Transplantation of GABAergic Interneurons into the Neonatal Primary Visual Cortex Reduces Absence Seizures in Stargazer Mice

Hammad, M.; Schmidt, Stephen L.; Zhang, Xuying; Bray, Ryan; Fröhlich, Flavio; Ghashghaei, H. Troy

doi:10.1093/cercor/bhu094

Cited by 41 publications

(38 citation statements)

References 47 publications

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“…This subtype-specific functional integration, observed to be complete by 35 days after transplantation (DAT), contrasts with an earlier suggestion that MGE-derived interneurons may alter network excitability in a nonspecific fashion at times before these cells become mature, e.g., 7 to 14 DAT (De la Cruz et al 2011;Hammad et al 2015;Southwell et al 2014). Our findings also suggest that emergence of subtype-specific physiological properties is determined early in development and, like interneuron precursor migration and subtype specification (Batista-Brito et al 2009;Wichterle et al 1999;Zhou et al, 2015), is cell autonomous.…”

Section: Discussionmentioning

confidence: 75%

“…Our findings also suggest that emergence of subtype-specific physiological properties is determined early in development and, like interneuron precursor migration and subtype specification (Batista-Brito et al 2009;Wichterle et al 1999;Zhou et al, 2015), is cell autonomous. Transplanted MGE progenitors have been widely shown to generate neurons expressing markers consistent with an interneuron phenotype, e.g., GAD67, GABA, PV, Sst, and NPY (Alvarez-Dolado et al 2006;Calcagnotto et al 2010;De la Cruz et al 2011;Hammad et al 2015;Henderson et al 2014;Howard et al 2014;Hunt et al 2014;Southwell et al 2010;Wichterle et al 1999). Using electrophysiological recording techniques, we now show that expression of these interneuron subtype-specific markers, PV in particular, is coincident with the functional development of a specific set of synaptic and intrinsic physiological properties.…”

Section: Discussionmentioning

confidence: 99%

“…Consistent with these findings, a near complete suppression of spontaneous seizures is observed with MGE progenitor cell transplantation as early as 30 DAT in genetic or acquired mouse models of chronic epilepsy (Baraban et al 2009;Henderson et al 2014;Hunt et al 2013). However, suppression of acutely evoked or absence-like seizure events was also reported as early as 7 to 17 DAT (De la Cruz et al 2011;Hammad et al 2015), e.g., a time when only immature MGE-derived interneurons with migratory morphology are present (Alvarez-Dolado et al 2006).…”

Section: We Have Explored How Transplanted Interneurons Which Have Pmentioning

confidence: 99%

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Synaptic integration of transplanted interneuron progenitor cells into native cortical networks

Howard

Baraban

2016

Journal of Neurophysiology

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Howard MA, Baraban SC. Synaptic integration of transplanted interneuron progenitor cells into native cortical networks. J Neurophysiol 116: 472-478, 2016. First published May 25, 2016 doi:10.1152/jn.00321.2016.-Interneuron-based cell transplantation is a powerful method to modify network function in a variety of neurological disorders, including epilepsy. Whether new interneurons integrate into native neural networks in a subtype-specific manner is not well understood, and the therapeutic mechanisms underlying interneuron-based cell therapy, including the role of synaptic inhibition, are debated. In this study, we tested subtype-specific integration of transplanted interneurons using acute cortical brain slices and visualized patch-clamp recordings to measure excitatory synaptic inputs, intrinsic properties, and inhibitory synaptic outputs. Fluorescently labeled progenitor cells from the embryonic medial ganglionic eminence (MGE) were used for transplantation. At 5 wk after transplantation, MGE-derived parvalbumin-positive (PVϩ) interneurons received excitatory synaptic inputs, exhibited mature interneuron firing properties, and made functional synaptic inhibitory connections to native pyramidal cells that were comparable to those of native PVϩ interneurons. These findings demonstrate that MGE-derived PVϩ interneurons functionally integrate into subtype-appropriate physiological niches within host networks following transplantation. cell therapy; interneuron; medial ganglionic eminence; neural transplant; synaptic integration

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Section: Discussionmentioning

confidence: 75%

Section: Discussionmentioning

confidence: 99%

Section: We Have Explored How Transplanted Interneurons Which Have Pmentioning

confidence: 99%

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Synaptic integration of transplanted interneuron progenitor cells into native cortical networks

Howard

Baraban

2016

Journal of Neurophysiology

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“…No data points were removed from statistical analyses. Sample sizes for behavioral experiments were not determined statistically but are in accordance with common practice 1, 2 . All statistical analyses were conducted in Microsoft Excel and GraphPad Prism.…”

Section: Methodsmentioning

confidence: 99%

Developmentally defined forebrain circuits regulate appetitive and aversive olfactory learning

et al. 2016

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Postnatal and adult neurogenesis are region- and modality-specific, but the significance of developmentally distinct neuronal populations remains unclear. We demonstrate that chemogenetic inactivation of a subset of forebrain and olfactory neurons generated at birth disrupts responses to an aversive odor. In contrast, novel appetitive odor learning is sensitive to inactivation of adult born neurons, unveiling that developmentally defined sets of neurons may differentially participate in hedonic aspects of sensory learning.

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“…A 90% reduction in seizure events was observed in grafted mutant animals over the course of a month-long monitoring period. In another model of acquired epilepsy (Hammad et al, 2015), neonatal transplantation of MGE cells also yielded a significant decrease in the frequency and duration of epilepsy episodes, as early as 3 weeks posttransplantation. Concomitantly, transplantation seemed to promote survival of the mutant animals, as 80% of the MGE graft recipients survived up to 4 months compared to an average survival of 29 days for control animals.…”

Section: Disease-modifying Properties Of Mge Transplantsmentioning

confidence: 99%

Transplantation of GABAergic interneurons for cell-based therapy

Spatazza

Leon

Alvarez-Buylla

2017

Functional Neural Transplantation IV - Translation to Clinical Application, Part B

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Many neurological disorders stem from defects in or the loss of specific neurons. Neuron transplantation has tremendous clinical potential for central nervous system therapy as it may allow for the targeted replacement of those cells that are lost in diseases. Normally, most neurons are added during restricted periods of embryonic and fetal development. The permissive milieu of the developing brain promotes neuronal migration, neuronal differentiation, and synaptogenesis. Once this active period of neurogenesis ends, the chemical and physical environment of the brain changes dramatically. The brain parenchyma becomes highly packed with neuronal and glial processes, extracellular matrix, myelin, and synapses. The migration of grafted cells to allow them to home into target regions and become functionally integrated is a key challenge to neuronal transplantation. Interestingly, transplanted young telencephalic inhibitory interneurons are able to migrate, differentiate, and integrate widely throughout the postnatal brain. These grafted interneurons can also functionally modify local circuit activity. These features have facilitated the use of interneuron transplantation to study fundamental neurodevelopmental processes including cell migration, cell specification, and programmed neuronal cell death. Additionally, these cells provide a unique opportunity to develop interneuron-based strategies for the treatment of diseases linked to interneuron dysfunction and neurological disorders associated to circuit hyperexcitability.

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Transplantation of GABAergic Interneurons into the Neonatal Primary Visual Cortex Reduces Absence Seizures in Stargazer Mice

Cited by 41 publications

References 47 publications

Synaptic integration of transplanted interneuron progenitor cells into native cortical networks

Synaptic integration of transplanted interneuron progenitor cells into native cortical networks

Developmentally defined forebrain circuits regulate appetitive and aversive olfactory learning

Transplantation of GABAergic interneurons for cell-based therapy

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