therapy

Abstract

Chondroitin sulphate proteoglycans (CSPGs) are known to be important contributors to the intensely inhibitory environment that prevents tissue repair and regeneration following spinal cord injury. The bacterial enzyme chondroitinase ABC (ChABC) degrades these inhibitory molecules and has repeatedly been shown to promote functional recovery in a number of spinal cord injury models. However, when used to treat more traumatic and clinically relevant spinal contusion injuries, findings with the ChABC enzyme have been inconsistent. We recently demonstrated that delivery of mammalian-compatible ChABC via gene therapy led to sustained and widespread digestion of CSPGs, resulting in significant functional repair of a moderate thoracic contusion injury in adult rats. Here we demonstrate that chondroitinase gene therapy significantly enhances upper limb function following cervical contusion injury, with improved forelimb ladder performance and grip strength as well as increased spinal conduction through the injury site and reduced lesion pathology. This is an important addition to our previous findings as improving upper limb function is a top priority for spinal injured patients. Additionally great importance is placed on replication in the spinal cord injury field. That chondroitinase gene therapy has now been shown to be efficacious in contusion models at either thoracic or cervical level is an important step in the further development of this promising therapeutic strategy towards the clinic., (Copyright © 2015. Published by Elsevier Inc.)

Published

2015

15. Improving the network management of integrated primary mental healthcare for older people in a rural Australian region: protocol for a mixed methods case study.

Author

Fuller J, Oster C, Dawson S, O'Kane D, Lawn S, Henderson J, Gerace A, Reed R, Nosworthy A, Galley P, McPhail R, and Cochrane EM

Subjects

Aged, Delivery of Health Care, Integrated standards, Humans, Mental Health Services standards, Quality Improvement organization & administration, Quality Improvement standards, Rural Health Services standards, Social Welfare, South Australia, Delivery of Health Care, Integrated organization & administration, Mental Health Services organization & administration, Rural Health Services organization & administration

Abstract

Introduction: An integrated approach to the mental healthcare of older people is advocated across health, aged care and social care sectors. It is not clear, however, how the management of integrated servicing should occur, although interorganisational relations theory suggests a reflective network approach using evaluation feedback. This research will test a network management approach to help regional primary healthcare organisations improve mental health service integration., Methods and Analysis: This mixed methods case study in rural South Australia will test facilitated reflection within a network of health and social care services to determine if this leads to improved integration. Engagement of services will occur through a governance group and a series of three 1-day service stakeholder workshops. Facilitated reflection and evaluation feedback will use information from a review of health sector and local operational policies, a network survey about current service links, gaps and enablers and interviews with older people and their carers about their help seeking journeys. Quantitative and qualitative analysis will describe the policy enablers and explore the current and ideal links between services. The facilitated reflection will be developed to maximise engagement of senior management in the governance group and the service staff at the operational level in the workshops. Benefit will be assessed through indicators of improved service coordination, collective ownership of service problems, strengthened partnerships, agreed local protocols and the use of feedback for accountability., Ethics, Benefits and Dissemination: Ethics approval will deal with the sensitivities of organisational network research where data anonymity is not preserved. The benefit will be the tested utility of a facilitated reflective process for a network of health and social care services to manage linked primary mental healthcare for older people in a rural region. Dissemination will make use of the sectoral networks of the governance group., (Published by the BMJ Publishing Group Limited. For permission to use (where not already granted under a licence) please go to http://group.bmj.com/group/rights-licensing/permissions.)

Published

2014

16. AAV vector-mediated secretion of chondroitinase provides a sensitive tracer for axonal arborisations.

Author

Alves JN, Muir EM, Andrews MR, Ward A, Michelmore N, Dasgupta D, Verhaagen J, Moloney EB, Keynes RJ, Fawcett JW, and Rogers JH

Subjects

Animals, Antigens metabolism, Antigens, CD metabolism, Axons metabolism, Brain cytology, Brain metabolism, Calcium-Binding Proteins metabolism, Chondroitin ABC Lyase genetics, Dependovirus genetics, Glial Fibrillary Acidic Protein metabolism, Green Fluorescent Proteins genetics, Green Fluorescent Proteins metabolism, Male, Microfilament Proteins metabolism, Plant Lectins metabolism, Proteoglycans metabolism, Rats, Receptors, N-Acetylglucosamine metabolism, Transduction, Genetic methods, Axons physiology, Chondroitin ABC Lyase metabolism, Genetic Vectors physiology, Neurons cytology

Abstract

As part of a project to express chondroitinase ABC (ChABC) in neurons of the central nervous system, we have inserted a modified ChABC gene into an adeno-associated viral (AAV) vector and injected it into the vibrissal motor cortex in adult rats to determine the extent and distribution of expression of the enzyme. A similar vector for expression of green fluorescent protein (GFP) was injected into the same location. For each vector, two versions with minor differences were used, giving similar results. After 4 weeks, the brains were stained to show GFP and products of chondroitinase digestion. Chondroitinase was widely expressed, and the AAV-ChABC and AAV-GFP vectors gave similar expression patterns in many respects, consistent with the known projections from the directly transduced neurons in vibrissal motor cortex and adjacent cingulate cortex. In addition, diffusion of vector to deeper neuronal populations led to labelling of remote projection fields which was much more extensive with AAV-ChABC than with AAV-GFP. The most notable of these populations are inferred to be neurons of cortical layer 6, projecting widely in the thalamus, and neurons of the anterior pole of the hippocampus, projecting through most of the hippocampus. We conclude that, whereas GFP does not label the thinnest axonal branches of some neuronal types, chondroitinase is efficiently secreted from these arborisations and enables their extent to be sensitively visualised. After 12 weeks, chondroitinase expression was undiminished., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published

2014

17. Large-scale chondroitin sulfate proteoglycan digestion with chondroitinase gene therapy leads to reduced pathology and modulates macrophage phenotype following spinal cord contusion injury.

