Lysophosphatidylcholine acyltransferase 1 controls the mitochondrial reactive oxygen species generation and survival of the retinal photoreceptor cells

Due to the high energy demands and characteristic morphology, retinal photoreceptor cells require a specialized lipid metabolism for survival and function. Accordingly, dysregulation of lipid metabolism leads to the photoreceptor cell death and retinal degeneration. Mice with a frameshift mutation o...

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Published inbioRxiv
Main Authors Nagata, Katsuyuki, Hishikawa, Daisuke, Sagara, Hiroshi, Saito, Masamichi, Watanabe, Sumiko, Shimizu, Takao, Shindou, Hideo
Format Paper
LanguageEnglish
Japanese
Published Cold Spring Harbor Cold Spring Harbor Laboratory Press 07.10.2021
Cold Spring Harbor Laboratory
Edition1.1
Subjects
1-Acylglycerophosphocholine O-acyltransferase
Acyltransferase
Apoptosis
Biochemistry
Cell death
Cytology
Fatty acids
Frameshift mutation
Lecithin
Lipid metabolism
Lipids
Lysophosphatidylcholine
Metabolism
Mitochondria
Phosphatidylcholine
Photoreceptors
Physical characteristics
Public health
Reactive oxygen species
Retina
Retinal degeneration
saturated fatty acid
photoreceptor cells
apoptosis
retinal degeneration
membrane phospholipids
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ISSN2692-8205
2692-8205
DOI10.1101/2021.10.06.463439

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Abstract Due to the high energy demands and characteristic morphology, retinal photoreceptor cells require a specialized lipid metabolism for survival and function. Accordingly, dysregulation of lipid metabolism leads to the photoreceptor cell death and retinal degeneration. Mice with a frameshift mutation of lysophosphatidylcholine acyltransferase 1 (Lpcat1), which produces saturated phosphatidylcholine (PC) composed of two saturated fatty acids, has been reported to cause spontaneous retinal degeneration (rd11 mice). In this study, we performed a detailed characterization of LPCAT1 in the retina and found that genetic deletion of Lpcat1 induces light-independent and photoreceptor-specific apoptosis in mice. Lipidomic analyses of the retina and isolated photoreceptor outer segment (OS) suggested that loss of Lpcat1 decreases saturated PC production and affects the proper cellular fatty acid flux, presumably by altering saturated fatty acyl-CoA availabilities. Furthermore, we demonstrated that Lpcat1 deletion increased mitochondrial reactive oxygen species (ROS) levels in photoreceptor cells, but not in other retinal cells without affecting the OS structure and trafficking of OS-localized proteins. These results suggest that the LPCAT1-dependent production of saturated PC is critical for metabolic adaptation during photoreceptor maturation. Our findings highlight the therapeutic potential of saturated fatty acid metabolism in photoreceptor cell degeneration-related retinal diseases. Competing Interest Statement The Department of Lipid Signaling, National Center for Global Health and Medicine, is financially supported by ONO Pharmaceutical Co., Ltd..
AbstractList Due to the high energy demands and characteristic morphology, retinal photoreceptor cells require a specialized lipid metabolism for survival and function. Accordingly, dysregulation of lipid metabolism leads to the photoreceptor cell death and retinal degeneration. Mice with a frameshift mutation of lysophosphatidylcholine acyltransferase 1 (Lpcat1), which produces saturated phosphatidylcholine (PC) composed of two saturated fatty acids, has been reported to cause spontaneous retinal degeneration (rd11 mice). In this study, we performed a detailed characterization of LPCAT1 in the retina and found that genetic deletion of Lpcat1 induces light-independent and photoreceptor-specific apoptosis in mice. Lipidomic analyses of the retina and isolated photoreceptor outer segment (OS) suggested that loss of Lpcat1 decreases saturated PC production and affects the proper cellular fatty acid flux, presumably by altering saturated fatty acyl-CoA availabilities. Furthermore, we demonstrated that Lpcat1 deletion increased mitochondrial reactive oxygen species (ROS) levels in photoreceptor cells, but not in other retinal cells without affecting the OS structure and trafficking of OS-localized proteins. These results suggest that the LPCAT1-dependent production of saturated PC is critical for metabolic adaptation during photoreceptor maturation. Our findings highlight the therapeutic potential of saturated fatty acid metabolism in photoreceptor cell degeneration-related retinal diseases.
Due to the high energy demands and characteristic morphology, retinal photoreceptor cells require a specialized lipid metabolism for survival and function. Accordingly, dysregulation of lipid metabolism leads to the photoreceptor cell death and retinal degeneration. Mice with a frameshift mutation of lysophosphatidylcholine acyltransferase 1 (Lpcat1), which produces saturated phosphatidylcholine (PC) composed of two saturated fatty acids, has been reported to cause spontaneous retinal degeneration (rd11 mice). In this study, we performed a detailed characterization of LPCAT1 in the retina and found that genetic deletion of Lpcat1 induces light-independent and photoreceptor-specific apoptosis in mice. Lipidomic analyses of the retina and isolated photoreceptor outer segment (OS) suggested that loss of Lpcat1 decreases saturated PC production and affects the proper cellular fatty acid flux, presumably by altering saturated fatty acyl-CoA availabilities. Furthermore, we demonstrated that Lpcat1 deletion increased mitochondrial reactive oxygen species (ROS) levels in photoreceptor cells, but not in other retinal cells without affecting the OS structure and trafficking of OS-localized proteins. These results suggest that the LPCAT1-dependent production of saturated PC is critical for metabolic adaptation during photoreceptor maturation. Our findings highlight the therapeutic potential of saturated fatty acid metabolism in photoreceptor cell degeneration-related retinal diseases. Competing Interest Statement The Department of Lipid Signaling, National Center for Global Health and Medicine, is financially supported by ONO Pharmaceutical Co., Ltd..
Author Watanabe, Sumiko
Shindou, Hideo
Nagata, Katsuyuki
Sagara, Hiroshi
Shimizu, Takao
Hishikawa, Daisuke
Saito, Masamichi
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Keywords saturated fatty acid
photoreceptor cells
apoptosis
retinal degeneration
membrane phospholipids
Language English
Japanese
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Competing Interest Statement: The Department of Lipid Signaling, National Center for Global Health and Medicine, is financially supported by ONO Pharmaceutical Co., Ltd..
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Snippet Due to the high energy demands and characteristic morphology, retinal photoreceptor cells require a specialized lipid metabolism for survival and function....
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SubjectTerms 1-Acylglycerophosphocholine O-acyltransferase
Acyltransferase
Apoptosis
Biochemistry
Cell death
Cytology
Fatty acids
Frameshift mutation
Lecithin
Lipid metabolism
Lipids
Lysophosphatidylcholine
Metabolism
Mitochondria
Phosphatidylcholine
Photoreceptors
Physical characteristics
Public health
Reactive oxygen species
Retina
Retinal degeneration
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Title Lysophosphatidylcholine acyltransferase 1 controls the mitochondrial reactive oxygen species generation and survival of the retinal photoreceptor cells
URI https://www.proquest.com/docview/2579877236
https://www.biorxiv.org/content/10.1101/2021.10.06.463439
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