Vanillin and vanillic acid modulate antioxidant defense system via amelioration of metabolic complications linked to Fe2+-induced brain tissues damage

The therapeutic effect of phenolics on neurodegenerative diseases has been attributed to their potent antioxidant properties. In the present study, the neuroprotective activities of vanillin and vanillic acid were investigated in Fe 2+ - induced oxidative toxicity in brain tissues by investigating t...

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Published in:Metabolic brain disease Vol. 35; no. 5; pp. 727 - 738
Main Authors: Salau, Veronica F., Erukainure, Ochuko L., Ibeji, Collins U., Olasehinde, Tosin A., Koorbanally, Neil A., Islam, Md. Shahidul
Format: Journal Article
Language:English
Published: New York Springer US 01.06.2020
Springer Nature B.V
Subjects:
Acetylcholinesterase
Acids
Activation
Adenosine triphosphatase
Antioxidants
Biochemistry
Biomedical and Life Sciences
Biomedicine
Blood-brain barrier
Brain damage
Brain injury
Catalase
Cell lines
Cholinergics
Complications
Cytotoxicity
Depletion
Glutathione
Hippocampus
Histidine
Iron
Malondialdehyde
Metabolic Diseases
Metabolic pathways
Metabolism
Metabolites
Neurodegenerative diseases
Neurology
Neuroprotection
Neurosciences
Nitric oxide
Nucleotides
Oncology
Original Article
Pentose
Pentose phosphate pathway
Phenols
Restoration
Tissues
Toxicity
Vanillic acid
Vanillin
Vanillic acid
Vanillin
Antioxidant
Neurodegeneration
Phenolics
ISSN:0885-7490, 1573-7365, 1573-7365
Online Access:Get full text
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Abstract The therapeutic effect of phenolics on neurodegenerative diseases has been attributed to their potent antioxidant properties. In the present study, the neuroprotective activities of vanillin and vanillic acid were investigated in Fe 2+ - induced oxidative toxicity in brain tissues by investigating their therapeutic effects on oxidative imbalance, cholinergic and nucleotide-hydrolyzing enzymes activities, dysregulated metabolic pathways. Their cytotoxicity was investigated in hippocampal neuronal cell lines (HT22). The reduced glutathione level, SOD and catalase activities were ameliorated in tissues treated with the phenolics, with concomitant depletion of malondialdehyde and nitric oxide levels. They inhibited acetylcholinesterase and butyrylcholinesterase activities, while concomitantly elevated ATPase activity. Treatment with vanillin led to restoration of oxidative-depleted metabolites and reactivation of the pentose phosphate and purine metabolism pathways, with concomitant activation of pathways for histidine and selenoamino metabolisms. While vanillic acid restored and reactivated oxidative-depleted metabolites and pathways but did not activate any additional pathway. Both phenolics portrayed good binding affinity for catalase, with vanillic acid having the higher binding energy of −7.0 kcal/mol. Both phenolics were not cytotoxic on HT22 cells, and their toxicity class were predicted to be 4. Only vanillin was predicted to be permeable across the blood brain barrier (BBB). These results insinuate that vanillin and vanillic acid confer a neuroprotective effect on oxidative brain damage, when vanillin being the most potent.
AbstractList The therapeutic effect of phenolics on neurodegenerative diseases has been attributed to their potent antioxidant properties. In the present study, the neuroprotective activities of vanillin and vanillic acid were investigated in Fe2+- induced oxidative toxicity in brain tissues by investigating their therapeutic effects on oxidative imbalance, cholinergic and nucleotide-hydrolyzing enzymes activities, dysregulated metabolic pathways. Their cytotoxicity was investigated in hippocampal neuronal cell lines (HT22). The reduced glutathione level, SOD and catalase activities were ameliorated in tissues treated with the phenolics, with concomitant depletion of malondialdehyde and nitric oxide levels. They inhibited acetylcholinesterase and butyrylcholinesterase activities, while concomitantly elevated ATPase activity. Treatment with vanillin led to restoration of oxidative-depleted metabolites and reactivation of the pentose phosphate and purine metabolism pathways, with concomitant activation of pathways for histidine and selenoamino metabolisms. While vanillic acid restored and reactivated oxidative-depleted metabolites and pathways but did not activate any additional pathway. Both phenolics portrayed good binding affinity for catalase, with vanillic acid having the higher binding energy of −7.0 kcal/mol. Both phenolics were not cytotoxic on HT22 cells, and their toxicity class were predicted to be 4. Only vanillin was predicted to be permeable across the blood brain barrier (BBB). These results insinuate that vanillin and vanillic acid confer a neuroprotective effect on oxidative brain damage, when vanillin being the most potent.