Author

Bartus K, James ND, Didangelos A, Bosch KD, Verhaagen J, Yáñez-Muñoz RJ, Rogers JH, Schneider BL, Muir EM, and Bradbury EJ

Subjects

Animals, Cells, Cultured, Chondroitin Sulfate Proteoglycans administration & dosage, Disease Models, Animal, Electric Stimulation, Female, Gene Expression Regulation physiology, Injections, Spinal, Nerve Tissue Proteins metabolism, Neural Conduction drug effects, Neural Conduction physiology, Psychomotor Performance physiology, Rats, Rats, Sprague-Dawley, Spinal Cord Injuries pathology, Spinal Cord Injuries physiopathology, Time Factors, Chondroitin ABC Lyase genetics, Chondroitin Sulfate Proteoglycans metabolism, Genetic Therapy methods, Macrophages physiology, Spinal Cord Injuries therapy

Abstract

Chondroitin sulfate proteoglycans (CSPGs) inhibit repair following spinal cord injury. Here we use mammalian-compatible engineered chondroitinase ABC (ChABC) delivered via lentiviral vector (LV-ChABC) to explore the consequences of large-scale CSPG digestion for spinal cord repair. We demonstrate significantly reduced secondary injury pathology in adult rats following spinal contusion injury and LV-ChABC treatment, with reduced cavitation and enhanced preservation of spinal neurons and axons at 12 weeks postinjury, compared with control (LV-GFP)-treated animals. To understand these neuroprotective effects, we investigated early inflammatory changes following LV-ChABC treatment. Increased expression of the phagocytic macrophage marker CD68 at 3 d postinjury was followed by increased CD206 expression at 2 weeks, indicating that large-scale CSPG digestion can alter macrophage phenotype to favor alternatively activated M2 macrophages. Accordingly, ChABC treatment in vitro induced a significant increase in CD206 expression in unpolarized monocytes stimulated with conditioned medium from spinal-injured tissue explants. LV-ChABC also promoted the remodelling of specific CSPGs as well as enhanced vascularity, which was closely associated with CD206-positive macrophages. Neuroprotective effects of LV-ChABC corresponded with improved sensorimotor function, evident as early as 1 week postinjury, a time point when increased neuronal survival correlated with reduced apoptosis. Improved function was maintained into chronic injury stages, where improved axonal conduction and increased serotonergic innervation were also observed. Thus, we demonstrate that ChABC gene therapy can modulate secondary injury processes, with neuroprotective effects that lead to long-term improved functional outcome and reveal novel mechanistic evidence that modulation of macrophage phenotype may underlie these effects.

Published

2014

18. Combination of engineered Schwann cell grafts to secrete neurotrophin and chondroitinase promotes axonal regeneration and locomotion after spinal cord injury.

Author

Kanno H, Pressman Y, Moody A, Berg R, Muir EM, Rogers JH, Ozawa H, Itoi E, Pearse DD, and Bunge MB

Subjects

Animals, Axons drug effects, Axons physiology, Bioengineering, Chondroitin ABC Lyase biosynthesis, Disease Models, Animal, Enzyme-Linked Immunosorbent Assay, Female, Hyperalgesia physiopathology, Luminescent Proteins genetics, Luminescent Proteins metabolism, Mice, Nerve Growth Factors biosynthesis, Nerve Regeneration drug effects, Pain Threshold physiology, Rats, Rats, Inbred F344, Schwann Cells transplantation, Serotonin, Chondroitin ABC Lyase metabolism, Locomotion physiology, Nerve Growth Factors metabolism, Nerve Regeneration physiology, Schwann Cells metabolism, Spinal Cord Injuries physiopathology, Spinal Cord Injuries surgery

Abstract

Transplantation of Schwann cells (SCs) is a promising therapeutic strategy for spinal cord repair. SCs introduced into lesions support axon regeneration, but because these axons do not exit the transplant, additional approaches with SCs are needed. Here, we transplanted SCs genetically modified to secrete a bifunctional neurotrophin (D15A) and chondroitinase ABC (ChABC) into a subacute contusion injury in rats. We examined the effects of these modifications on graft volume, SC number, degradation of chondroitin sulfate proteoglycans (CSPGs), astrogliosis, SC myelination of axons, propriospinal and supraspinal axon numbers, locomotor outcome (BBB scoring, CatWalk gait analysis), and mechanical and thermal sensitivity on the hind paws. D15A secreted from transplanted SCs increased graft volume and SC number and myelinated axon number. SCs secreting ChABC significantly decreased CSPGs, led to some egress of SCs from the graft, and increased propriospinal and 5-HT-positive axons in the graft. SCs secreting both D15A and ChABC yielded the best responses: (1) the largest number of SC myelinated axons, (2) more propriospinal axons in the graft and host tissue around and caudal to it, (3) more corticospinal axons closer to the graft and around and caudal to it, (4) more brainstem neurons projecting caudal to the transplant, (5) increased 5-HT-positive axons in the graft and caudal to it, (6) significant improvement in aspects of locomotion, and (7) improvement in mechanical and thermal allodynia. This is the first evidence that the combination of SC transplants engineered to secrete neurotrophin and chondroitinase further improves axonal regeneration and locomotor and sensory function.

