Cryopreservation of GABAergic Neuronal Precursors for Cell-Based Therapy

Rodríguez–Martínez, Daniel; Martínez-Losa, María Magdalena; Álvarez‐Dolado, Manuel

doi:10.1371/journal.pone.0170776

Cited by 11 publications

(8 citation statements)

References 43 publications

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“…MGE cells were transplanted into the brain and differentiated into interneurons, expressing GABA and specific interneuron markers, such as PV, SST, NPY, and calretinin (CR). Their ratios were similar to those typically produced by the MGE during development and conform to their intrinsically defined differentiation program ( Rodriguez-Martinez et al, 2017 ). All of these properties make MGE cells the most promising neuronal progenitor cells for cell-based therapies for interneuron disorder-related diseases.…”

Section: The Medial Ganglionic Eminence Cell Is a Reliable Source Of ...supporting

confidence: 68%

Application of Medial Ganglionic Eminence Cell Transplantation in Diseases Associated With Interneuron Disorders

Han

2022

Front. Cell. Neurosci.

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Excitatory projection neurons and inhibitory interneurons primarily accomplish the neural activity of the cerebral cortex, and an imbalance of excitatory-inhibitory neural networks may lead to neuropsychiatric diseases. Gamma-aminobutyric acid (GABA)ergic interneurons mediate inhibition, and the embryonic medial ganglionic eminence (MGE) is a source of GABAergic interneurons. After transplantation, MGE cells migrate to different brain regions, differentiate into multiple subtypes of GABAergic interneurons, integrate into host neural circuits, enhance synaptic inhibition, and have tremendous application value in diseases associated with interneuron disorders. In the current review, we describe the fate of MGE cells derived into specific interneurons and the related diseases caused by interneuron loss or dysfunction and explore the potential of MGE cell transplantation as a cell-based therapy for a variety of interneuron disorder-related diseases, such as epilepsy, schizophrenia, autism spectrum disorder, and Alzheimer’s disease.

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Section: The Medial Ganglionic Eminence Cell Is a Reliable Source Of ...supporting

confidence: 68%

Application of Medial Ganglionic Eminence Cell Transplantation in Diseases Associated With Interneuron Disorders

Han

2022

Front. Cell. Neurosci.

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“…Henderson et al (2014) 18 used bilateral transplantation of MGE cells (transfected with a neural stem cell nucleofector kit and pre-incubated in media containing growth factors) into a single hilar site in the dentate gyrus. Freshly harvested or in toto cryopreserved MGE progenitors have significantly better cell viability and migratory properties than growth factor treated preparations 47 and this protocol difference, combined with a single injection site strategy, may contribute to the relatively small area of new interneuron integration observed in Henderson et al (2014) 18 . Given the widespread hippocampal damage and circuit re-organization characteristic of the systemic pilocarpine model 29,32–34 it would be difficult to achieve a significant therapeutic effect with such a limited distribution of MGE-derived interneurons.…”

Section: Discussionmentioning

confidence: 97%

Persistent seizure control in epileptic mice transplanted with gamma‐aminobutyric acid progenitors

Casalia

Howard

Baraban

2017

Annals of Neurology

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Objective A significant proportion of the more than 50 million people world-wide currently suffering with epilepsy are resistant to antiepileptic drugs (AEDs). As an alternative to AEDs, novel therapies based on cell transplantation offer an opportunity for long-lasting modification of epileptic circuits. To develop such a treatment requires careful preclinical studies in a chronic epilepsy model featuring unprovoked seizures, hippocampal histopathology, and behavioral comorbidities. Methods Transplantation of progenitor cells from embryonic medial or caudal ganglionic eminence (MGE, CGE) were made in a well-characterized mouse model of status epilepticus-induced epilepsy (systemic pilocarpine). Behavioral testing (handling and open field), continuous video-electroencephalographic (vEEG) monitoring and slice electrophysiology outcomes were obtained up to 270 days after transplantation (DAT). Post hoc immunohistochemistry was used to confirm cell identity. Results MGE progenitors transplanted into the hippocampus of epileptic mice rescued handling and open field deficits starting at 60 DAT. In these same mice, an 84–88% reduction in seizure activity was observed between 180 and 210 DAT. Inhibitory postsynaptic current frequency, measured on pyramidal neurons in acute hippocampal slices at 270 DAT, was reduced in epileptic mice but restored to naïve levels in epileptic mice receiving MGE transplants. No reduction in seizure activity was observed in epileptic mice receiving intra-hippocampal CGE progenitors. Interpretation Our findings demonstrate that transplanted MGE progenitors enhance functional GABA-mediated inhibition, reduce spontaneous seizure frequency and rescue behavioral deficits in a chronic epileptic animal model more than six months after treatment.

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“…For these experiments, dissected MGEs from each embryo were collected in 500 uL L15 and kept on ice until cryopreserved. MGEs were resuspended in 10% DMSO in L15 and cryopreserved as previously described ( Rodríguez-Martínez et al, 2017 ). Vials were cooled to −80°C at a rate of −1 °C/minute in a Nalgene Mr. Frosty Freezing Container and then transferred to liquid nitrogen for long term storage.…”

Section: Methodsmentioning

confidence: 99%

Clustered gamma-protocadherins regulate cortical interneuron programmed cell death

Leon

Spatazza

Rakela

et al. 2020

eLife

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Cortical function critically depends on inhibitory/excitatory balance. Cortical inhibitory interneurons (cINs) are born in the ventral forebrain and migrate into cortex, where their numbers are adjusted by programmed cell death. Here we show that loss of clustered gamma protocadherins (Pcdhg), but not of genes in the alpha or beta clusters, increased dramatically cIN BAX-dependent cell death in mice. Surprisingly, electrophysiological and morphological properties of Pcdhg-deficient and wild-type cINs during the period of cIN cell death were indistinguishable. Co-transplantation of wild-type with Pcdhg-deficient interneuron precursors further reduced mutant cIN survival, but the proportion of mutant and wild-type cells undergoing cell death was not affected by their density. Transplantation also allowed us to test for the contribution of Pcdhg isoforms to the regulation of cIN cell death. We conclude that Pcdhg, specifically Pcdhgc3, Pcdhgc4, and Pcdhgc5, play a critical role in regulating cIN survival during the endogenous period of programmed cIN death.

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Cryopreservation of GABAergic Neuronal Precursors for Cell-Based Therapy

Cited by 11 publications

References 43 publications

Application of Medial Ganglionic Eminence Cell Transplantation in Diseases Associated With Interneuron Disorders

Application of Medial Ganglionic Eminence Cell Transplantation in Diseases Associated With Interneuron Disorders

Persistent seizure control in epileptic mice transplanted with gamma‐aminobutyric acid progenitors

Clustered gamma-protocadherins regulate cortical interneuron programmed cell death

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