The therapeutic effect of phenolics on neurodegenerative diseases has been attributed to their potent antioxidant properties. In the present study, the neuroprotective activities of vanillin and vanillic acid were investigated in Fe 2+ - induced oxidative toxicity in brain tissues by investigating their therapeutic effects on oxidative imbalance, cholinergic and nucleotide-hydrolyzing enzymes activities, dysregulated metabolic pathways. Their cytotoxicity was investigated in hippocampal neuronal cell lines (HT22). The reduced glutathione level, SOD and catalase activities were ameliorated in tissues treated with the phenolics, with concomitant depletion of malondialdehyde and nitric oxide levels. They inhibited acetylcholinesterase and butyrylcholinesterase activities, while concomitantly elevated ATPase activity. Treatment with vanillin led to restoration of oxidative-depleted metabolites and reactivation of the pentose phosphate and purine metabolism pathways, with concomitant activation of pathways for histidine and selenoamino metabolisms. While vanillic acid restored and reactivated oxidative-depleted metabolites and pathways but did not activate any additional pathway. Both phenolics portrayed good binding affinity for catalase, with vanillic acid having the higher binding energy of −7.0 kcal/mol. Both phenolics were not cytotoxic on HT22 cells, and their toxicity class were predicted to be 4. Only vanillin was predicted to be permeable across the blood brain barrier (BBB). These results insinuate that vanillin and vanillic acid confer a neuroprotective effect on oxidative brain damage, when vanillin being the most potent.
The therapeutic effect of phenolics on neurodegenerative diseases has been attributed to their potent antioxidant properties. In the present study, the neuroprotective activities of vanillin and vanillic acid were investigated in Fe2+- induced oxidative toxicity in brain tissues by investigating their therapeutic effects on oxidative imbalance, cholinergic and nucleotide-hydrolyzing enzymes activities, dysregulated metabolic pathways. Their cytotoxicity was investigated in hippocampal neuronal cell lines (HT22). The reduced glutathione level, SOD and catalase activities were ameliorated in tissues treated with the phenolics, with concomitant depletion of malondialdehyde and nitric oxide levels. They inhibited acetylcholinesterase and butyrylcholinesterase activities, while concomitantly elevated ATPase activity. Treatment with vanillin led to restoration of oxidative-depleted metabolites and reactivation of the pentose phosphate and purine metabolism pathways, with concomitant activation of pathways for histidine and selenoamino metabolisms. While vanillic acid restored and reactivated oxidative-depleted metabolites and pathways but did not activate any additional pathway. Both phenolics portrayed good binding affinity for catalase, with vanillic acid having the higher binding energy of -7.0 kcal/mol. Both phenolics were not cytotoxic on HT22 cells, and their toxicity class were predicted to be 4. Only vanillin was predicted to be permeable across the blood brain barrier (BBB). These results insinuate that vanillin and vanillic acid confer a neuroprotective effect on oxidative brain damage, when vanillin being the most potent.The therapeutic effect of phenolics on neurodegenerative diseases has been attributed to their potent antioxidant properties. In the present study, the neuroprotective activities of vanillin and vanillic acid were investigated in Fe2+- induced oxidative toxicity in brain tissues by investigating their therapeutic effects on oxidative imbalance, cholinergic and nucleotide-hydrolyzing enzymes activities, dysregulated metabolic pathways. Their cytotoxicity was investigated in hippocampal neuronal cell lines (HT22). The reduced glutathione level, SOD and catalase activities were ameliorated in tissues treated with the phenolics, with concomitant depletion of malondialdehyde and nitric oxide levels. They inhibited acetylcholinesterase and butyrylcholinesterase activities, while concomitantly elevated ATPase activity. Treatment with vanillin led to restoration of oxidative-depleted metabolites and reactivation of the pentose phosphate and purine metabolism pathways, with concomitant activation of pathways for histidine and selenoamino metabolisms. While vanillic acid restored and reactivated oxidative-depleted metabolites and pathways but did not activate any additional pathway. Both phenolics portrayed good binding affinity for catalase, with vanillic acid having the higher binding energy of -7.0 kcal/mol. Both phenolics were not cytotoxic on HT22 cells, and their toxicity class were predicted to be 4. Only vanillin was predicted to be permeable across the blood brain barrier (BBB). These results insinuate that vanillin and vanillic acid confer a neuroprotective effect on oxidative brain damage, when vanillin being the most potent.
