Activating Neuron-Intrinsic Growth Pathways to Promote Spinal Cord Regeneration After Dorsal Root Injury PDF Download
Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Activating Neuron-Intrinsic Growth Pathways to Promote Spinal Cord Regeneration After Dorsal Root Injury PDF full book. Access full book title Activating Neuron-Intrinsic Growth Pathways to Promote Spinal Cord Regeneration After Dorsal Root Injury by Meredith Ann Manire. Download full books in PDF and EPUB format.
Author: Meredith Ann Manire
Publisher:
ISBN:
Category :
Languages : en
Pages : 154
Get Book Here
Book Description
Primary sensory axons fail to regenerate into the spinal cord following dorsal root injury leading to permanent sensory deficits. Re-entry is prevented at the dorsal root entry zone (DREZ), the CNS-PNS interface. Current approaches for promoting DR regeneration across the DREZ have had some success, but sustained, long-distance regeneration, particularly of large-diameter myelinated axons, still remains a formidable challenge. Our lab has previously shown that induced expression of constitutively active B-RAF (kaBRAF) enhanced the regenerative competence of injured DRG neurons in adult mice. In this study, I investigated whether robust intraspinal regeneration can be achieved by selective expression of kaBRAF alone or in combination with deletion of the myelin-associated inhibitors or neuron-intrinsic growth suppressors (PTEN or SOCS3). To this end, I used LSL-kaBRAF: brn3a-CreERT2 transgenic mice in which kaBRAF can be induced selectively in sensory neurons. I have also bred LSL-kaBRAF: brn3a-CreERT2 mice with triple knock-out mice lacking Nogo, Mag and OMgp or mouse lines carrying floxed alleles of PTEN or SOCS3. Single, double, and triple conditional mice were subjected to cervical DR crush and AAV2-eGFP vectors were used to selectively label regenerating axons of large-diameter neurons. I compared the extent of regeneration at 3 weeks or 2 months after DR injury using conventional anatomical and behavioral analyses. I found that kaBRAF alone promoted axon regeneration across the DREZ but did not produce significant functional recovery by two months. Supplementary deletion of Nogo, MAG, and OMgp did not improve kaBRAF-induced regeneration. Deletion of PTEN or SOCS3 individually or in combination failed to promote axon regeneration across the DREZ. In marked contrast, simultaneous deletion of PTEN, but not SOCS3, dramatically enhanced kaBRAF-mediated regeneration enabling many more axons to penetrate the DREZ and grow deep into the spinal cord. This study shows that dual activation of BRAF-MEK-ERK and PI3K-Akt signaling is an effective strategy to stimulate robust intraspinal DR regeneration and may lead to recovery of sensory function after DR injury.
Author: Meredith Ann Manire
Publisher:
ISBN:
Category :
Languages : en
Pages : 154
Get Book Here
Book Description
Primary sensory axons fail to regenerate into the spinal cord following dorsal root injury leading to permanent sensory deficits. Re-entry is prevented at the dorsal root entry zone (DREZ), the CNS-PNS interface. Current approaches for promoting DR regeneration across the DREZ have had some success, but sustained, long-distance regeneration, particularly of large-diameter myelinated axons, still remains a formidable challenge. Our lab has previously shown that induced expression of constitutively active B-RAF (kaBRAF) enhanced the regenerative competence of injured DRG neurons in adult mice. In this study, I investigated whether robust intraspinal regeneration can be achieved by selective expression of kaBRAF alone or in combination with deletion of the myelin-associated inhibitors or neuron-intrinsic growth suppressors (PTEN or SOCS3). To this end, I used LSL-kaBRAF: brn3a-CreERT2 transgenic mice in which kaBRAF can be induced selectively in sensory neurons. I have also bred LSL-kaBRAF: brn3a-CreERT2 mice with triple knock-out mice lacking Nogo, Mag and OMgp or mouse lines carrying floxed alleles of PTEN or SOCS3. Single, double, and triple conditional mice were subjected to cervical DR crush and AAV2-eGFP vectors were used to selectively label regenerating axons of large-diameter neurons. I compared the extent of regeneration at 3 weeks or 2 months after DR injury using conventional anatomical and behavioral analyses. I found that kaBRAF alone promoted axon regeneration across the DREZ but did not produce significant functional recovery by two months. Supplementary deletion of Nogo, MAG, and OMgp did not improve kaBRAF-induced regeneration. Deletion of PTEN or SOCS3 individually or in combination failed to promote axon regeneration across the DREZ. In marked contrast, simultaneous deletion of PTEN, but not SOCS3, dramatically enhanced kaBRAF-mediated regeneration enabling many more axons to penetrate the DREZ and grow deep into the spinal cord. This study shows that dual activation of BRAF-MEK-ERK and PI3K-Akt signaling is an effective strategy to stimulate robust intraspinal DR regeneration and may lead to recovery of sensory function after DR injury.
