Regional Differences in Protein Carboxymethylation in Post-Mortem Human Brain

1. The aim of this study was to determine the pattern of protein carboxymethylation in different regions of the human brain. 2. The availability of protein methylation sites was determined by measurement of the incorporation of methyl-3H groups into proteins isolated from postmortem brain tissue. Th...

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Published inClinical science (1979) Vol. 94; no. 6; pp. 677 - 685
Main Authors Goggins, Michael, Scott, John M., Weir, Donald G.
Format Journal Article
LanguageEnglish
Published London Portland Press 01.06.1998
Subjects
Adult
Aged
Aged, 80 and over
Analysis of Variance
Animals
Biological and medical sciences
Brain - enzymology
Brain - metabolism
Cerebellum - enzymology
Cerebellum - metabolism
Cerebral Cortex - enzymology
Cerebral Cortex - metabolism
Feasibility Studies
Female
Humans
Male
Medical sciences
Methylation
Middle Aged
Nervous system involvement in other diseases. Miscellaneous
Neurology
Protein O-Methyltransferase - analysis
Swine
Time Factors
Human
Evaluation
In vivo
Nervous system diseases
Autopsy
Response differentiation
Central nervous system disease
Carboxymethylation
Biological activity
Comparative study
Cerebral disorder
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Abstract 1. The aim of this study was to determine the pattern of protein carboxymethylation in different regions of the human brain. 2. The availability of protein methylation sites was determined by measurement of the incorporation of methyl-3H groups into proteins isolated from postmortem brain tissue. The stability of protein carboxymethylation in post-mortem brain was determined by sampling post-mortem pig and human brain tissue at intervals during the first 24 h after death. This method has previously been used to demonstrate that decreased protein carboxymethylation occurred in post-mortem pig brain when methionine synthase was inhibited. 3. There were no significant differences in the protein carboxymethyltransferase activity in samples of pig brain obtained at the time of death compared with that obtained when the same tissue was maintained at room temperature for up to 24 h after death. Similarly, there were no significant differences in the protein carboxymethyltransferase activity in samples isolated from human brain 12 h after death compared with that obtained from the same human brain tissue maintained at room temperature for up to 24 h after death. These results suggest that the level of carboxymethylation of proteins from human post-mortem brain obtained within 24 h of death is not significantly different to the level present at the time of death. To characterize the distribution of protein carboxymethylation in human brain, nine regions of post-mortem brain were sampled from 16 human subjects. Protein carboxymethyltransferase activity was lowest in the cerebellum (P < 0.05) and highest in cortical white matter compared with other regions of the brain (P < 0.05). No significant differences in protein carboxymethyltransferase activity were noted between other regions of the cortex or the subcortical regions. 4. In human cortical white matter there are more available sites for protein carboxymethylation than other brain regions. This may explain the greater sensitivity of white matter to the adverse consequences of hypomethylation associated with vitamin B12 deficiency. Post-mortem brain tissue can serve as a tool for the study of physiological or pathological factors which influence human brain protein methylation in vivo.
AbstractList 1. The aim of this study was to determine the pattern of protein carboxymethylation in different regions of the human brain. 2. The availability of protein methylation sites was determined by measurement of the incorporation of methyl-3H groups into proteins isolated from post-mortem brain tissue. The stability of protein carboxymethylation in post-mortem brain was determined by sampling post-mortem pig and human brain tissue at intervals during the first 24 h after death. This method has previously been used to demonstrate that decreased protein carboxymethylation occurred in post-mortem pig brain when methionine synthase was inhibited. 3. There were no significant differences in the protein carboxymethyltransferase activity in samples of pig brain obtained at the time of death compared with that obtained when the same tissue was maintained at room temperature for up to 24 h after death. Similarly, there were no significant differences in the protein carboxymethyltransferase activity in samples isolated from human brain 12 h after death compared with that obtained from the same human brain tissue maintained at room temperature for up to 24 h after death. These results suggest that the level of carboxymethylation of proteins from human post-mortem brain obtained within 24 h of death is not significantly different to the level present at the time of death. To characterize the distribution of protein carboxymethylation in human brain, nine regions of post-mortem brain were sampled from 16 human subjects. Protein carboxymethyltransferase activity was lowest in the cerebellum (P < 0.05) and highest in cortical white matter compared with other regions of the brain (P < 0.05). No significant differences in protein carboxymethyltransferase activity were noted between other regions of the cortex or the subcortical regions. 4. In human cortical white matter there are more available sites for protein carboxymethylation than other brain regions. This may explain the greater sensitivity of white matter to the adverse consequences of hypomethylation associated with vitamin B12 deficiency. Post-mortem brain tissue can serve as a tool for the study of physiological or pathological factors which influence human brain protein methylation in vivo.
