The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects

The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects

ObjectiveCongenital eye diseases are multi-factorial and usually cannot be cured. Therefore, proper preventive strategy and understanding the pathomechanism underlying these diseases become important. Deficiency in folate, a water-soluble vitamin B, has been associated with microphthalmia, a congeni...

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Main Authors: Tsun-Hsien Hsiao, Gang-Hui Lee, Yi-Sheng Chang, Bing-Hung Chen, Tzu-Fun Fu
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-06-01
Series:Frontiers in Cell and Developmental Biology
Subjects:
folate
one-carbon metabolism
eye diseases
zebrafish
microphthalmia
mthfd1L
Online Access:https://www.frontiersin.org/articles/10.3389/fcell.2021.702969/full
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spelling doaj-64e74ea83e7d49349881df5b5a4effa42021-06-29T06:35:20ZengFrontiers Media S.A.Frontiers in Cell and Developmental Biology2296-634X2021-06-01910.3389/fcell.2021.702969702969The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual DefectsTsun-Hsien Hsiao0Gang-Hui Lee1Yi-Sheng Chang2Yi-Sheng Chang3Bing-Hung Chen4Bing-Hung Chen5Bing-Hung Chen6Bing-Hung Chen7Tzu-Fun Fu8Tzu-Fun Fu9The Institute of Basic Medical Science, College of Medicine, National Cheng Kung University, Tainan, TaiwanThe Institute of Basic Medical Science, College of Medicine, National Cheng Kung University, Tainan, TaiwanDepartment of Ophthalmology, College of Medicine, National Cheng Kung University Hospital, Tainan, TaiwanDepartment of Ophthalmology, College of Medicine, National Cheng Kung University, Tainan, TaiwanDepartment of Biotechnology, Kaohsiung Medical University, Kaohsiung, TaiwanDepartment of Medical Research, Kaohsiung Medical University Hospital, Kaohsiung, TaiwanCenter for Biomarkers and Biotech Drugs, Kaohsiung Medical University, Kaohsiung, TaiwanDepartment of Biological Sciences, National Sun Yat-sen University, Kaohsiung, TaiwanThe Institute of Basic Medical Science, College of Medicine, National Cheng Kung University, Tainan, TaiwanDepartment of Medical Laboratory Science and Biotechnology, College of Medicine, National Cheng Kung University, Tainan, TaiwanObjectiveCongenital eye diseases are multi-factorial and usually cannot be cured. Therefore, proper preventive strategy and understanding the pathomechanism underlying these diseases become important. Deficiency in folate, a water-soluble vitamin B, has been associated with microphthalmia, a congenital eye disease characterized by abnormally small and malformed eyes. However, the causal-link and the underlying mechanism between folate and microphthalmia remain incompletely understood.MethodsWe examined the eye size, optomotor response, intracellular folate distribution, and the expression of folate-requiring enzymes in zebrafish larvae displaying folate deficiency (FD) and ocular defects.ResultsFD caused microphthalmia and impeded visual ability in zebrafish larvae, which were rescued by folate and dNTP supplementation. Cell cycle analysis revealed cell accumulation at S-phase and sub-G1 phase. Decreased cell proliferation and increased apoptosis were found in FD larvae during embryogenesis in a developmental timing-specific manner. Lowered methylenetetrahydrofolate reductase (mthfr) expression and up-regulated methylenetetrahydrofolate dehydrogenase (NADP+-dependent)-1-like (mthfd1L) expression were found in FD larvae. Knocking-down mthfd1L expression worsened FD-induced ocular anomalies; whereas increasing mthfd1L expression provided a protective effect. 5-CH3-THF is the most sensitive folate pool, whose levels were the most significantly reduced in response to FD; whereas 10-CHO-THF levels were less affected. 5-CHO-THF is the most effective folate adduct for rescuing FD-induced microphthalmia and defective visual ability.ConclusionFD impeded nucleotides formation, impaired cell proliferation and differentiation, caused apoptosis and interfered active vitamin A production, contributing to ocular defects. The developmental timing-specific and incoherent fluctuation among folate adducts and increased expression of mthfd1L in response to FD reflect the context-dependent regulation of folate-mediated one-carbon metabolism, endowing the larvae to prioritize the essential biochemical pathways for supporting the continuous growth in response to folate depletion.https://www.frontiersin.org/articles/10.3389/fcell.2021.702969/fullfolateone-carbon metabolismeye diseaseszebrafishmicrophthalmiamthfd1L
