Local Immunomodulation with Anti-inflammatory Cytokine-Encoding Lentivirus Enhances Functional Recovery after Spinal Cord Injury

Park, Jonghyuck; Decker, Joseph T.; Margul, Daniel J.; Smith, Dominique R.; Cummings, Brian J.; Anderson, Aileen J.; Shea, Lonnie D.

doi:10.1016/j.ymthe.2018.04.022

Cited by 62 publications

(95 citation statements)

References 70 publications

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“…A number of groups have reported that IL10 treatment after a thoracic SCI can lead to intraspinal sparing of neurons, axons, and lesion size that is associated with improved locomotor function [23][24][25][26][27][28][29]. We have also previously demonstrated in a left-sided, thoracic SCI that IL10 can shift the inflammatory milieu toward a pro-regenerative phenotype, which was associated with significantly improved locomotor function [37,38] and consistent with the results here in the cervical model. Thoracic injuries that employ behavioral tests such as the basso mouse scale for locomotion, which is controlled by central pattern generators (CPGs) that can be unilaterally activated to initiate bilateral locomotor behavior, may not fully capture the deficit from the unilateral injury.…”

Section: Discussionsupporting

confidence: 89%

“…After 48hrs, the supernatant was collected and the virus was precipitated using PEG-It (Systems Biosciences, Palo Alto, CA, #LV825A-1) and stored at -80°C until use. Prior to surgery, 4e7 IFU of virus was loaded onto each PLG scaffold, which were fabricated as previously described using the gas foaming technique to fuse PLG particles into a matrix [20,38,40]. Using the particulate leaching technique, 63-106 µm NaCl served as sacrificial templates for pores to allow cell infiltration into the scaffold and a sugar mixture pulled into nine 150-250 µm diameter A-P parallel strands served as sacrificial templates for conduits to guide nerve growth [36,41].…”

Section: Lentiviral Gene Deliverymentioning

confidence: 99%

“…Lentivirus delivery has previously been shown to induce localized and sustained transgene expression [36]. Lentiviral IL10 expression can shift post-SCI gene expression towards an anti-inflammatory profile [37,38]. We initially analyzed behavioral recovery using a ladder beam at 2 and 12 weeks postinjury (wpi).…”

Section: Introductionmentioning

confidence: 99%

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Lentiviral interleukin-10 gene therapy preserves fine motor circuitry and function after a cervical spinal cord injury in male and female mice

Chen

Patel

et al. 2020

Preprint

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In mammals, spinal cord injuries often result in muscle paralysis through the apoptosis of lower motor neurons and denervation of neuromuscular junctions. Previous research shows that the inflammatory response to a spinal cord injury can cause additional tissue damage after the initial trauma. To modulate this inflammatory response, we delivered lentiviral anti-inflammatory interleukin-10, via loading onto an implantable biomaterial scaffold, into a left-sided hemisection at the C5 vertebra in mice. We hypothesized that improved behavioral outcomes associated with anti-inflammatory treatment are due to the sparing of fine motor circuit components. We examined behavioral recovery using a ladder beam, lower motor neuron apoptosis and muscle innervation using histology, and electromyogram recordings using intraspinal optogenetic stimulation at 2 weeks post-injury. Ladder beam analysis shows interleukin-10 treatment results in significant improvement of behavioral recovery at 2 and 12 weeks post-injury when compared to mice treated with a control virus. Histology shows interleukin-10 results in greater numbers of lower motor neurons and muscle innervation at 2 weeks post-injury. Furthermore, electromyogram recordings suggest that interleukin-10-treated animals have signal-to-noise ratios and peak-to-peak amplitudes more similar to that of uninjured controls than to that of control injured animals at 2 weeks post-injury. These data show that gene therapy using anti-inflammatory interleukin-10 can significantly reduce lower motor neuron loss, muscle denervation, and subsequent motor deficits after a spinal cord injury. Together, these results suggest that early modulation of the injury response can preserve muscle function with long-lasting benefits.