Author Ibeji, Collins U.
Islam, Md. Shahidul
Erukainure, Ochuko L.
Olasehinde, Tosin A.
Salau, Veronica F.
Koorbanally, Neil A.
Author_xml – sequence: 1
  givenname: Veronica F.
  surname: Salau
  fullname: Salau, Veronica F.
  organization: Department of Biochemistry, University of KwaZulu-Natal, Department of Biochemistry, Veritas University
– sequence: 2
  givenname: Ochuko L.
  orcidid: 0000-0003-0489-338X
  surname: Erukainure
  fullname: Erukainure, Ochuko L.
  organization: Department of Biochemistry, University of KwaZulu-Natal, Department of Pharmacology, University of the Free State
– sequence: 3
  givenname: Collins U.
  surname: Ibeji
  fullname: Ibeji, Collins U.
  organization: Department of Pure and Industrial Chemistry, Faculty of Physical Sciences, University of Nigeria
– sequence: 4
  givenname: Tosin A.
  surname: Olasehinde
  fullname: Olasehinde, Tosin A.
  organization: Department of Biochemistry and Microbiology, University of Fort Hare
– sequence: 5
  givenname: Neil A.
  surname: Koorbanally
  fullname: Koorbanally, Neil A.
  organization: School of Chemistry and Physics, University of KwaZulu-Natal
– sequence: 6
  givenname: Md. Shahidul
  surname: Islam
  fullname: Islam, Md. Shahidul
  email: islamd@ukzn.ac.za
  organization: Department of Biochemistry, University of KwaZulu-Natal
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ContentType Journal Article
Copyright Springer Science+Business Media, LLC, part of Springer Nature 2020
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ISSN 0885-7490
1573-7365
IngestDate Sun Nov 09 09:32:34 EST 2025
Wed Nov 05 00:44:56 EST 2025
Sat Nov 29 03:57:10 EST 2025
Tue Nov 18 22:52:09 EST 2025
Fri Feb 21 02:25:59 EST 2025
IsPeerReviewed true
IsScholarly true
Issue 5
Keywords Vanillic acid
Vanillin
Antioxidant
Neurodegeneration
Phenolics
Language English
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crossref_primary_10_1007_s11011_020_00545_y
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PublicationTitle Metabolic brain disease
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Snippet The therapeutic effect of phenolics on neurodegenerative diseases has been attributed to their potent antioxidant properties. In the present study, the...
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SubjectTerms Acetylcholinesterase
Acids
Activation
Adenosine triphosphatase
Antioxidants
Biochemistry
Biomedical and Life Sciences
Biomedicine
Blood-brain barrier
Brain damage
Brain injury
Catalase
Cell lines
Cholinergics
Complications
Cytotoxicity
Depletion
Glutathione
Hippocampus
Histidine
Iron
Malondialdehyde
Metabolic Diseases
Metabolic pathways
Metabolism
Metabolites
Neurodegenerative diseases
Neurology
Neuroprotection
Neurosciences
Nitric oxide
Nucleotides
Oncology
Original Article
Pentose
Pentose phosphate pathway
Phenols
Restoration
Tissues
Toxicity
Vanillic acid
Vanillin
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Title Vanillin and vanillic acid modulate antioxidant defense system via amelioration of metabolic complications linked to Fe2+-induced brain tissues damage
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