Free amino acids and related compounds in biopsies of human brain

TL Perry, S Hansen, K Berry, C Mok… - Journal of …, 1971 - Wiley Online Library
TL Perry, S Hansen, K Berry, C Mok, D Lesk
Journal of neurochemistry, 1971Wiley Online Library
Contents (μmol/g wet wt.) of 35 free amino acids and related compounds were measured in
biopsies of human brain from ten patients. Brain specimens were frozen in liquid nitrogen
within 10 sec of their removal at neurosurgery; thus, the values found should approximate
those which occur in living brain. Levels in free pools of biopsied cerebral cortex of most of
the amino acids that are constituents of proteins were only 20‐50 per cent of those found in
autopsied cortex. The content of cystine and ethanolamine was much lower in biopsied than …
Abstract
Contents (μmol/g wet wt.) of 35 free amino acids and related compounds were measured in biopsies of human brain from ten patients. Brain specimens were frozen in liquid nitrogen within 10 sec of their removal at neurosurgery; thus, the values found should approximate those which occur in living brain.
Levels in free pools of biopsied cerebral cortex of most of the amino acids that are constituents of proteins were only 20‐50 per cent of those found in autopsied cortex. The content of cystine and ethanolamine was much lower in biopsied than in autopsied cortex. Concentrations of GABA in biopsied cortex were only 20 per cent as high as those found in autopsied cortex, and levels of γ‐aminobutyryl dipeptides were also significantly lower in biopsied cortex. Amounts of cystathionine in biopsied cortex varied markedly, but averaged much higher than in autopsied cortex; a single biopsy specimen of cerebellar grey matter had a cystathionine content 36‐fold greater than the mean found in autopsied cerebellum.
Appreciable variability in contents among cortical biopsies was found for glycerophosphoethanolamine, phosphoethanolamine, ethanolamine, taurine, aspartic acid, glutamic acid, glutamine, and GABA, as well as for cystathionine. Whether this variability occurred between different subjects, or between different cortical areas, was not clear, although the former possibility was suggested by findings in multiple cortical biopsies from one patient.
Wiley Online Library