Retrogradely Transportable Lentivirus Tracers for Mapping Spinal Cord Locomotor Circuits

Retrograde tracing is a key facet of neuroanatomical studies involving long distance projection neurons. Previous groups have utilized a variety of tools ranging from classical chemical tracers to newer methods employing viruses for gene delivery. Here, we highlight the usage of a lentivirus that pe...

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Vydané v:	Frontiers in neural circuits Ročník 12; s. 60
Hlavní autori:	Sheikh, Imran S., Keefe, Kathleen M., Sterling, Noelle A., Junker, Ian P., Eneanya, Chidubem I., Liu, Yingpeng, Tang, Xiao-Qing, Smith, George M.
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Switzerland Frontiers Research Foundation 25.07.2018 Frontiers Media S.A
Predmet:	Anatomy Animals Axonal Transport - physiology Brain architecture Circuits corticospinal Disease Models, Animal Female Forelimb - physiology Gene transfer Glycoproteins Hindlimb - physiology HIV Human immunodeficiency virus Interneurons - physiology Labeling Laboratory animals Lentivirus Locomotion - physiology Motor Neurons - physiology Nervous system Neural Pathways - physiology Neural Pathways - physiopathology Neuroscience Presynapse propriospinal Rabies Rats Rats, Sprague-Dawley Recovery of Function - physiology reticulospinal retrograde tracing Retrograde transport Rodents rubrospinal Spinal cord Spinal Cord - physiology Spinal cord injuries Spinal Cord Injuries - physiopathology Thorax Tracers Tropical diseases Vectors (Biology) Viruses reticulospinal rubrospinal spontaneous recovery corticospinal propriospinal spinal cord lentivirus retrograde tracing
ISSN:	1662-5110, 1662-5110
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Abstract	Retrograde tracing is a key facet of neuroanatomical studies involving long distance projection neurons. Previous groups have utilized a variety of tools ranging from classical chemical tracers to newer methods employing viruses for gene delivery. Here, we highlight the usage of a lentivirus that permits highly efficient retrograde transport (HiRet) from synaptic terminals within the cervical and lumbar enlargements of the spinal cord. By injecting HiRet, we can clearly identify supraspinal and propriospinal circuits innervating motor neuron pools relating to forelimb and hindlimb function. We observed robust labeling of propriospinal neurons, including high fidelity details of dendritic arbors and axon terminals seldom seen with chemical tracers. In addition, we examine changes in interneuronal circuits occurring after a thoracic contusion, highlighting populations that potentially contribute to spontaneous behavioral recovery in this lesion model. Our study demonstrates that the HiRet lentivirus is a unique tool for examining neuronal circuitry within the brain and spinal cord.
AbstractList	Retrograde tracing is a key facet of neuroanatomical studies involving long distance projection neurons. Previous groups have utilized a variety of tools ranging from classical chemical tracers to newer methods employing viruses for gene delivery. Here, we highlight the usage of a lentivirus that permits highly efficient retrograde transport (HiRet) from synaptic terminals within the cervical and lumbar enlargements of the spinal cord. By injecting HiRet, we can clearly identify supraspinal and propriospinal circuits innervating motor neuron pools relating to forelimb and hindlimb function. We observed robust labeling of propriospinal neurons, including high fidelity details of dendritic arbors and axon terminals seldom seen with chemical tracers. In addition, we examine changes in interneuronal circuits occurring after a thoracic contusion, highlighting populations that potentially contribute to spontaneous behavioral recovery in this lesion model. Our study demonstrates that the HiRet lentivirus is a unique tool for examining neuronal circuitry within the brain and spinal cord. Retrograde tracing is a key facet of neuroanatomical studies involving long distance projection neurons. Previous groups have utilized a variety of tools ranging from classical chemical tracers to newer methods employing viruses for gene delivery. Here, we highlight the usage of a lentivirus that permits highly efficient retrograde transport (HiRet) from synaptic terminals within the cervical and lumbar enlargements of the spinal cord. By injecting HiRet, we can clearly identify