Published

2014

19. Lentiviral vectors express chondroitinase ABC in cortical projections and promote sprouting of injured corticospinal axons.

Author

Zhao RR, Muir EM, Alves JN, Rickman H, Allan AY, Kwok JC, Roet KC, Verhaagen J, Schneider BL, Bensadoun JC, Ahmed SG, Yáñez-Muñoz RJ, Keynes RJ, Fawcett JW, and Rogers JH

Subjects

Animals, Cells, Cultured, Chondroitin ABC Lyase administration & dosage, Chondroitin ABC Lyase biosynthesis, Genetic Vectors administration & dosage, Genetic Vectors biosynthesis, HEK293 Cells, Humans, Male, Mice, Pyramidal Tracts enzymology, Rats, Sheep, Spinal Cord Injuries genetics, Cerebral Cortex enzymology, Chondroitin ABC Lyase genetics, Gene Expression Regulation, Enzymologic, Genetic Vectors genetics, Lentivirus genetics, Nerve Regeneration genetics, Spinal Cord Injuries enzymology

Abstract

Several diseases and injuries of the central nervous system could potentially be treated by delivery of an enzyme, which might most effectively be achieved by gene therapy. In particular, the bacterial enzyme chondroitinase ABC is beneficial in animal models of spinal cord injury. We have adapted the chondroitinase gene so that it can direct secretion of active chondroitinase from mammalian cells, and inserted it into lentiviral vectors. When injected into adult rat brain, these vectors lead to extensive secretion of chondroitinase, both locally and from long-distance axon projections, with activity persisting for more than 4 weeks. In animals which received a simultaneous lesion of the corticospinal tract, the vector reduced axonal die-back and promoted sprouting and short-range regeneration of corticospinal axons. The same beneficial effects on damaged corticospinal axons were observed in animals which received the chondroitinase lentiviral vector directly into the vicinity of a spinal cord lesion., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

20. Modification of N-glycosylation sites allows secretion of bacterial chondroitinase ABC from mammalian cells.

Author

Muir EM, Fyfe I, Gardiner S, Li L, Warren P, Fawcett JW, Keynes RJ, and Rogers JH

Subjects

Amino Acid Sequence, Animals, Binding Sites, Cells, Cultured, Chondroitin ABC Lyase genetics, Enzyme Activation, Enzyme Stability, Glycosylation, Molecular Sequence Data, Protein Binding, Proteus vulgaris genetics, Rabbits, Recombinant Proteins metabolism, Chondroitin ABC Lyase chemistry, Chondroitin ABC Lyase metabolism, Cloning, Molecular methods, Mutagenesis, Site-Directed methods, Protein Engineering methods, Proteus vulgaris enzymology, Reticulocytes physiology

Abstract

Although many eukaryotic proteins have been secreted by transfected bacterial cells, little is known about how a bacterial protein is treated as it passes through the secretory pathway when expressed in a eukaryotic cell. The eukaryotic N-glycosylation system could interfere with folding and secretion of prokaryotic proteins whose sequence has not been adapted for glycosylation in structurally appropriate locations. Here we show that such interference does indeed occur for chondroitinase ABC from the bacterium Proteus vulgaris, and can be overcome by eliminating potential N-glycosylation sites. Chondroitinase ABC was heavily glycosylated when expressed in mammalian cells or in a mammalian translation system, and this process prevented secretion of functional enzyme. Directed mutagenesis of selected N-glycosylation sites allowed efficient secretion of active chondroitinase. As these proteoglycans are known to inhibit regeneration of axons in the mammalian central nervous system, the modified chondroitinase gene is a potential tool for gene therapy to promote neural regeneration, ultimately in human spinal cord injury.

Published

2010

21. Effects of Schwann cell transplants in an experimental nerve amputee model.

Author

Lago N, Casas C, Muir EM, Rogers J, and Navarro X

Subjects

Analysis of Variance, Animals, Axotomy methods, Cell Line, Transformed transplantation, Cells, Cultured, Disease Models, Animal, Female, Glial Cell Line-Derived Neurotrophic Factor metabolism, Guided Tissue Regeneration, Nerve Fibers, Myelinated physiology, Rats, Rats, Sprague-Dawley, S100 Proteins metabolism, Sciatic Neuropathy physiopathology, Time Factors, Nerve Regeneration, Schwann Cells physiology, Schwann Cells transplantation, Sciatic Neuropathy surgery

