Adrenoleukodystrophy Health Article

Definition

Adrenoleukodystrophy is a progressive condition that affects the adrenal glands, the glands atop the kidneys responsible for the production of adrenalin, and myelin, which insulates the nerves in the brain and spinal cord.

Description

Adrenoleukodystrophy (ALD) was first described in the early 1900s and was originally called Schilder-Addision disease. It is named for the different parts of the body that are affected; "adreno" refers to the adrenal glands, "leuko" is the Greek word for white (myelin is often called the white matter in the brain and spinal cord), and "dystrophy" meaning impaired growth. Therefore, this disease affects the adrenal glands and the growth of the myelin in the brain and spinal cord. There is a wide range in the severity of symptoms. ALD mainly affects males, but occasionally females have mild or moderate symptoms.

Causes and effects

ALD is caused by problems in the peroxisomes. The peroxisomes are tiny structures in cells that help break down large molecules of fats into smaller ones so that they can be used by the body. In ALD the peroxisomes cannot break down a type of fat called very long chain fatty acids (VLCFA). There are two types of problems that occur because the VLCFA are not broken down. First, because the VLCFA cannot be broken down, they accumulate throughout the body, especially in the brain and the adrenal glands. Very high levels of VLCFA are also seen in the blood. The second type of problem occurs because the fats that are usually made when VLCFA are broken down are not produced. This is in part what happens in the adrenal glands and in the myelin.

The adrenal glands are located on top of each kidney in the abdomen. Part of the job of the adrenal glands is to use cholesterol (a type of fat made in the body when VLCFA are broken down) to make a few different steroids—chemical combinations that form the basis of hormones, body acids, and anabolic agents. The steroids are used to help the body properly use sodium and potassium and to break down proteins, carbohydrates, and other fats. Some of these steroids are also involved with sexual development and function.

The insulation that surrounds the nerves is called myelin and is also affected by the VLCFA not being broken down. Myelin is made up of a number of different proteins and fats. Normally the VLCFA break down and produce fats that make up part of the myelin. When the VLCFA cannot break down, the fats necessary to make the myelin are not made and the myelin is abnormal. In addition, for reasons not well understood, there is also active breakdown of myelin, also known as demyelination.

Genetic profile

ALD is caused by a mutation in a gene called the ALD gene. Genes contain the instructions for how the body grows and develops before and after a person is born. The ALD gene makes a protein called ALDP (ALD protein). Different proteins put together make the tissues and organs in the body such as myelin. ALDP is important because it helps VLCFA get into the peroxisomes. When there is a mutation in the ALD gene, the ALDP is abnormal or not present at all. As a result, the VCLFA cannot get into the peroxisomes and the VLCFA accumulate in other places in the body.

Genes are organized on structures called chromosomes. Hundreds to thousands of genes are found on each chromosome. There are 46 chromosomes in each cell of the body. These are grouped into 23 pairs. The first 22 pairs are the same in both males and females. The 23rd pair is called the sex chromosomes; having one X chromosome and one Y chromosome causes a person to be male; having two X chromosomes causes a person to be female. People get one member of each pair from the mother's egg and one member from the father's sperm.

The ALD gene is located on the X chromosome. Since males only have one X chromosome, they only have one copy of the ALD gene. Thus, when a male has a mutation in his ALD gene, he will have ALD. However, females have two X chromosomes and therefore have two copies of the ALD gene. If they have a mutation in one copy of their ALD genes, they may only have mild symptoms of ALD or no symptoms at all. This is because their normal copy of the ALD gene does make normal ALD protein. Females who have one copy of the ALD gene with a mutation and one normal copy are called carriers.