supraspinal and propriospinal circuits innervating motor neuron pools relating to forelimb and hindlimb function. We observed robust labeling of propriospinal neurons, including high fidelity details of dendritic arbors and axon terminals seldom seen with chemical tracers. In addition, we examine changes in interneuronal circuits occurring after a thoracic contusion, highlighting populations that potentially contribute to spontaneous behavioral recovery in this lesion model. Our study demonstrates that the HiRet lentivirus is a unique tool for examining neuronal circuitry within the brain and spinal cord.Retrograde tracing is a key facet of neuroanatomical studies involving long distance projection neurons. Previous groups have utilized a variety of tools ranging from classical chemical tracers to newer methods employing viruses for gene delivery. Here, we highlight the usage of a lentivirus that permits highly efficient retrograde transport (HiRet) from synaptic terminals within the cervical and lumbar enlargements of the spinal cord. By injecting HiRet, we can clearly identify supraspinal and propriospinal circuits innervating motor neuron pools relating to forelimb and hindlimb function. We observed robust labeling of propriospinal neurons, including high fidelity details of dendritic arbors and axon terminals seldom seen with chemical tracers. In addition, we examine changes in interneuronal circuits occurring after a thoracic contusion, highlighting populations that potentially contribute to spontaneous behavioral recovery in this lesion model. Our study demonstrates that the HiRet lentivirus is a unique tool for examining neuronal circuitry within the brain and spinal cord.
Author	Junker, Ian P. Liu, Yingpeng Keefe, Kathleen M. Tang, Xiao-Qing Smith, George M. Eneanya, Chidubem I. Sheikh, Imran S. Sterling, Noelle A.
AuthorAffiliation	Department of Neuroscience, Shriners Hospitals Pediatric Research Center, Center for Neural Rehabilitation and Repair, Lewis Katz School of Medicine, Temple University , Philadelphia, PA , United States
AuthorAffiliation_xml	– name: Department of Neuroscience, Shriners Hospitals Pediatric Research Center, Center for Neural Rehabilitation and Repair, Lewis Katz School of Medicine, Temple University , Philadelphia, PA , United States
Author_xml	– sequence: 1 givenname: Imran S. surname: Sheikh fullname: Sheikh, Imran S. – sequence: 2 givenname: Kathleen M. surname: Keefe fullname: Keefe, Kathleen M. – sequence: 3 givenname: Noelle A. surname: Sterling fullname: Sterling, Noelle A. – sequence: 4 givenname: Ian P. surname: Junker fullname: Junker, Ian P. – sequence: 5 givenname: Chidubem I. surname: Eneanya fullname: Eneanya, Chidubem I. – sequence: 6 givenname: Yingpeng surname: Liu fullname: Liu, Yingpeng – sequence: 7 givenname: Xiao-Qing surname: Tang fullname: Tang, Xiao-Qing – sequence: 8 givenname: George M. surname: Smith fullname: Smith, George M.
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/30090059$$D View this record in MEDLINE/PubMed
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Keywords	reticulospinal rubrospinal spontaneous recovery corticospinal propriospinal spinal cord lentivirus retrograde tracing
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Snippet	Retrograde tracing is a key facet of neuroanatomical studies involving long distance projection neurons. Previous groups have utilized a variety of tools...
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SubjectTerms	Anatomy Animals Axonal Transport - physiology Brain architecture Circuits corticospinal Disease Models, Animal Female Forelimb - physiology Gene transfer Glycoproteins Hindlimb - physiology HIV Human immunodeficiency virus Interneurons - physiology Labeling Laboratory animals Lentivirus Locomotion - physiology Motor Neurons - physiology Nervous system Neural Pathways - physiology Neural Pathways - physiopathology Neuroscience Presynapse propriospinal Rabies Rats Rats, Sprague-Dawley Recovery of Function - physiology reticulospinal retrograde tracing Retrograde transport Rodents rubrospinal Spinal cord Spinal Cord - physiology Spinal cord injuries Spinal Cord Injuries - physiopathology Thorax Tracers Tropical diseases Vectors (Biology) Viruses
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Title	Retrogradely Transportable Lentivirus Tracers for Mapping Spinal Cord Locomotor Circuits
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