Abstract

Purpose: By using a nerve amputee model of the rat sciatic nerve (Lago and Navarro, 2007), we have tested a strategy for the long-term maintenance of regenerated axons without distal target reinnervation, by grafting Schwann cells (SCs) into a capped silicone chamber containing the ending nerve stump., Methods: The sciatic nerve of rats was transected and repaired with a silicone tube, the distal nerve was again cut at 10 mm and inserted in a capped tube that was filled with saline or with a suspension of cultured SCs. Transplants of SCs obtained from primary cultures have been compared with those of an immortalized SC line (SCTM41) or the same line overexpressing GDNF., Results: The histological results show that nerve fibers were able to regenerate through a short distal nerve segment ending into the capped chamber, and sustain distal branches without degenerating for several months. There was abundant axonal sprouting forming an ending neuroma, and the caliber of myelinated fibers remained far thinner than normal during the 9 months investigated. With a distal transplant of primary SCs there were significantly more regenerated myelinated fibers than in the control group at 9 months, indicating that the grafted cells stimulated the axonal growth response and helped to maintain survival of axon branches. In contrast, axonal regeneration was significantly reduced with grafts of SCTM41 cells, probably due to physical competition between cell proliferation and axonal growth. SCTM41 cells overexpressing GDNF improved the regenerative response with respect to the parent SCTM41 cells, although not to the same extent as the primary SCs., Conclusion: A graft of primary SCs in the capped chamber stimulated axonal growth response and/or maintained survival of axonal branches on the long term in the nerve amputee model.

Published

2009

22. Transplantation of Schwann cell line clones secreting GDNF or BDNF into the retinas of dystrophic Royal College of Surgeons rats.

Author

Lawrence JM, Keegan DJ, Muir EM, Coffey PJ, Rogers JH, Wilby MJ, Fawcett JW, and Lund RD

Subjects

Animals, Behavior, Animal physiology, Brain-Derived Neurotrophic Factor genetics, Cell Line, Cell Survival, Cell Transplantation, Clone Cells, Gene Transfer Techniques, Genetic Vectors, Glial Cell Line-Derived Neurotrophic Factor, Head Movements physiology, Nerve Growth Factors genetics, Photoreceptor Cells, Vertebrate pathology, Rats, Rats, Mutant Strains, Retinal Degeneration metabolism, Retinal Degeneration pathology, Retroviridae genetics, Vision, Ocular physiology, Brain-Derived Neurotrophic Factor metabolism, Nerve Growth Factors metabolism, Retinal Degeneration surgery, Schwann Cells metabolism, Schwann Cells transplantation

Abstract

Purpose: To assess the capacity of a retrovirus-engineered Schwann cell line (SCTM41), transfected with either a glial cell line-derived neurotrophic factor (GDNF) construct or a brain-derived neurotrophic factor (BDNF) construct, to sustain visual function in the dystrophic Royal College of Surgeons (RCS) rat., Methods: Cell suspensions were injected into the subretinal space of the right eye of 3-week-old dystrophic RCS rats through a transscleral approach. The left eye remained as an unoperated control. Sham-surgery animals received injections of carrier medium plus DNase to the right eye. All animals were placed on oral cyclosporine. At 8, 12, 16, and 20 weeks of age, animals were placed in a head-tracking apparatus and screened for their ability to track square-wave gratings at various spatial frequencies (0.125, 0.25, and 0.5 cyc/deg). At the end of the experiment, the animals were perfused and processed for histologic assessment of photoreceptor survival., Results: Animals with SCTM41-GDNF-secreting cells, on average, head tracked longer than animals with SCTM41-BDNF-secreting cells, and both performed better than those injected with the parent SCTM41 line. All tracked longer than sham-surgery or nonsurgical dystrophic eyes. Each cell type demonstrated preservation of photoreceptors up to at least 4 months of age, over and above the sham-surgery control., Conclusions: Engineered Schwann cells sustain retinal structure and function in the dystrophic RCS rat. Cells overexpressing GDNF or BDNF had a greater effect on photoreceptor survival than the parent line or sham surgery. This study demonstrates that ex vivo gene therapy and subsequent cell transplantation can be effective in preserving photoreceptors from the cell death that normally accompanies retinal degeneration.

Published

2004

23. A herpesvirus vector can transduce axotomized brain neurons.

Author

Rogers JH, Rhodes K, Roberts S, Raza M, Muir EM, Fawcett JW, Scarpini CG, and Efstathiou S

Subjects

Animals, Axotomy, Brain Injuries pathology, Cytomegalovirus genetics, Disease Models, Animal, Female, Genes, Reporter, Genetic Vectors genetics, Medial Forebrain Bundle injuries, Medial Forebrain Bundle pathology, Medial Forebrain Bundle physiopathology, Neurons physiology, Promoter Regions, Genetic, Rats, Substantia Nigra metabolism, Substantia Nigra pathology, Ventral Tegmental Area metabolism, Ventral Tegmental Area pathology, beta-Galactosidase biosynthesis, beta-Galactosidase genetics, Brain Injuries physiopathology, Genetic Vectors administration & dosage, Herpesviridae genetics, Neurons metabolism, Transduction, Genetic methods

Abstract

If gene therapy is to be used to promote axon regeneration after spinal cord injury, a suitable vector for transgene delivery must be obtained. Replication-defective herpes simplex virus (HSV) vectors are promising candidates. We have examined whether they can express a LacZ transgene in injured neurons of adult rat brain. We transected the medial forebrain bundle, injected replication-defective HSV/LacZ vectors close to the lesion site, and looked for transgene expression at 2-14 days after the lesion. The vectors carried the LacZ transgene controlled either by the cytomegalovirus immediate-early promoter (vector CS5) or the HSV latency-associated promoter (vector CS1). CS5 transfected many cells near the lesion at 2 days, but did not give persistent expression at 5 days. CS1, in contrast, labeled many neurons in midbrain regions remote from the injection site at 5 days, and much of this expression remained at 12-14 days. The neurons of most interest were in the substantia nigra pars compacta and parabrachial nuclei, which were axotomized by the lesion. Vector-driven beta-galactosidase expression was detected in neurons in both regions. These were confirmed as axotomized by double immunofluorescence for c-Jun. By 12-14 days, many substantia nigra neurons had disappeared but some transduced neurons remained; there was no net loss of transduced neurons from the parabrachial nuclei. These results show that an HSV vector is capable of transducing axotomized cells in the central nervous system and producing transgene expression in them for at least 2 weeks after injection.

