Cellular and molecular outcomes of glutamine supplementation in the brain of succinic semialdehyde dehydrogenase‐deficient mice

Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency contributes to pathogenesis. Recently, we attempted to rescue the disease phenotype of aldh5a1−/− mice, a murine model of SSADHD with dietary glut...

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Published inJIMD reports Vol. 56; no. 1; pp. 58 - 69
Main Authors Brown, Madalyn N., Gibson, K. Michael, Schmidt, Michelle A., Walters, Dana C., Arning, Erland, Bottiglieri, Teodoro, Roullet, Jean‐Baptiste
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 01.11.2020
Wiley
Subjects
Antibodies
astrocyte
Dehydrogenases
Diet
dietary supplementation
GABA
Gene expression
Genotype & phenotype
GHB
glutamine
Homeostasis
Kinases
knockout mice
Laboratories
Metabolism
Metabolites
Microscopy
Proteins
Research Report
Research Reports
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Variance analysis
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GHB
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Abstract Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency contributes to pathogenesis. Recently, we attempted to rescue the disease phenotype of aldh5a1−/− mice, a murine model of SSADHD with dietary glutamine supplementation. No clinical rescue and no central glutamine improvement were observed. Here, we report the results of follow‐up studies of the cellular and molecular basis of the resistance of the brain to glutamine supplementation. We first determined if the expression of genes involved in glutamine metabolism was impacted by glutamine feeding. We then searched for changes of brain histology in response to glutamine supplementation, with a focus on astrocytes, known regulators of glutamine synthesis in the brain. Glutamine supplementation significantly modified the expression of glutaminase (gls) (0.6‐fold down), glutamine synthetase (glul) (1.5‐fold up), and glutamine transporters (solute carrier family 7, member 5 [slc7a5], 2.5‐fold up; slc38a2, 0.6‐fold down). The number of GLUL‐labeled cells was greater in the glutamine‐supplemented group than in controls (P < .05). Reactive astrogliosis, a hallmark of brain inflammation in SSADHD, was confirmed. We observed a 2‐fold stronger astrocyte staining in mutants than in wild‐type controls (optical density/cell were 1.8 ± 0.08 in aldh5a1−/− and 0.99 ± 0.06 in aldh5a1+/+; P < .0001), and a 3‐fold higher expression of gfap and vimentin. However, glutamine supplementation did not improve the histological and molecular signature of astrogliosis. Thus, glutamine supplementation impacts genes implicated in central glutamine homeostasis without improving reactive astrogliosis. The mechanisms underlying glutamine deficiency and its contribution to SSADHD pathogenesis remain unknown and should be the focus of future investigations.
AbstractList Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency contributes to pathogenesis. Recently, we attempted to rescue the disease phenotype of aldh5a1−/− mice, a murine model of SSADHD with dietary glutamine supplementation. No clinical rescue and no central glutamine improvement were observed. Here, we report the results of follow-up studies of the cellular and molecular basis of the resistance of the brain to glutamine supplementation. We first determined if the expression of genes involved in glutamine metabolism was impacted by glutamine feeding. We then searched for changes of brain histology in response to glutamine supplementation, with a focus on astrocytes, known regulators of glutamine synthesis in the brain. Glutamine supplementation significantly modified the expression of glutaminase (gls) (0.6-fold down), glutamine synthetase (glul) (1.5-fold up), and glutamine transporters (solute carrier family 7, member 5 [slc7a5], 2.5-fold up; slc38a2, 0.6-fold down). The number of GLUL-labeled cells was greater in the glutamine-supplemented group than in controls (P < .05). Reactive astrogliosis, a hallmark of brain inflammation in SSADHD, was confirmed. We observed a 2-fold stronger astrocyte staining in mutants than in wild-type controls (optical density/cell were 1.8 ± 0.08 in aldh5a1−/− and 0.99 ± 0.06 in aldh5a1+/+; P < .0001), and a 3-fold higher expression of gfap and vimentin. However, glutamine supplementation did not improve the histological and molecular signature of astrogliosis. Thus, glutamine supplementation impacts genes implicated in central glutamine homeostasis without improving reactive astrogliosis. The mechanisms underlying glutamine deficiency and its contribution to SSADHD pathogenesis remain unknown and should be the focus of future investigations.