collection DOAJ
language English
format Article
sources DOAJ
author Tsun-Hsien Hsiao
Gang-Hui Lee
Yi-Sheng Chang
Yi-Sheng Chang
Bing-Hung Chen
Bing-Hung Chen
Bing-Hung Chen
Bing-Hung Chen
Tzu-Fun Fu
Tzu-Fun Fu
spellingShingle Tsun-Hsien Hsiao
Gang-Hui Lee
Yi-Sheng Chang
Yi-Sheng Chang
Bing-Hung Chen
Bing-Hung Chen
Bing-Hung Chen
Bing-Hung Chen
Tzu-Fun Fu
Tzu-Fun Fu
The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects
Frontiers in Cell and Developmental Biology
folate
one-carbon metabolism
eye diseases
zebrafish
microphthalmia
mthfd1L
author_facet Tsun-Hsien Hsiao
Gang-Hui Lee
Yi-Sheng Chang
Yi-Sheng Chang
Bing-Hung Chen
Bing-Hung Chen
Bing-Hung Chen
Bing-Hung Chen
Tzu-Fun Fu
Tzu-Fun Fu
author_sort Tsun-Hsien Hsiao
title The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects
title_short The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects
title_full The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects
title_fullStr The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects
title_full_unstemmed The Incoherent Fluctuation of Folate Pools and Differential Regulation of Folate Enzymes Prioritize Nucleotide Supply in the Zebrafish Model Displaying Folate Deficiency-Induced Microphthalmia and Visual Defects
title_sort incoherent fluctuation of folate pools and differential regulation of folate enzymes prioritize nucleotide supply in the zebrafish model displaying folate deficiency-induced microphthalmia and visual defects
publisher Frontiers Media S.A.
series Frontiers in Cell and Developmental Biology
issn 2296-634X
publishDate 2021-06-01
description ObjectiveCongenital eye diseases are multi-factorial and usually cannot be cured. Therefore, proper preventive strategy and understanding the pathomechanism underlying these diseases become important. Deficiency in folate, a water-soluble vitamin B, has been associated with microphthalmia, a congenital eye disease characterized by abnormally small and malformed eyes. However, the causal-link and the underlying mechanism between folate and microphthalmia remain incompletely understood.MethodsWe examined the eye size, optomotor response, intracellular folate distribution, and the expression of folate-requiring enzymes in zebrafish larvae displaying folate deficiency (FD) and ocular defects.ResultsFD caused microphthalmia and impeded visual ability in zebrafish larvae, which were rescued by folate and dNTP supplementation. Cell cycle analysis revealed cell accumulation at S-phase and sub-G1 phase. Decreased cell proliferation and increased apoptosis were found in FD larvae during embryogenesis in a developmental timing-specific manner. Lowered methylenetetrahydrofolate reductase (mthfr) expression and up-regulated methylenetetrahydrofolate dehydrogenase (NADP+-dependent)-1-like (mthfd1L) expression were found in FD larvae. Knocking-down mthfd1L expression worsened FD-induced ocular anomalies; whereas increasing mthfd1L expression provided a protective effect. 5-CH3-THF is the most sensitive folate pool, whose levels were the most significantly reduced in response to FD; whereas 10-CHO-THF levels were less affected. 5-CHO-THF is the most effective folate adduct for rescuing FD-induced microphthalmia and defective visual ability.ConclusionFD impeded nucleotides formation, impaired cell proliferation and differentiation, caused apoptosis and interfered active vitamin A production, contributing to ocular defects. The developmental timing-specific and incoherent fluctuation among folate adducts and increased expression of mthfd1L in response to FD reflect the context-dependent regulation of folate-mediated one-carbon metabolism, endowing the larvae to prioritize the essential biochemical pathways for supporting the continuous growth in response to folate depletion.
topic folate
one-carbon metabolism
eye diseases
zebrafish
microphthalmia
mthfd1L
url https://www.frontiersin.org/articles/10.3389/fcell.2021.702969/full
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