Author: Santiago Ramón y Cajal
Publisher: History of Neuroscience
ISBN: 0195065166
Category : Nervous system
Languages : en
Pages : 977
Get Book Here
Book Description
This book is a reprint of an English translation of Cajal's original work, with abundant notes and commentaries by the editor. This text describes Cajal's fundamental contributions to neuroscience, which continue to be important today. It accurately details Cajal's ideas and data, and providesreaders with the opportunity to learn what Cajal thought about his research career and the significance of his observations. Excerpts from Tello's memorial lectures also provide a contemporary view of Cajal's work.
Author: Murray Blackmore
Publisher:
ISBN:
Category : Axons
Languages : en
Pages : 422
Get Book Here
Book Description
Author: Jeffrey Kordower
Publisher: Elsevier
ISBN: 0080556981
Category : Medical
Languages : en
Pages : 523
Get Book Here
Book Description
This second edition of CNS Regeneration updates the burgeoning field of regeneration in the Central Nervous System (CNS) from molecular, systems, and disease-based perspective. While the book covers numerous areas in detail, special emphasis is given to discussions of movement disorders such as Parkinson’s disease, Alzheimer’s disease, and spinal cord injury. Incorporates information gained from cutting-edge photomicroscopy techniques Includes current information on clinical trials Presents chapters on stem cells and other novel treatments for diseases of the CNS
Author:
Publisher: Academic Press
ISBN: 0123944104
Category : Science
Languages : en
Pages : 385
Get Book Here
Book Description
This new volume of Current Topics in Developmental Biology covers the area of mechanisms in regeneration. With an international board of authors, it provides a comprehensive set of reviews covering such topics as control of growth during regeneration, skeletal muscle degeneration and regeneration in mammals and flies, and suppression of regeneration in mammals. Covers the area of mechanisms in regeneration International board of authors Provides a comprehensive set of reviews
Author: Giuseppe Perale
Publisher: Woodhead Publishing
ISBN: 0081028083
Category : Medical
Languages : en
Pages : 346
Get Book Here
Book Description
Spinal Cord Injury (SCI) Repair Strategies provides researchers the latest information on potential regenerative approaches to spinal cord injury, specifically focusing on therapeutic approaches that target regeneration, including cell therapies, controlled drug delivery systems, and biomaterials. Dr. Giuseppe Perale and Dr. Filippo Rossi lead a team of authoritative authors in academia and industry in this innovative reference on the field of regenerative medicine and tissue engineering. This book presents all the information readers need to understand the current and potential array of techniques, materials, applications and their benefits for spinal cord repair. Covers current and future repair strategies for spinal cord injury repair Focuses on key research trends, clinics, biology and engineering Provides fundamentals on regenerative engineering and tissue engineering
Author: Laura Anne Taylor
Publisher:
ISBN:
Category :
Languages : en
Pages : 183
Get Book Here
Book Description
In order for axon regeneration to result in functional recovery after spinal cord injury (SCI), axons must grow beyond lesion sites and form synapses with neuronal targets in distal host tissue. We tested the hypothesis that neurotrophic factor gradients established distal to lesion sites in adult rats would promote growth of sensory axons into and beyond a site of injury and support synapse formation in denervated targets. First, gradients of neurotrophin expression were established rostral to cell-filled C3 dorsal column lesion sites using delivery of NT-3-expressing lentiviral vectors. Sensory axons regenerated for short distances beyond lesion sites in animals treated with NT-3, but not control vectors. Long distance axon growth along neurotrophin gradients was not observed. However, when conditioning lesions, which are thought to initiate an overall growth program in neuronal cell bodies, were combined with NT-3 gradients beyond lesion sites, significantly more axons regenerated over greater distances into distal host tissue than when either treatment alone was given. We next tested the hypothesis that combinatorial treatment would promote growth of sensory axons originating from hindlimb dorsal root ganglia across C1 lesion sites into the nucleus gracilis, the termination site for these axons. Animals subjected to high cervical lesions and combinatorially treated with conditioning lesions and NT-3 exhibited significantly more axons within the nucleus gracilis than animals receiving control lentiviral vectors. Ultrastructural examination of nucleus gracilis tissue indicated the presence of possible synaptic contacts formed by regenerated axons in the denervated target. These data demonstrate that combined stimulation of a neuronal growth program (conditioning lesions) and provision of a positive stimulus at the level of the growth cone (NT-3) can promote long distance axon growth in the inhibitory environment beyond a spinal cord lesion site. In addition, combinatorial treatment can be used to guide axons to appropriate target regions and may support formation of synaptic contacts.