Abstract Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency contributes to pathogenesis. Recently, we attempted to rescue the disease phenotype of aldh5a1 −/− mice, a murine model of SSADHD with dietary glutamine supplementation. No clinical rescue and no central glutamine improvement were observed. Here, we report the results of follow‐up studies of the cellular and molecular basis of the resistance of the brain to glutamine supplementation. We first determined if the expression of genes involved in glutamine metabolism was impacted by glutamine feeding. We then searched for changes of brain histology in response to glutamine supplementation, with a focus on astrocytes, known regulators of glutamine synthesis in the brain. Glutamine supplementation significantly modified the expression of glutaminase ( gls ) (0.6‐fold down), glutamine synthetase ( glul ) (1.5‐fold up), and glutamine transporters (solute carrier family 7, member 5 [ slc7a5 ], 2.5‐fold up; slc38a2 , 0.6‐fold down). The number of GLUL‐labeled cells was greater in the glutamine‐supplemented group than in controls ( P < .05). Reactive astrogliosis, a hallmark of brain inflammation in SSADHD, was confirmed. We observed a 2‐fold stronger astrocyte staining in mutants than in wild‐type controls (optical density/cell were 1.8 ± 0.08 in aldh5a1 −/− and 0.99 ± 0.06 in aldh5a1 +/+ ; P < .0001), and a 3‐fold higher expression of gfap and vimentin . However, glutamine supplementation did not improve the histological and molecular signature of astrogliosis. Thus, glutamine supplementation impacts genes implicated in central glutamine homeostasis without improving reactive astrogliosis. The mechanisms underlying glutamine deficiency and its contribution to SSADHD pathogenesis remain unknown and should be the focus of future investigations.
Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency contributes to pathogenesis. Recently, we attempted to rescue the disease phenotype of aldh5a1 −/− mice, a murine model of SSADHD with dietary glutamine supplementation. No clinical rescue and no central glutamine improvement were observed. Here, we report the results of follow‐up studies of the cellular and molecular basis of the resistance of the brain to glutamine supplementation. We first determined if the expression of genes involved in glutamine metabolism was impacted by glutamine feeding. We then searched for changes of brain histology in response to glutamine supplementation, with a focus on astrocytes, known regulators of glutamine synthesis in the brain. Glutamine supplementation significantly modified the expression of glutaminase ( gls ) (0.6‐fold down), glutamine synthetase ( glul ) (1.5‐fold up), and glutamine transporters (solute carrier family 7, member 5 [ slc7a5 ], 2.5‐fold up; slc38a2 , 0.6‐fold down). The number of GLUL‐labeled cells was greater in the glutamine‐supplemented group than in controls ( P < .05). Reactive astrogliosis, a hallmark of brain inflammation in SSADHD, was confirmed. We observed a 2‐fold stronger astrocyte staining in mutants than in wild‐type controls (optical density/cell were 1.8 ± 0.08 in aldh5a1 −/− and 0.99 ± 0.06 in aldh5a1 +/+ ; P < .0001), and a 3‐fold higher expression of gfap and vimentin . However, glutamine supplementation did not improve the histological and molecular signature of astrogliosis. Thus, glutamine supplementation impacts genes implicated in central glutamine homeostasis without improving reactive astrogliosis. The mechanisms underlying glutamine deficiency and its contribution to SSADHD pathogenesis remain unknown and should be the focus of future investigations.
Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency contributes to pathogenesis. Recently, we attempted to rescue the disease phenotype of mice, a murine model of SSADHD with dietary glutamine supplementation. No clinical rescue and no central glutamine improvement were observed. Here, we report the results of follow-up studies of the cellular and molecular basis of the resistance of the brain to glutamine supplementation. We first determined if the expression of genes involved in glutamine metabolism was impacted by glutamine feeding. We then searched for changes of brain histology in response to glutamine supplementation, with a focus on astrocytes, known regulators of glutamine synthesis in the brain. Glutamine supplementation significantly modified the expression of glutaminase ( ) (0.6-fold down), glutamine synthetase ( ) (1.5-fold up), and glutamine transporters (solute carrier family 7, member 5 [ ], 2.5-fold up; , 0.6-fold down). The number of GLUL-labeled cells was greater in the glutamine-supplemented group than in controls ( < .05). Reactive astrogliosis, a hallmark of brain inflammation in SSADHD, was confirmed. We observed a 2-fold stronger astrocyte staining in mutants than in wild-type controls (optical density/cell were 1.8 ± 0.08 in and 0.99 ± 0.06 in ; < .0001), and a 3-fold higher expression of and . However, glutamine supplementation did not improve the histological and molecular signature of astrogliosis. Thus, glutamine supplementation impacts genes implicated in central glutamine homeostasis without improving reactive astrogliosis. The mechanisms underlying glutamine deficiency and its contribution to SSADHD pathogenesis remain unknown and should be the focus of future investigations.
Abstract Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency contributes to pathogenesis. Recently, we attempted to rescue the disease phenotype of aldh5a1−/− mice, a murine model of SSADHD with dietary glutamine supplementation. No clinical rescue and no central glutamine improvement were observed. Here, we report the results of follow‐up studies of the cellular and molecular basis of the resistance of the brain to glutamine supplementation. We first determined if the expression of genes involved in glutamine metabolism was impacted by glutamine feeding. We then searched for changes of brain histology in response to glutamine supplementation, with a focus on astrocytes, known regulators of glutamine synthesis in the brain. Glutamine supplementation significantly modified the expression of glutaminase (gls) (0.6‐fold down), glutamine synthetase (glul) (1.5‐fold up), and glutamine transporters (solute carrier family 7, member 5 [slc7a5], 2.5‐fold up; slc38a2, 0.6‐fold down). The number of GLUL‐labeled cells was greater in the glutamine‐supplemented group than in controls (P < .05). Reactive astrogliosis, a hallmark of brain inflammation in SSADHD, was confirmed. We observed a 2‐fold stronger astrocyte staining in mutants than in wild‐type controls (optical density/cell were 1.8 ± 0.08 in aldh5a1−/− and 0.99 ± 0.06 in aldh5a1+/+; P < .0001), and a 3‐fold higher expression of gfap and vimentin. However, glutamine supplementation did not improve the histological and molecular signature of astrogliosis. Thus, glutamine supplementation impacts genes implicated in central glutamine homeostasis without improving reactive astrogliosis. The mechanisms underlying glutamine deficiency and its contribution to SSADHD pathogenesis remain unknown and should be the focus of future investigations.
Author Walters, Dana C.
Bottiglieri, Teodoro
Roullet, Jean‐Baptiste
Arning, Erland
Gibson, K. Michael
Schmidt, Michelle A.
Brown, Madalyn N.
AuthorAffiliation 1 Department of Pharmacotherapy College of Pharmacy and Pharmaceutical Sciences, Washington State University Spokane Washington USA
2 Baylor Scott and White Research Institute Institute of Metabolic Disease Dallas Texas USA
AuthorAffiliation_xml – name: 2 Baylor Scott and White Research Institute Institute of Metabolic Disease Dallas Texas USA
– name: 1 Department of Pharmacotherapy College of Pharmacy and Pharmaceutical Sciences, Washington State University Spokane Washington USA
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Issue 1
Keywords GHB
GABA
knockout mice
glutamine
astrocyte
dietary supplementation
Language English
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Snippet Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine deficiency...
Abstract Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine...
Abstract Succinic semialdehyde dehydrogenase deficiency (SSADHD) manifests with low levels of glutamine in the brain, suggesting that central glutamine...
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StartPage 58
SubjectTerms Antibodies
astrocyte
Dehydrogenases
Diet
dietary supplementation
GABA
Gene expression
Genotype & phenotype
GHB
glutamine
Homeostasis
Kinases
knockout mice
Laboratories
Metabolism
Metabolites
Microscopy
Proteins
Research Report
Research Reports
Software
Variance analysis
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Title Cellular and molecular outcomes of glutamine supplementation in the brain of succinic semialdehyde dehydrogenase‐deficient mice
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjmd2.12151
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