Rachel Stock scite author profile

Nervous system formation requires the elaboration of a complex series of differentiation events in both a spatially and maturation-regulated manner. A fundamental question is how neuronal subtype specification and developmental gene expression are controlled within maturing neurons. The ␣6 subunit of the ␥-aminobutyric acid type A (GABA A ) receptor (GABRA6) is preferentially expressed in cerebellar granule neurons and is part of an intrinsic program directing their differentiation. We have employed a lentiviral approach to examine the transcriptional mechanisms controlling neuronal subtype-selective expression of this gene. These studies demonstrated that nuclear factor I (NFI) proteins are required for both transgenic GABRA6 promoter activity as well as endogenous expression of this gene in cerebellar granule neurons. Chromatin immunoprecipitation also showed that NFI proteins are bound to the GABRA6 promoter in these cells in vivo. Furthermore, analyses of gene knockout mice revealed that Nfia is specifically required for normal expression of the GABRA6 gene in cerebellar granule neurons. NFI expression and DNA binding activity are highly enriched in granule neurons, implicating this transcription factor family in the neuronal subtype-selective expression of the GABRA6 gene. These studies define a new role for NFI proteins as neuronal subtype-enriched transcriptional regulators that participate in an intrinsic transcriptional program directing the differentiation of cerebellar granule neurons.Fundamental to nervous system development is the specification and maturation of diverse neuronal populations that ultimately assemble into a complex synaptic network. These events require the appropriate spatiotemporal expression of an array of different genes during development, and a critical question is the nature of the transcriptional program that controls their proper expression. Several neuron-enriched transcription factors have been directly implicated in the determination of different neuronal populations (1). However, much remains to be learned regarding the roles of individual trans-regulators and their interactions in directing the phenotypes of distinct neuronal subtypes at different phases of their maturation.Cerebellar granule neurons (CGNs) 1 elaborate a well defined terminal differentiation program (2) and provide an excellent model of both cell-specific and developmental regulation of neuronal differentiation. Postnatally, newly born granule neurons migrate from the premigratory zone to form the internal granule cell layer, whereupon dendrite formation and synaptic connections with excitatory mossy fibers and inhibitory Golgi type II neurons ensue. Type A ␣-aminobutyric acid receptors (GABA A R) are present in synaptic and extrasynaptic regions of CGNs associated with inhibitory inputs from Golgi type II cells. During CGN differentiation, GABA A Rs undergo a maturationdependent change from mainly benzodiazepine-sensitive to benzodiazepine-insensitive forms (3). This is associated with a switch in GABA ...

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Safe and effective superoxide dismutase 1 silencing using artificial microRNA in macaques

Borel

Gernoux

Sun

et al. 2018

Sci. Transl. Med.

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Amyotrophic lateral sclerosis (ALS) is a fatal neurological disease caused by degeneration of motor neurons leading to rapidly progressive paralysis. About 10% of cases are caused by gain-of-function mutations that are transmitted as dominant traits. A potential therapy for these cases is to suppress the expression of the mutant gene. Here, we investigated silencing of SOD1, a gene commonly mutated in familial ALS, using an adeno-associated virus (AAV) encoding an artificial microRNA (miRNA) that targeted SOD1. In a superoxide dismutase 1 (SOD1)–mediated mouse model of ALS, we have previously demonstrated that SOD1 silencing delayed disease onset, increased survival time, and reduced muscle loss and motor and respiratory impairments. Here, we describe the preclinical characterization of this approach in cynomolgus macaques (Macaca fascicularis) using an AAV serotype for delivery that has been shown to be safe in clinical trials. We optimized AAV delivery to the spinal cord by preimplantation of a catheter and placement of the subject with head down at 30° during intrathecal infusion. We compared different promoters for the expression of artificial miRNAs directed against mutant SOD1. Results demonstrated efficient delivery and effective silencing of the SOD1 gene in motor neurons. These results support the notion that gene therapy with an artificial miRNA targeting SOD1 is safe and merits further development for the treatment of mutant SOD1-linked ALS.

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Insulin Receptor-Mediated Signaling via Phospholipase C-γ Regulates Growth and Differentiation in Drosophila

et al. 2011

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Coordination between growth and patterning/differentiation is critical if appropriate final organ structure and size is to be achieved. Understanding how these two processes are regulated is therefore a fundamental and as yet incompletely answered question. Here we show through genetic analysis that the phospholipase C-γ (PLC-γ) encoded by small wing (sl) acts as such a link between growth and patterning/differentiation by modulating some MAPK outputs once activated by the insulin pathway; particularly, sl promotes growth and suppresses ectopic differentiation in the developing eye and wing, allowing cells to attain a normal size and differentiate properly. sl mutants have previously been shown to have a combination of both growth and patterning/differentiation phenotypes: small wings, ectopic wing veins, and extra R7 photoreceptor cells. We show here that PLC-γ activated by the insulin pathway participates broadly and positively during cell growth modulating EGF pathway activity, whereas in cell differentiation PLC-γ activated by the insulin receptor negatively regulates the EGF pathway. These roles require different SH2 domains of PLC-γ, and act via classic PLC-γ signaling and EGF ligand processing. By means of PLC-γ, the insulin receptor therefore modulates differentiation as well as growth. Overall, our results provide evidence that PLC-γ acts during development at a time when growth ends and differentiation begins, and is important for proper coordination of these two processes.

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Early verification of myocardial ischemia with a novel biomarker of acute tissue damage: C-reactive protein fractional forms

Kiefer

Stock

Flanagan

et al. 2012

Clinica Chimica Acta

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Artificial microRNA suppresses C9ORF72 variants and decreases toxic dipeptides in vivo

Cabrera

Meijboom

Abdallah

et al. 2022

Preprint

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Amyotrophic lateral sclerosis (ALS) is a fatal neurodegenerative disease that affects motor neurons, causing progressive muscle weakness and respiratory failure. The presence of an expanded hexanucleotide repeat in chromosome 9 open reading frame 72 (C9ORF72) accounts for most cases of familial ALS and frontotemporal dementia (FTD). To determine if suppressing expression of C9ORF72 gene products can reduce toxicity, we designed a set of artificial microRNAs (amiRNA) targeting the human C9ORF72 gene. Here we report that an AAV9-mediated amiRNA significantly suppresses expression of the C9ORF72 mRNA, protein, and toxic poly-dipeptides generated by the expanded repeat in the brain and spinal cord.

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Rachel Stock

A Role for Nuclear Factor I in the Intrinsic Control of Cerebellar Granule Neuron Gene Expression

Safe and effective superoxide dismutase 1 silencing using artificial microRNA in macaques

Insulin Receptor-Mediated Signaling via Phospholipase C-γ Regulates Growth and Differentiation in Drosophila

Early verification of myocardial ischemia with a novel biomarker of acute tissue damage: C-reactive protein fractional forms

Artificial microRNA suppresses C9ORF72 variants and decreases toxic dipeptides in vivo

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