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Myelination in the Central Nervous System is Fine-Tuned by an Antagonistic Interaction Between Lysosomal Regulators.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Myelination in the Central Nervous System is Fine-Tuned by an Antagonistic Interaction Between Lysosomal Regulators./
作者:	Bouchard, Ellen Lara.
面頁冊數:	1 online resource (116 pages)
附註:	Source: Dissertations Abstracts International, Volume: 85-04, Section: B.
Contained By:	Dissertations Abstracts International85-04B.
標題:	Cytoplasm. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=30615071click for full text (PQDT)
ISBN:	9798380485449

Myelination in the Central Nervous System is Fine-Tuned by an Antagonistic Interaction Between Lysosomal Regulators.
Bouchard, Ellen Lara.

Myelination in the Central Nervous System is Fine-Tuned by an Antagonistic Interaction Between Lysosomal Regulators. - 1 online resource (116 pages)

Source: Dissertations Abstracts International, Volume: 85-04, Section: B.

Thesis (Ph.D.)--Stanford University, 2023.

Includes bibliographical references

Myelination by oligodendrocytes is critical for fast axonal conduction and for the support and survival of neurons; without it, the complex vertebrate nervous system could not have evolved. Recent studies have emphasized that myelination in the central nervous system is plastic and that new myelin is formed throughout life, a fact that is crucial for our approach to targeting demyelinating diseases such as multiple sclerosis. Nonetheless, the mechanisms that regulate the development of myelin by oligodendrocytes remain incompletely understood. In order to uncover new genetic players in myelination, we carried out a forward genetic screen using zebrafish. This study revealed that the lysosomal G protein RagA is necessary for CNS myelination. Moreover, we discovered that the lysosomal regulator TFEB represses myelination downstream of RagA, and that loss of TFEB function leads to ectopic developmental myelination. This finding defined novel essential regulators of myelination, but left remaining questions regarding exactly how TFEB represses myelination, and what steps of oligodendrocyte development are affected by TFEB. In a subsequent study, we demonstrated that TFEB regulates oligodendrocyte differentiation as well as specific parameters such as the number and length of myelin sheaths formed by individual cells. In the dorsal spinal cord of zebrafish embryos, loss of TFEB function causes oligodendrocytes to produce fewer myelin sheaths, and these sheaths are longer than those produced by wildtype cells. In contrast, oligodendrocytes lacking RagA function produce shorter myelin sheaths. We also showed that RagA and TFEB act antagonistically, such that animals lacking both RagA and TFEB activity have myelin sheaths that are similar in length to control animals. Finally, preliminary transcriptional analysis suggests that the downstream targets of TFEB that are affecting myelination may not be lysosomal in nature, as would be expected given what is known about TFEB as a key lysosomal regulator. Instead, TFEB may be regulating myelination via cytoskeletal dynamics or calcium signaling, both of which have been previously found to be important in myelination. Future work on these TFEB targets has the potential to elucidate novel biological pathways that are critical for the understanding of myelination.

Electronic reproduction.
Ann Arbor, Mich. :
ProQuest,
2023

Mode of access: World Wide Web

ISBN: 9798380485449Subjects--Topical Terms:

3337992
Cytoplasm.
Index Terms--Genre/Form:

542853
Electronic books.

Myelination in the Central Nervous System is Fine-Tuned by an Antagonistic Interaction Between Lysosomal Regulators.
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520 $a Myelination by oligodendrocytes is critical for fast axonal conduction and for the support and survival of neurons; without it, the complex vertebrate nervous system could not have evolved. Recent studies have emphasized that myelination in the central nervous system is plastic and that new myelin is formed throughout life, a fact that is crucial for our approach to targeting demyelinating diseases such as multiple sclerosis. Nonetheless, the mechanisms that regulate the development of myelin by oligodendrocytes remain incompletely understood. In order to uncover new genetic players in myelination, we carried out a forward genetic screen using zebrafish. This study revealed that the lysosomal G protein RagA is necessary for CNS myelination. Moreover, we discovered that the lysosomal regulator TFEB represses myelination downstream of RagA, and that loss of TFEB function leads to ectopic developmental myelination. This finding defined novel essential regulators of myelination, but left remaining questions regarding exactly how TFEB represses myelination, and what steps of oligodendrocyte development are affected by TFEB. In a subsequent study, we demonstrated that TFEB regulates oligodendrocyte differentiation as well as specific parameters such as the number and length of myelin sheaths formed by individual cells. In the dorsal spinal cord of zebrafish embryos, loss of TFEB function causes oligodendrocytes to produce fewer myelin sheaths, and these sheaths are longer than those produced by wildtype cells. In contrast, oligodendrocytes lacking RagA function produce shorter myelin sheaths. We also showed that RagA and TFEB act antagonistically, such that animals lacking both RagA and TFEB activity have myelin sheaths that are similar in length to control animals. Finally, preliminary transcriptional analysis suggests that the downstream targets of TFEB that are affecting myelination may not be lysosomal in nature, as would be expected given what is known about TFEB as a key lysosomal regulator. Instead, TFEB may be regulating myelination via cytoskeletal dynamics or calcium signaling, both of which have been previously found to be important in myelination. Future work on these TFEB targets has the potential to elucidate novel biological pathways that are critical for the understanding of myelination.
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