Published

2003

24. Matrix metalloproteases and their inhibitors are produced by overlapping populations of activated astrocytes.

Author

Muir EM, Adcock KH, Morgenstern DA, Clayton R, von Stillfried N, Rhodes K, Ellis C, Fawcett JW, and Rogers JH

Subjects

Animals, Animals, Newborn, Antibody Specificity, Astrocytes cytology, Brain pathology, Brain physiopathology, Brain Injuries pathology, Brain Injuries physiopathology, Cells, Cultured, Cerebral Cortex enzymology, Cerebral Cortex injuries, Cerebral Cortex physiopathology, Chondroitin Sulfate Proteoglycans metabolism, Cytokines metabolism, Cytokines pharmacology, Gliosis pathology, Gliosis physiopathology, Growth Cones enzymology, In Situ Hybridization, Matrix Metalloproteinase 2 drug effects, Matrix Metalloproteinase 2 metabolism, Matrix Metalloproteinase 3 genetics, Matrix Metalloproteinase 3 metabolism, Matrix Metalloproteinase 9 drug effects, Matrix Metalloproteinase 9 metabolism, Matrix Metalloproteinases genetics, RNA, Messenger metabolism, Rats, Tissue Inhibitor of Metalloproteinase-2 genetics, Tissue Inhibitor of Metalloproteinase-2 metabolism, Tissue Inhibitor of Metalloproteinase-3 drug effects, Tissue Inhibitor of Metalloproteinase-3 metabolism, Tissue Inhibitor of Metalloproteinases genetics, Up-Regulation physiology, Tissue Inhibitor of Metalloproteinase-4, Astrocytes enzymology, Brain enzymology, Brain Injuries enzymology, Gliosis enzymology, Matrix Metalloproteinases metabolism, Nerve Regeneration physiology, Tissue Inhibitor of Metalloproteinases metabolism

Abstract

Matrix metalloproteases (MMPs) and tissue inhibitors of metalloproteases (TIMPs) are involved in many cell migration phenomena and produced by many cell types, including neurons and glia. To assess their possible roles in brain injury and regeneration, we investigate their production by glial cells, after brain injury and in tissue culture, and we investigate whether they are capable of digesting known axon-inhibitory proteoglycans. To determine the action of MMPs, we incubated astrocyte conditioned medium with activated MMPs, then did western blots for several chondroitin sulphate proteoglycans. MMP-3 digested all five proteoglycans tested, whereas MMP-2 digested only two and MMP-9 none. To determine whether MMPs or TIMPs are produced by astrocytes in vitro, we tested both primary cultures and astrocyte cell lines by western blotting, and compared them with Schwann cells. All cultures produced at least some MMPs and TIMPs, with no obvious correlation with the ability of axons to grow on those cells. Both MMP-9 and TIMP-3 were regulated by various cytokines. To determine which cells produce MMPs and TIMPs after brain injury, we made lesions of adult rat cortex, and did immunohistochemistry. MMP-2 was seen to be induced in activated astrocytes through the whole thickness of the cortex but not deeper, but MMP-3 was not seen in the injured brain. TIMP-2 and TIMP-3 immunoreactivities were induced in activated astrocytes in deep cortex and the underlying white matter. In situ hybridisation confirmed induction of TIMP-2 in glia as well as neurons, but showed no expression of TIMP-4. These results show that both MMPs and TIMPs are produced by some astrocytes, but TIMP production is particularly strong, especially in deep cortex and white matter which is more inhibitory for axon regeneration. Conversely the MMPs produced may not be adequate to promote migration of cells and axons within the glial scar.

Published

2002

25. Green fluorescent protein as a quantitative tool.

Author

Hack NJ, Billups B, Guthrie PB, Rogers JH, Muir EM, Parks TN, and Kater SB

Subjects

Animals, Calbindin 2, Calcium metabolism, Fluorescent Antibody Technique, Green Fluorescent Proteins, Humans, Male, S100 Calcium Binding Protein G analysis, Teratocarcinoma, Testicular Neoplasms, Tumor Cells, Cultured, Indicators and Reagents, Luminescent Proteins, S100 Calcium Binding Protein G metabolism

Abstract

Manipulating the expression of a protein can provide a powerful tool for understanding its function, provided that the protein is expressed at physiologically-significant concentrations. We have developed a simple method to measure (1) the concentration of an overexpressed protein in single cells and (2) the covariation of particular physiological properties with a protein's expression. As an example of how this method can be used, teratocarcinoma cells were transfected with the neuron-specific calcium binding protein calretinin (CR) tagged with green fluorescent protein (GFP). By measuring GFP fluorescence in microcapillaries, we created a standard curve for GFP fluorescence that permitted quantification of CR concentrations in individual cells. Fura-2 measurements in the same cells showed a strong positive correlation between CR-GFP fusion protein expression levels and calcium clearance capacity. This method should allow reliable quantitative analysis of GFP fusion protein expression.