1. The aim of this study was to determine the pattern of protein carboxymethylation in different regions of the human brain. 2. The availability of protein methylation sites was determined by measurement of the incorporation of methyl-3H groups into proteins isolated from postmortem brain tissue. The stability of protein carboxymethylation in post-mortem brain was determined by sampling post-mortem pig and human brain tissue at intervals during the first 24 h after death. This method has previously been used to demonstrate that decreased protein carboxymethylation occurred in post-mortem pig brain when methionine synthase was inhibited. 3. There were no significant differences in the protein carboxymethyltransferase activity in samples of pig brain obtained at the time of death compared with that obtained when the same tissue was maintained at room temperature for up to 24 h after death. Similarly, there were no significant differences in the protein carboxymethyltransferase activity in samples isolated from human brain 12 h after death compared with that obtained from the same human brain tissue maintained at room temperature for up to 24 h after death. These results suggest that the level of carboxymethylation of proteins from human post-mortem brain obtained within 24 h of death is not significantly different to the level present at the time of death. To characterize the distribution of protein carboxymethylation in human brain, nine regions of post-mortem brain were sampled from 16 human subjects. Protein carboxymethyltransferase activity was lowest in the cerebellum (P < 0.05) and highest in cortical white matter compared with other regions of the brain (P < 0.05). No significant differences in protein carboxymethyltransferase activity were noted between other regions of the cortex or the subcortical regions. 4. In human cortical white matter there are more available sites for protein carboxymethylation than other brain regions. This may explain the greater sensitivity of white matter to the adverse consequences of hypomethylation associated with vitamin B12 deficiency. Post-mortem brain tissue can serve as a tool for the study of physiological or pathological factors which influence human brain protein methylation in vivo.
1. The aim of this study was to determine the pattern of protein carboxymethylation in different regions of the human brain. 2. The availability of protein methylation sites was determined by measurement of the incorporation of methyl-3H groups into proteins isolated from post-mortem brain tissue. The stability of protein carboxymethylation in post-mortem brain was determined by sampling post-mortem pig and human brain tissue at intervals during the first 24 h after death. This method has previously been used to demonstrate that decreased protein carboxymethylation occurred in post-mortem pig brain when methionine synthase was inhibited. 3. There were no significant differences in the protein carboxymethyltransferase activity in samples of pig brain obtained at the time of death compared with that obtained when the same tissue was maintained at room temperature for up to 24 h after death. Similarly, there were no significant differences in the protein carboxymethyltransferase activity in samples isolated from human brain 12 h after death compared with that obtained from the same human brain tissue maintained at room temperature for up to 24 h after death. These results suggest that the level of carboxymethylation of proteins from human post-mortem brain obtained within 24 h of death is not significantly different to the level present at the time of death. To characterize the distribution of protein carboxymethylation in human brain, nine regions of post-mortem brain were sampled from 16 human subjects. Protein carboxymethyltransferase activity was lowest in the cerebellum (P < 0.05) and highest in cortical white matter compared with other regions of the brain (P < 0.05). No significant differences in protein carboxymethyltransferase activity were noted between other regions of the cortex or the subcortical regions. 4. In human cortical white matter there are more available sites for protein carboxymethylation than other brain regions. This may explain the greater sensitivity of white matter to the adverse consequences of hypomethylation associated with vitamin B12 deficiency. Post-mortem brain tissue can serve as a tool for the study of physiological or pathological factors which influence human brain protein methylation in vivo.1. The aim of this study was to determine the pattern of protein carboxymethylation in different regions of the human brain. 2. The availability of protein methylation sites was determined by measurement of the incorporation of methyl-3H groups into proteins isolated from post-mortem brain tissue. The stability of protein carboxymethylation in post-mortem brain was determined by sampling post-mortem pig and human brain tissue at intervals during the first 24 h after death. This method has previously been used to demonstrate that decreased protein carboxymethylation occurred in post-mortem pig brain when methionine synthase was inhibited. 3. There were no significant differences in the protein carboxymethyltransferase activity in samples of pig brain obtained at the time of death compared with that obtained when the same tissue was maintained at room temperature for up to 24 h after death. Similarly, there were no significant differences in the protein carboxymethyltransferase activity in samples isolated from human brain 12 h after death compared with that obtained from the same human brain tissue maintained at room temperature for up to 24 h after death. These results suggest that the level of carboxymethylation of proteins from human post-mortem brain obtained within 24 h of death is not significantly different to the level present at the time of death. To characterize the distribution of protein carboxymethylation in human brain, nine regions of post-mortem brain were sampled from 16 human subjects. Protein carboxymethyltransferase activity was lowest in the cerebellum (P < 0.05) and highest in cortical white matter compared with other regions of the brain (P < 0.05). No significant differences in protein carboxymethyltransferase activity were noted between other regions of the cortex or the subcortical regions. 4. In human cortical white matter there are more available sites for protein carboxymethylation than other brain regions. This may explain the greater sensitivity of white matter to the adverse consequences of hypomethylation associated with vitamin B12 deficiency. Post-mortem brain tissue can serve as a tool for the study of physiological or pathological factors which influence human brain protein methylation in vivo.
Author Scott, John M.
Weir, Donald G.
Goggins, Michael
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Issue 6
Keywords Human
Evaluation
In vivo
Nervous system diseases
Autopsy
Response differentiation
Central nervous system disease
Carboxymethylation
Biological activity
Comparative study
Cerebral disorder
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Snippet 1. The aim of this study was to determine the pattern of protein carboxymethylation in different regions of the human brain. 2. The availability of protein...
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SubjectTerms Adult
Aged
Aged, 80 and over
Analysis of Variance
Animals
Biological and medical sciences
Brain - enzymology
Brain - metabolism
Cerebellum - enzymology
Cerebellum - metabolism
Cerebral Cortex - enzymology
Cerebral Cortex - metabolism
Feasibility Studies
Female
Humans
Male
Medical sciences
Methylation
Middle Aged
Nervous system involvement in other diseases. Miscellaneous
Neurology
Protein O-Methyltransferase - analysis
Swine
Time Factors
Title Regional Differences in Protein Carboxymethylation in Post-Mortem Human Brain
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