[HTML][HTML] Glutamine synthetase as a central element in hepatic glutamine and ammonia metabolism: novel aspects
Biological chemistry, 2021•degruyter.com
Glutamine synthetase (GS) in the liver is expressed in a small perivenous, highly specialized
hepatocyte population and is essential for the maintenance of low, non-toxic ammonia levels
in the organism. However, GS activity can be impaired by tyrosine nitration of the enzyme in
response to oxidative/nitrosative stress in a pH-sensitive way. The underlying molecular
mechanism as investigated by combined molecular simulations and in vitro experiments
indicates that tyrosine nitration can lead to a fully reversible and pH-sensitive regulation of …
hepatocyte population and is essential for the maintenance of low, non-toxic ammonia levels
in the organism. However, GS activity can be impaired by tyrosine nitration of the enzyme in
response to oxidative/nitrosative stress in a pH-sensitive way. The underlying molecular
mechanism as investigated by combined molecular simulations and in vitro experiments
indicates that tyrosine nitration can lead to a fully reversible and pH-sensitive regulation of …
Abstract
Glutamine synthetase (GS) in the liver is expressed in a small perivenous, highly specialized hepatocyte population and is essential for the maintenance of low, non-toxic ammonia levels in the organism. However, GS activity can be impaired by tyrosine nitration of the enzyme in response to oxidative/nitrosative stress in a pH-sensitive way. The underlying molecular mechanism as investigated by combined molecular simulations and in vitro experiments indicates that tyrosine nitration can lead to a fully reversible and pH-sensitive regulation of protein function. This approach was also used to understand the functional consequences of several recently described point mutations of human GS with clinical relevance and to suggest an approach to restore impaired GS activity.
De Gruyter