Published

2000

26. Distribution of the receptor EphA7 and its ligands in development of the mouse nervous system.

Author

Rogers JH, Ciossek T, Ullrich A, West E, Hoare M, and Muir EM

Subjects

Animals, Animals, Newborn, Brain embryology, Brain enzymology, Brain growth & development, Embryo, Mammalian enzymology, Gene Expression Regulation, Developmental, Gene Expression Regulation, Enzymologic, Immunohistochemistry, In Situ Hybridization, Ligands, Mice, Nervous System embryology, Nervous System growth & development, RNA, Messenger genetics, Receptor Protein-Tyrosine Kinases metabolism, Receptor, EphA7, Spinal Cord embryology, Spinal Cord enzymology, Spinal Cord growth & development, Tissue Distribution, Nervous System enzymology, Receptor Protein-Tyrosine Kinases genetics

Abstract

EphA7 is a receptor tyrosine kinase of the Eph family. We have mapped EphA7 immunoreactivity and ligand binding in mouse embryo heads and developing brain. Immunoreactivity for the full-length receptor is found in all the cell populations that express EphA7 mRNA. In particular, it is located on growing axons from EphA7-expressing neurons, both in the trigeminal nerve and in developing brain. In many cases it persists in terminal fields in adult brain. Ligand is detected in a largely complementary distribution in embryos, but is surprisingly weak or undetectable in the target regions of many EphA7-positive axons postnatally.

Published

1999

27. N-Cadherin inhibits Schwann cell migration on astrocytes.

Author

Wilby MJ, Muir EM, Fok-Seang J, Gour BJ, Blaschuk OW, and Fawcett JW

Subjects

Amino Acid Sequence, Animals, Animals, Newborn, Astrocytes cytology, Calcium physiology, Cell Adhesion drug effects, Cell Adhesion physiology, Cell Aggregation drug effects, Cell Aggregation physiology, Cell Line, Cell Movement drug effects, Cell Movement physiology, Cells, Cultured, Fibroblasts drug effects, Fibroblasts physiology, Microscopy, Video, Oligopeptides pharmacology, Peptide Fragments pharmacology, Schwann Cells cytology, Skin cytology, Astrocytes physiology, Cadherins physiology, Schwann Cells physiology, Sciatic Nerve physiology

Abstract

Astrocytes exclude Schwann cells (SCs) from the central nervous system (CNS) at peripheral nerve entry zones and restrict their migration after transplantation into the CNS. We have modeled the interactions between SCs, astrocytes, and fibroblasts in vitro. Astrocytes and SCs in vitro form separate territories, with sharp boundaries between them. SCs migrate poorly when placed on astrocyte monolayers, but migrate well on various other surfaces such as laminin (LN) and skin fibroblasts. Interactions between individual SCs and astrocytes result in long-lasting adhesive contacts during which the SC is unable to migrate away from the astrocyte. In contrast, SC interactions with fibroblasts are much shorter with less arrest of migration. SCs adhere strongly to astrocytes and other SCs, but less well to substrates that promote migration, such as LN and fibroblasts. SC-astrocyte and SC-SC adhesion is mediated by the calcium-dependent cell adhesion molecule N-cadherin. Inhibition of N-cadherin function by calcium withdrawal, peptides containing the classical cadherin cell adhesion recognition sequence His-Ala-Val, or antibodies directed against this sequence inhibit SC adhesion and increase SC migration on astrocytes. We suggest that N-cadherin-mediated adhesion to astrocytes inhibits the widespread migration of SCs in CNS tissue., (Copyright 1999 Academic Press.)

Published

1999

28. A glial cell line-derived neurotrophic factor-secreting clone of the Schwann cell line SCTM41 enhances survival and fiber outgrowth from embryonic nigral neurons grafted to the striatum and to the lesioned substantia nigra.

Author

Wilby MJ, Sinclair SR, Muir EM, Zietlow R, Adcock KH, Horellou P, Rogers JH, Dunnett SB, and Fawcett JW

Subjects

Animals, Biomarkers, Cell Line, Clone Cells, Coculture Techniques, Dopamine physiology, Glial Cell Line-Derived Neurotrophic Factor, Mesencephalon cytology, Rats, Schwann Cells metabolism, Schwann Cells transplantation, Substantia Nigra cytology, Substantia Nigra pathology, Transfection, Corpus Striatum physiology, Graft Survival physiology, Nerve Fibers physiology, Nerve Growth Factors, Nerve Tissue Proteins metabolism, Neurons transplantation, Schwann Cells physiology, Substantia Nigra physiology

Abstract

We have developed a novel Schwann cell line, SCTM41, derived from postnatal sciatic nerve cultures and have stably transfected a clone with a rat glial cell line-derived neurotrophic factor (GDNF) construct. Coculture with this GDNF-secreting clone enhances in vitro survival and fiber growth of embryonic dopaminergic neurons. In the rat unilateral 6-OHDA lesion model of Parkinson's disease, we have therefore made cografts of these cells with embryonic day 14 ventral mesencephalic grafts and assayed for effects on dopaminergic cell survival and process outgrowth. We show that cografts of GDNF-secreting Schwann cell lines improve the survival of intrastriatal embryonic dopaminergic neuronal grafts and improve neurite outgrowth into the host neuropil but have no additional effect on amphetamine-induced rotation. We next looked to see whether bridge grafts of GDNF-secreting SCTM41 cells would promote the growth of axons to their striatal targets from dopaminergic neurons implanted orthotopically into the 6-OHDA-lesioned substantia nigra. We show that such bridge grafts increase the survival of implanted embryonic dopaminergic neurons and promote the growth of axons through the grafts to the striatum.