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Section: Discussionsupporting

confidence: 89%

Section: Lentiviral Gene Deliverymentioning

confidence: 99%

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Lentiviral interleukin-10 gene therapy preserves fine motor circuitry and function after a cervical spinal cord injury in male and female mice

Chen

Patel

et al. 2020

Preprint

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“…M2 macrophage activation facilitates spinal cord repair in SCI, which is associated with the promotion of neuronal survival 37 . Integrating the previous findings, the current observations that Rictor overexpression reduced apoptosis in host neurons and oligodendrocytes in the injured lesion may benefit the neurite outgrowth and synaptic plasticity after traumatic SCI 38 …”

Section: Discussionsupporting

confidence: 67%

Overexpression of Rictor in the injured spinal cord promotes functional recovery in a rat model of spinal cord injury

et al. 2020

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Rictor is an essential component that directly activates the mammalian target of rapamycin (mTOR) activity, which contributes to the intrinsic axon growth capacity of adult sensory neurons after injury. However, whether its action also applies to regeneration after spinal cord injury (SCI) remains unknown. In this study, rats were given spinal cord contusion at the T9‐10 level to establish the SCI model and were subsequently treated with intraspinal cord injection of a Rictor overexpression lentiviral vector to locally upregulate the Rictor expression in the injured spinal cord. Thereafter, we investigated the therapeutic effects of Rictor overexpression in the injured spinal cords of SCI rats. Rictor overexpression not only significantly attenuated the acute inflammatory response and cell death after SCI but also markedly increased the shift in macrophages around the lesion from the M1 to M2 phenotype compared to those of the control lentiviral vector injection‐treated group. Furthermore, Rictor overexpression dramatically increased neurogenesis in the lesion epicenter, subsequently promoting the tissue repair and functional recovery in SCI rats. Interestingly, the mechanism underlying the beneficial effects of Rictor overexpression on SCI may be associated with the Rictor overexpression playing a role in the anti‐inflammatory response and driving macrophage polarization toward the M2 phenotype, which benefits resident neuronal and oligodendrocyte survival. Our findings demonstrate that Rictor is an effective target that affects the generation of molecules that inhibit spinal cord regeneration. In conclusion, localized Rictor overexpression represents a promising potential strategy for the repair of SCI.

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“…2A peptides can lead to high levels of downstream protein expression compared to other strategies for multi gene co-expression and are small enough to not negatively interfere with the function of the coexpressed genes 21 . IL-10 can alter the phenotype of invading macrophages towards a pro-regenerative phenotype and lead to improved spinal cord regeneration 22,23 , while NT-3 expression can promote neuron survival and axonal elongation 19 . Herein, we investigated the potential for co-expression to influence macrophage phenotypes, axonal elongation and myelination, and source of the myelination at 12 weeks post injury, with subsequent studies assessing the functional benefits of co-delivery.…”

Section: Introductionmentioning

confidence: 99%

PLG Bridge Implantation in Chronic SCI Promotes Axonal Elongation and Myelination

Smith

Ciciriello

Guo

et al. 2019

ACS Biomater. Sci. Eng.

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One million estimated cases of spinal cord injury (SCI) have been reported in the United States and repairing an injury has constituted a difficult clinical challenge. The complex, dynamic, inhibitory microenvironment post injury, which is characterized by pro-inflammatory signaling from invading leukocytes and lack of sufficient factors that promote axonal survival and elongation, limits regeneration. Herein, we investigated the delivery of polycistronic vectors, which have the potential to co-express factors that target distinct barriers to regeneration, from a multiple channel PLG bridge to enhance spinal cord regeneration. In the present study, we investigated polycistronic delivery of IL-10, that targets pro-inflammatory signaling, and NT-3 that targets axonal survival and elongation. A significant increase was observed in the density of regenerative macrophages for IL-10+NT-3 condition relative to conditions without IL-10. Furthermore, combined delivery of IL-10+NT-3 produced a significant increase of axonal density and notably myelinated axons compared to all other conditions. A significant increase in functional recovery was observed for IL-10+NT-3 delivery at 12 wpi that was positively correlated to oligodendrocyte myelinated axon density, suggesting oligodendrocyte-mediated myelination as an important target to improve functional recovery. These results further support the use of multiple channel PLG bridges as a growth supportive substrate and platform to deliver bioactive agents to modulate the SCI microenvironment and promote regeneration and functional recovery.

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Local Immunomodulation with Anti-inflammatory Cytokine-Encoding Lentivirus Enhances Functional Recovery after Spinal Cord Injury

Cited by 62 publications

References 70 publications

Lentiviral interleukin-10 gene therapy preserves fine motor circuitry and function after a cervical spinal cord injury in male and female mice

Lentiviral interleukin-10 gene therapy preserves fine motor circuitry and function after a cervical spinal cord injury in male and female mice

Overexpression of Rictor in the injured spinal cord promotes functional recovery in a rat model of spinal cord injury

PLG Bridge Implantation in Chronic SCI Promotes Axonal Elongation and Myelination

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