Deletion of TDP-43 down-regulates Tbc1d1, a gene linked to obesity, and alters body fat metabolism

Po Min Chiang; Jonathan Ling; Yun Ha Jeong; Donald L. Price; Susan M. Aja; Philip C. Wong

doi:10.1073/pnas.1002176107

Deletion of TDP-43 down-regulates Tbc1d1, a gene linked to obesity, and alters body fat metabolism

Po Min Chiang, Jonathan Ling, Yun Ha Jeong, Donald L. Price, Susan M. Aja, Philip C. Wong

School of Medicine

Research output: Contribution to journal › Article › peer-review

188 Scopus citations

Abstract

Tat activating regulatory DNA-binding protein (Tardbp or TDP-43), a highly conserved metazoan DNA/RNA binding protein thought to be involved in RNA transcription and splicing, has been linked to the pathophysiology of amyotrophic lateral sclerosis and frontotemporal lobar degeneration and is essential for early embryonic development. However, neither the physiological role of TDP-43 in the adult nor its downstream targets are well defined. To address these questions, we developed conditional Tardbp-KO mice and embryonic stem (ES) cell models. Here, we show that postnatal deletion of Tardbp in mice caused dramatic loss of body fat followed by rapid death. Moreover, conditional Tardbp-KO ES cells failed to proliferate. Importantly, high-throughput DNA sequencing analysis on the transcriptome of ES cells lacking Tardbp revealed a set of downstream targets of TDP-43. We show that Tbc1d1, a gene known to mediate leanness and linked to obesity, is down-regulated in the absence of TDP-43. Collectively, our results establish that TDP-43 is critical for fat metabolism and ES cell survival.

Original language	English (US)
Pages (from-to)	16320-16324
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	107
Issue number	37
DOIs	https://doi.org/10.1073/pnas.1002176107
State	Published - Sep 14 2010

Keywords

Amyotrophic lateral sclerosis
Conditional knockout mice
Energy metabolism
Frontotemporal dementia
RNA-sequencing

ASJC Scopus subject areas

General

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10.1073/pnas.1002176107

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title = "Deletion of TDP-43 down-regulates Tbc1d1, a gene linked to obesity, and alters body fat metabolism",

abstract = "Tat activating regulatory DNA-binding protein (Tardbp or TDP-43), a highly conserved metazoan DNA/RNA binding protein thought to be involved in RNA transcription and splicing, has been linked to the pathophysiology of amyotrophic lateral sclerosis and frontotemporal lobar degeneration and is essential for early embryonic development. However, neither the physiological role of TDP-43 in the adult nor its downstream targets are well defined. To address these questions, we developed conditional Tardbp-KO mice and embryonic stem (ES) cell models. Here, we show that postnatal deletion of Tardbp in mice caused dramatic loss of body fat followed by rapid death. Moreover, conditional Tardbp-KO ES cells failed to proliferate. Importantly, high-throughput DNA sequencing analysis on the transcriptome of ES cells lacking Tardbp revealed a set of downstream targets of TDP-43. We show that Tbc1d1, a gene known to mediate leanness and linked to obesity, is down-regulated in the absence of TDP-43. Collectively, our results establish that TDP-43 is critical for fat metabolism and ES cell survival.",

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AU - Chiang, Po Min

AU - Ling, Jonathan

AU - Jeong, Yun Ha

AU - Price, Donald L.

AU - Aja, Susan M.

AU - Wong, Philip C.

PY - 2010/9/14

Y1 - 2010/9/14

N2 - Tat activating regulatory DNA-binding protein (Tardbp or TDP-43), a highly conserved metazoan DNA/RNA binding protein thought to be involved in RNA transcription and splicing, has been linked to the pathophysiology of amyotrophic lateral sclerosis and frontotemporal lobar degeneration and is essential for early embryonic development. However, neither the physiological role of TDP-43 in the adult nor its downstream targets are well defined. To address these questions, we developed conditional Tardbp-KO mice and embryonic stem (ES) cell models. Here, we show that postnatal deletion of Tardbp in mice caused dramatic loss of body fat followed by rapid death. Moreover, conditional Tardbp-KO ES cells failed to proliferate. Importantly, high-throughput DNA sequencing analysis on the transcriptome of ES cells lacking Tardbp revealed a set of downstream targets of TDP-43. We show that Tbc1d1, a gene known to mediate leanness and linked to obesity, is down-regulated in the absence of TDP-43. Collectively, our results establish that TDP-43 is critical for fat metabolism and ES cell survival.

AB - Tat activating regulatory DNA-binding protein (Tardbp or TDP-43), a highly conserved metazoan DNA/RNA binding protein thought to be involved in RNA transcription and splicing, has been linked to the pathophysiology of amyotrophic lateral sclerosis and frontotemporal lobar degeneration and is essential for early embryonic development. However, neither the physiological role of TDP-43 in the adult nor its downstream targets are well defined. To address these questions, we developed conditional Tardbp-KO mice and embryonic stem (ES) cell models. Here, we show that postnatal deletion of Tardbp in mice caused dramatic loss of body fat followed by rapid death. Moreover, conditional Tardbp-KO ES cells failed to proliferate. Importantly, high-throughput DNA sequencing analysis on the transcriptome of ES cells lacking Tardbp revealed a set of downstream targets of TDP-43. We show that Tbc1d1, a gene known to mediate leanness and linked to obesity, is down-regulated in the absence of TDP-43. Collectively, our results establish that TDP-43 is critical for fat metabolism and ES cell survival.

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Deletion of TDP-43 down-regulates Tbc1d1, a gene linked to obesity, and alters body fat metabolism

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