Published

1999

29. Functional and anatomical reconstruction of the 6-hydroxydopamine lesioned nigrostriatal system of the adult rat.

Author

Brecknell JE, Haque NS, Du JS, Muir EM, Fidler PS, Hlavin ML, Fawcett JW, and Dunnett SB

Subjects

Amphetamine pharmacology, Animals, Axons enzymology, Axons immunology, Axons physiology, Behavior, Animal drug effects, Cell Line transplantation, Corpus Striatum anatomy & histology, Corpus Striatum drug effects, Dopamine physiology, Efferent Pathways, Female, Fluorescent Dyes, Mesencephalon cytology, Neurons cytology, Neurons enzymology, Neurons ultrastructure, Rats, Rats, Inbred Strains, Rotation, Substantia Nigra anatomy & histology, Substantia Nigra drug effects, Tyrosine 3-Monooxygenase metabolism, Brain Tissue Transplantation, Corpus Striatum cytology, Fetal Tissue Transplantation, Oxidopamine pharmacology, Schwann Cells transplantation, Stilbamidines, Substantia Nigra cytology

Abstract

In an attempt to reconstruct the 6-hydroxydopamine lesioned nigrostriatal system of the adult rat we have combined homotopic grafting of embryonic ventral mesencephalon suspensions with the implantation of long oblique "bridge" grafts of fibroblast growth factor-4-transfected RN-22 schwannoma cells stretching from the site of the neuronal grafts to the striatum. At seven weeks after receiving both grafts, animals were killed and processed for immunohistochemistry against tyrosine hydroxylase. Tyrosine hydroxylase-immunoreactive axons were seen to extend from the nigral grafts, along the bridge graft to the striatum where terminal arborizations could be seen. The retrograde tracer Fluoro-gold was injected intrastriatally in some of the experimental animals and was taken up by grafted neurons confirming their projection to the striatum. In parallel to the anatomical reconstruction of the system, a decrease in amphetamine-induced rotation was demonstrated in those animals receiving both grafts which had received > 98% complete lesions. This decrease was greatest in those animals with the most tyrosine hydroxylase-immunoreactive axons in their bridge grafts. The presence of the bridge graft also led to an increase in neuronal graft survival with twice as many tyrosine hydroxylase-immunoreactive neurons being found in the grafts of those animals that had received both grafts compared to those that had received a neuronal graft but no bridge graft.

Published

1996

30. T-cell epitope analysis using subtracted expression libraries (TEASEL): application to a 38-kDA autoantigen recognized by T cells from an insulin-dependent diabetic patient.

Author

Neophytou PI, Roep BO, Arden SD, Muir EM, Duinkerken G, Kallan A, de Vries RR, and Hutton JC

Subjects

Amino Acid Sequence, Base Sequence, CD4-Positive T-Lymphocytes immunology, Cloning, Molecular methods, DNA, Complementary genetics, Gene Library, Humans, Lymphocyte Activation, Molecular Sequence Data, Autoantigens genetics, Diabetes Mellitus, Type 1 immunology, Epitope Mapping methods, Islets of Langerhans immunology

Abstract

Studies on circulating T cells and antibodies in newly diagnosed type 1 diabetic patients and rodent models of autoimmune diabetes suggest that beta-cell membrane proteins of 38 kDa may be important molecular targets of autoimmune attack. Biochemical approaches to the isolation and identification of the 38-kDa autoantigen have been hampered by the restricted availability of islet tissue and the low abundance of the protein. A procedure of epitope analysis for CD4+ T cells using subtracted expression libraries (TEASEL) was developed and used to clone a 70-amino acid pancreatic beta-cell peptide incorporating an epitope recognized by a 38-kDa-reactive CD4+ T-cell clone (1C6) isolated from a human diabetic patient. The minimal epitope was mapped to a 10-amino acid synthetic peptide containing a DR1 consensus binding motif. Data base searches did not reveal the identity of the protein, though a weak homology to the bacterial superantigens SEA (Streptococcus pyogenes exotoxin A) and SEB (Staphylococcus aureus enterotoxin B) (23% identity) was evident. The TEASEL procedure might be used to identify epitopes of other autoantigens recognized by CD4+ T cells in diabetes as well as be more generally applicable to the study low-abundance autoantigens in other tissue-specific autoimmune diseases.

