Liver encephalopathy is one of the diseases that claims most lives worldwide. A Norwegian study has revealed that the disease disturbs vital processes in the brain.
Chronic liver damage/cirrhosis is the 12th most common cause of death in the United States and in over half of the cases, those affected suffer from liver encephalopathy. In the EU, the proportion of people who contract liver encephalopathy is equivalent to the number who die due to diabetes and traffic accidents. In spite of this, little is heard about this disease.
Liver encephalopathy is first triggered by damage to the liver due to for example alcohol abuse or infections generating inflammation of the liver (hepatitis). This leads to a number of processes in the body that cause a swelling of the brain. In the end, the patient goes into a coma, with death as a possible outcome.
Development of a possible cure for liver encephalopathy
Scientists wanted to find out why brain functions are weakened and why the brain swells in acute liver encephalopathy in order to find a cure for this serious disease, or at the very least a treatment for its symptoms.
Professor Farrukh Abbas Chaudhry explains what happens before the brain begins to swell. He works at the Department of Molecular Medicine at the Institute of Basic Medical Sciences, University of Oslo.
“The liver helps us to break down many different toxins in the body. We eat a lot of proteins that are burned in the body, leaving the waste product ammonia. We also have beneficial bacteria in the gut that excrete ammonia—but ammonia is a toxic substance for the body. We therefore depend on the liver to convert the ammonia to urea, which is then excreted via the kidneys as a main component of urine,” explains the professor.
Ammonia enters the bloodstream
If the liver fails due to alcohol misuse or hepatitis, ammonia can accumulate in the bloodstream and eventually end up in the brain. “When this happens, patients become confused and the brain becomes swollen. Patients can change personality and become irritable and aggressive. After a while, they may become lethargic and drowsy and go into a coma. The swelling increases pressure in the skull and compresses the brain and the patient can die,” says Chaudhry.
Nerve cells fail to produce enough neurotransmitters
Professor Chaudhry adds that “we already knew that ammonia was a key cause of disturbances in brain functions and swelling of the brain, but not why and how this happens.” He and his fellow researchers therefore used a multidisciplinary approach to find out what happens to two types of cells in the brain: nerve cells and glial cells.
Nerve cells communicate with one another by means of substances called neurotransmitters, which are released from one cell in order to activate or inhibit another. The second cell can for example be given a signal to generate electric signals, change its properties or produce proteins.
Glial cells surround nerve cells and help them to function well by providing them with raw material they use to make neurotransmitters.
Cannot send messages to other cells
As part of the project, the researchers carried out experiments on mice. “The amino acid glutamine is normally formed in glial cells and transported to nerve cells in order to produce the two most important stimulating and inhibiting neurotransmitters (i.e. signaling substances) in the brain. We discovered that ammonia inhibits the transport of glutamine between glial cells and nerve cells. When this transport is disturbed, the nerve cells do not generate as much neurotransmitter as they should and cannot therefore send messages to other cells in the normal way. At the same time, this lack of transport leads to a build-up of glutamine and ammonia in the glial cells. This attracts water so that glial cells swell resulting in increased pressure in glial cells and ultimately in the brain.”
The professor says that he was surprised that their findings were so clear-cut: that it is only glutamine transporting proteins in the glial cells that are affected and not the nerve cells. This causes the failure in nerve cell signals and the swelling of the brain that are both key symptoms of liver encephalopathy.
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