Achondroplasia Health Article

Definition

Achondroplasia is a common form of dwarfism or short stature due to an autosomal dominant mutation (a mutation on one of the first 22 "non-sex" chromosomes) that causes an individual to have short stature with disproportionately short arms and legs, a large head, and distinctive facial features, including a prominent forehead and a flattened midface.

Description

Achondroplasia is a genetic form of dwarfism due to a problem of bone growth and development. There are many causes for dwarfism, including hormone imbalances and metabolic problems. Achondroplasia belongs to a class of dwarfism referred to as a chrondrodystrophy or skeletal dysplasia. All skeletal dysplasias are the result of a problem with bone formation or growth. There are over 100 different types of skeletal dysplasia. Achondroplasia is the most common and accounts for half of all known skeletal dysplasias.

Achondroplasia is easily recognizable. Affected individuals have disproportionate short stature, large heads with characteristic facial features, and disproportionate shortening of their limbs. Most individuals with achondroplasia have a normal IQ. The motor development of infants is delayed due to hypotonia (low muscle tone) and their physical differences (large heads and small bones). The motor development of children with achondroplasia eventually catches up with that of their peers. Individuals with achondroplasia can have medical complications that range from mild to severe. Because of the differences in their bone structure, these individuals are prone to middle ear infections. They are also at risk for neurologic problems due to spinal cord compression. The spinal canal (which holds the spinal cord) is smaller than normal in achondroplasia. The American Academy of Pediatrics' Committee on Genetics has developed guidelines for the medical management of children with achondroplasia.

The short stature of achondroplasia can be a socially isolating and physically challenging. Most public places are not adapted to individuals of short stature and this can limit their activities. Children and adults with achondroplasia can be socially ostracized due to their physical appearance. Many people erroneously assume that individuals with achondroplasia have limited abilities. It is very important to increase awareness with educational programs and to take proactive steps to foster self-esteem in children with achondroplasia.

Genetic profile

Achondroplasia is caused by a mutation, or change, in the fibroblast growth factor receptor 3 gene (FGFR3) located on the short arm of chromosome 4.

Genes contain the instructions that tell a body how to form. They are composed of four different chemical bases–adenine (A), thymine (T), cytosine (C), and guanine (G). These bases are arranged like words in a sentence and the specific order of these four bases provide the instructions that a cell needs to form a protein.

FGFR (fibroblast growth factor receptor) genes provide the instruction for the formation of a cell receptor. Every cell in the body has an outer layer called a cell membrane that serves as a filter. Substances are transported into and out of the cells by receptors located on the surface of the cell membrane. Every cell has hundreds of different types of receptors. The fibroblast growth factor receptor transports fibroblast growth factors into a cell. Fibroblast growth factors play a role in the normal growth and development of bones. When the receptors for fibroblast growth factors do not work properly, the cell does not receive enough fibroblast growth factors and results in abnormal growth and development of bones.

Achondroplasia is caused by mutations in the FGFR3 gene. Two specific mutations account for approximately 99% of achondroplasia. The FGFR gene is comprised of 2,520 bases. In a normal (non-mutated) gene, base number 1138 is guanine (G). In most individuals with achondroplasia (98%), this guanine (G) has been replaced with adenine (A). In a small number of individuals with achondroplasia (1%), this guanine (G) has been replaced with cytosine (C). Both of these small substitutions cause a change in the fibroblast growth factor receptor (FGFR) that affects the function of this receptor.

Mutations in the FGFR3 gene are inherited in an autosomal dominant manner. Every individual has two FGFR3 genes—one from their father and one from their mother. In an autosomal dominant disorder, only one gene has to have a mutation for the person to have the disorder. Over 80% of individuals with achondroplasia are born to parents with average stature. Their achondroplasia is the result of a de novo or new mutation. No one knows the cause of de novo mutations or why they occur so frequently in achondroplasia. For reasons that are not yet understood, most new mutations occur in the FGFR3 gene that is inherited from the average-size father.

An individual with achondroplasia has a 50% chance of passing on their changed (mutated) gene to their children. An achondroplastic couple (both parents have achondroplasia) has a 25% chance that they will have a child with average stature, a 50% chance that they will have a child with one achondroplasia gene (a hetero-zygote), and a 25% chance that a child will get a two copies of the achondroplasia gene (a homozygote). Babies with homozygous achondroplasia are much more severely affected than babies with a single achondroplasia gene. These infants generally die very shortly after birth because of breathing problems caused by an extremely small chest.