Published

1996

31. A subtractive cloning approach to the identification of mRNAs specifically expressed in pancreatic beta-cells.

Author

Neophytou PI, Muir EM, and Hutton JC

Subjects

Animals, Base Sequence, Cells, Cultured, Cloning, Molecular methods, DNA Primers chemistry, Gene Expression, Gene Library, Mice, Molecular Sequence Data, RNA, Messenger genetics, Rats, Islets of Langerhans physiology

Abstract

A polymerase chain reaction-based subtractive hybridization procedure was applied to cDNAs prepared from mouse insulinoma (beta TC3) and glucagonoma (alpha TC2) cell lines to construct a library of cDNAs that are highly expressed in pancreatic beta-cells. An analysis of 555 randomly chosen clones in the library showed that 80 were derived from abundant mRNAs and were accounted for by 29 distinct sequences. Of these, 17 were identical or homologous to known mammalian cDNAs or expressed sequence tags. Genes known to be highly expressed in beta-cells were represented at a high frequency, namely insulin (15 of 80 clones), islet amyloid polypeptide (8 of 80 clones), proinsulin convertase 1 (6 of 80 clones), and neuropeptide Y (2 of 80 clones). Many of the novel cDNA sequences that were highly represented in the library showed a relative specificity to beta-cells compared with other tissues, including glucagonoma, liver, kidney, brain, 3T3 fibroblasts, and AtT20 corticotrophs, and warrant further investigation. When combined with functional or immunological screening procedures, the approach will be useful for the isolation of beta-cell-specific molecules for immunological and genetic investigations of beta-cell function and pathology.

Published

1996

32. Calbindin D28K expression in transfected mouse NIH3T3 cells.

Author

Muir EM, Lawson DE, Sepúlveda FV, O'Brien JA, and Harding M

Subjects

3T3 Cells, Animals, Calbindin 1, Calbindins, Chickens, Mice, RNA, Messenger genetics, S100 Calcium Binding Protein G genetics, Transfection, Calcium metabolism, Gene Expression Regulation, S100 Calcium Binding Protein G metabolism

Abstract

Calbindin D28K (formerly known as vitamin D-dependent calcium binding protein and referred to here as calbindin) is found in a wide variety of tissues, but only in certain cells within those tissues. Apart from its ability to bind calcium, nothing is known about its function in these cells. To investigate its role we have transfected the chick calbindin cDNA into mouse NIH3T3 fibroblasts and established a new cell line where calbindin is permanently expressed. Immunofluorescence studies show that calbindin is distributed throughout the cytoplasm, and treatment of the cells with cycloheximide shows that it has a relatively long half-life within the cell. Measurements of intracellular calcium concentration using Fura-2 suggest that the presence of calbindin within the cells does not affect the increase in intracellular calcium levels which occurs in response to serum stimulation or the rate at which these return to the basal level, but that it may act as a buffer for the entry of extracellular calcium.

Published

1993

33. Modification of the rate of pinocytosis in arterial smooth muscle cells in culture.

Author

Leake DS, Muir EM, and Bowyer DE

Subjects

Animals, Aorta, Cells, Cultured, Colchicine pharmacology, Cytochalasin B pharmacology, Dextrans pharmacology, Microscopy, Phase-Contrast, Muscle, Smooth, Vascular cytology, Muscle, Smooth, Vascular metabolism, Phospholipids pharmacology, Povidone metabolism, Swine, Tuftsin pharmacology, Muscle, Smooth, Vascular drug effects, Pinocytosis drug effects

Published

1982

34. Dependence of fluid-phase pinocytosis in arterial smooth-muscle cells on temperature, cellular ATP concentration and the cytoskeletal system.

Author

Muir EM and Bowyer DE

Subjects

Adenosine Triphosphate metabolism, Animals, Antimetabolites pharmacology, Cells, Cultured, Microtubules drug effects, Microtubules metabolism, Muscle, Smooth, Vascular cytology, Muscle, Smooth, Vascular drug effects, Myofibrils drug effects, Myofibrils metabolism, Swine, Temperature, Muscle, Smooth, Vascular metabolism, Pinocytosis drug effects

Abstract

125I-labelled poly(vinylpyrrolidone) was used as a marker of fluid-phase pinocytosis in cultured pig arterial smooth-muscle cells. The rate of pinocytosis was temperature-dependent. A decrease in cellular ATP concentrations as a result of inhibition of either glycolysis or oxidative phosphorylation was associated with a similar decrease in pinocytosis. A microfibrillar-disruptive agent, cytochalasin B, caused a concentration-dependent stimulation of pinocytosis, whereas the microtubular-disruptive agents colchicine and vinblastine decreased pinocytosis to approximately half of control values at all concentrations used. These results indicate that fluid-phase pinocytosis in smooth-muscle cells is dependent on a continuing supply of energy and the integrity of the microtubules. Furthermore, microfilaments appear to exert a certain degree of constraint on pinocytosis, possibly by restricting invagination of the plasma membrane.

Published

1983

35. Inhibition of pinocytosis and induction of release of lysosomal contents by lysosomal overload of arterial smooth muscle cells in vitro.

Author

Muir EM and Bowyer DE

Subjects

Animals, Arteries metabolism, Cells, Cultured, Glucuronidase metabolism, Swine, Lysosomes metabolism, Muscle, Smooth, Vascular metabolism, Pinocytosis

Abstract

Lysosomal overload was induced experimentally in cultured aortic smooth muscle cells by incubation with chloroquine or sucrose. Lysosomal overload was accompanied by a marked reduction in pinocytosis and induced the release of lysosomal contents into the medium. Thus, previously accumulated pinocytic tracer and beta-glucuronidase, a lysosomal enzyme, were released into the medium whereas lactate dehydrogenase, a cytosolic enzyme, was not.

Published

1984