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1.
Mol Ther ; 31(8): 2422-2438, 2023 08 02.
Artículo en Inglés | MEDLINE | ID: mdl-37403358

RESUMEN

Transient delivery of CRISPR-Cas9 ribonucleoproteins (RNPs) into the central nervous system (CNS) for therapeutic genome editing could avoid limitations of viral vector-based delivery including cargo capacity, immunogenicity, and cost. Here, we tested the ability of cell-penetrant Cas9 RNPs to edit the mouse striatum when introduced using a convection-enhanced delivery system. These transient Cas9 RNPs showed comparable editing of neurons and reduced adaptive immune responses relative to one formulation of Cas9 delivered using AAV serotype 9. The production of ultra-low endotoxin Cas9 protein manufactured at scale further improved innate immunity. We conclude that injection-based delivery of minimally immunogenic CRISPR genome editing RNPs into the CNS provides a valuable alternative to virus-mediated genome editing.


Asunto(s)
Sistemas CRISPR-Cas , Edición Génica , Animales , Ratones , Ribonucleoproteínas/metabolismo , Proteína 9 Asociada a CRISPR/genética , Proteína 9 Asociada a CRISPR/metabolismo , Encéfalo/metabolismo
2.
Glia ; 63(11): 2040-2057, 2015 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-26119414

RESUMEN

In the enteric nervous system (ENS), glia outnumber neurons by 4-fold and form an extensive network throughout the gastrointestinal tract. Growing evidence for the essential role of enteric glia in bowel function makes it imperative to understand better their molecular marker expression and how they relate to glia in the rest of the nervous system. We analyzed expression of markers of astrocytes and oligodendrocytes in the ENS and found, unexpectedly, that proteolipid protein 1 (PLP1) is specifically expressed by glia in adult mouse intestine. PLP1 and S100ß are the markers most widely expressed by enteric glia, while glial fibrillary acidic protein expression is more restricted. Marker expression in addition to cellular location and morphology distinguishes a specific subpopulation of intramuscular enteric glia, suggesting that a combinatorial code of molecular markers can be used to identify distinct subtypes. To assess the similarity between enteric and extraenteric glia, we performed RNA sequencing analysis on PLP1-expressing cells in the mouse intestine and compared their gene expression pattern to that of other types of glia. This analysis shows that enteric glia are transcriptionally unique and distinct from other cell types in the nervous system. Enteric glia express many genes characteristic of the myelinating glia, Schwann cells and oligodendrocytes, although there is no evidence of myelination in the murine ENS. GLIA 2015;63:2040-2057.

3.
Nucleic Acids Res ; 39(17): 7444-54, 2011 Sep 01.
Artículo en Inglés | MEDLINE | ID: mdl-21666257

RESUMEN

The abnormal number of repeats found in triplet repeat diseases arises from 'repeat instability', in which the repetitive section of DNA is subject to a change in copy number. Recent studies implicate transcription in a mechanism for repeat instability proposed to involve RNA polymerase II (RNAPII) arrest caused by a CTG slip-out, triggering transcription-coupled repair (TCR), futile cycles of which may lead to repeat expansion or contraction. In the present study, we use defined DNA constructs to directly test whether the structures formed by CAG and CTG repeat slip-outs can cause transcription arrest in vitro. We found that a slip-out of (CAG)(20) or (CTG)(20) repeats on either strand causes RNAPII arrest in HeLa cell nuclear extracts. Perfect hairpins and loops on either strand also cause RNAPII arrest. These findings are consistent with a transcription-induced repeat instability model in which transcription arrest in mammalian cells may initiate a 'gratuitous' TCR event leading to a change in repeat copy number. An understanding of the underlying mechanism of repeat instability could lead to intervention to slow down expansion and delay the onset of many neurodegenerative diseases in which triplet repeat expansion is implicated.


Asunto(s)
ARN Polimerasa II/antagonistas & inhibidores , Repeticiones de Trinucleótidos , ADN/química , ARN Polimerasas Dirigidas por ADN/antagonistas & inhibidores , Células HeLa , Humanos , Conformación de Ácido Nucleico , Transcripción Genética , Expansión de Repetición de Trinucleótido , Proteínas Virales/antagonistas & inhibidores
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