Author: Charles Watson
Publisher: Academic Press
ISBN: 0080921388
Category : Medical
Languages : en
Pages : 408
Get Book Here
Book Description
Many hundreds of thousands suffer spinal cord injuries leading to loss of sensation and motor function in the body below the point of injury. Spinal cord research has made some significant strides towards new treatment methods, and is a focus of many laboratories worldwide. In addition, research on the involvement of the spinal cord in pain and the abilities of nervous tissue in the spine to regenerate has increasingly been on the forefront of biomedical research in the past years. The Spinal Cord, a collaboration with the Christopher and Dana Reeve Foundation, is the first comprehensive book on the anatomy of the mammalian spinal cord. Tens of thousands of articles and dozens of books are published on this subject each year, and a great deal of experimental work has been carried out on the rat spinal cord. Despite this, there is no comprehensive and authoritative atlas of the mammalian spinal cord. Almost all of the fine details of spinal cord anatomy must be searched for in journal articles on particular subjects. This book addresses this need by providing both a comprehensive reference on the mammalian spinal cord and a comparative atlas of both rat and mouse spinal cords in one convenient source. The book provides a descriptive survey of the details of mammalian spinal cord anatomy, focusing on the rat with many illustrations from the leading experts in the field and atlases of the rat and the mouse spinal cord. The rat and mouse spinal cord atlas chapters include photographs of Nissl stained transverse sections from each of the spinal cord segments (obtained from a single unfixed spinal cord), detailed diagrams of each of the spinal cord segments pictured, delineating the laminae of Rexed and all other significant neuronal groupings at each level and photographs of additional sections displaying markers such as acetylcholinesterase (AChE), calbindin, calretinin, choline acetlytransferase, neurofilament protein (SMI 32), enkephalin, calcitonin gene-related peptide (CGRP), and neuronal nuclear protein (NeuN). The text provides a detailed account of the anatomy of the mammalian spinal cord and surrounding musculoskeletal elements The major topics addressed are: development of the spinal cord; the gross anatomy of the spinal cord and its meninges; spinal nerves, nerve roots, and dorsal root ganglia; the vertebral column, vertebral joints, and vertebral muscles; blood supply of the spinal cord; cytoarchitecture and chemoarchitecture of the spinal gray matter; musculotopic anatomy of motoneuron groups; tracts connecting the brain and spinal cord; spinospinal pathways; sympathetic and parasympathetic elements in the spinal cord; neuronal groups and pathways that control micturition; the anatomy of spinal cord injury in experimental animals The atlas of the rat and mouse spinal cord has the following features: Photographs of Nissl stained transverse sections from each of 34 spinal segments for the rat and mouse; Detailed diagrams of each of the 34 spinal segments for rat and mouse, delineating the laminae of Rexed and all other significant neuronal groupings at each level. ; Alongside each of the 34 Nissl stained segments, there are additional sections displaying markers such as acetylcholinesterase, calbindin, calretinin, choline acetlytransferase, neurofilament protein (SMI 32), and neuronal nuclear protein (NeuN) All the major motoneuron clusters are identified in relation to the individual muscles or muscle groups they supply
Author: Giovanna Gambarotta
Publisher: Frontiers Media SA
ISBN: 2889632687
Category :
Languages : en
Pages : 302
Get Book Here
Book Description
Author: Elisabetta Babetto
Publisher: Humana
ISBN: 9781071605844
Category : Science
Languages : en
Pages : 0
Get Book Here
Book Description
This book is a collection of classical as well as innovative methods used to investigate axon degeneration with a particular focus on addressing the common challenges encountered while performing these procedures. Particular attention is devoted to the study of axon loss in several model organisms, as each poses unique challenges and provides powerful advantages. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Axon Degeneration: Methods and Protocols is an ideal guide for facilitating the application and further development of these protocols, which will help the scientific community tackle important questions regarding axon degeneration. Chapters 2, 3, and 20 are available Open Access under a Creative Commons Attribution 4.0 International License via link.springer.com.
