Campomelic Dysplasia Health Article

Definition

Campomelic dysplasia is a rare, often lethal, genetic condition characterized by multiple abnormalities including short limbs, bowed legs, distinctive facial features, and a narrow chest. It is also often associated with abnormal development of the sex (reproductive) organs in males.

Description

Campomelic dysplasia is also known as campomelic syndrome, campomelic dwarfism, CMD1, and CMPD1. This condition affects the bones and cartilage of the body, causing significantly short arms and legs, bowing of the legs, small chest size, and other skeletal (bony) and non-skeletal problems. Some genetic males with campomelic dysplasia have female sex organs. Death often results in the newborn period due to breathing problems related to the small chest size. Campomelic dysplasia is caused by an alteration (mutation) in a gene called SOX9. It usually occurs randomly in a family.

Genetic profile

Campomelic dysplasia is caused by an alteration in the SOX9 gene, which plays a role in bone formation and testes development. Genes are units of hereditary material found on chromosomes, which are passed from a parent to a child through the egg and sperm. The information contained in genes is responsible for the development of all the cells and tissues of the body.

The SOX9 gene is located on chromosome 17 (one of the 22 non-sex chromosomes) and it plays a role in both bone formation and testis development. The testes are responsible for producing male hormones. Every developing baby in the womb (fetus), whether genetically male (XY) or female (XX), starts life with the capacity to develop either male or female sex organs. After a few weeks, in an XY fetus, the genitals develop into male genitals if male hormones are present. In the absence of male hormones, a female body type with female genitals results.

In individuals with campomelic dysplasia, the SOX9 gene is altered such that it does not work properly. This causes the testes to form improperly and the male hormones are not produced; thus, individuals who are genetically male (XY) can develop as normal females. This is known as sex-reversal and occurs in about 66% of genetic males with campomelic dysplasia. Since SOX9 is also important for proper bone formation, the bones of the body are also affected causing short stature, bowed legs, and other problems.

There are usually two normal copies of the SOX9 gene: one copy of the gene is inherited from the mother and one copy is inherited from the father. Campomelic dysplasia is inherited as a dominant condition. In dominant conditions, a person only needs one altered gene copy to develop the condition. The alteration in the SOX9 gene that causes campomelic dysplasia is usually random. This means that some unknown event has caused the SOX9 gene (which functions normally in the parent) to become altered in either the sperm of the father or the egg of the mother. When this altered sperm or egg is fertilized, the child that results has campomelic dysplasia. The chance for parents of a child with campomelic dysplasia to have a second child with the same condition is slightly higher than it would be for another couple who has not had a child with this condition. A person who has campomelic dysplasia can pass on their altered SOX9 gene to his or her future children; however, there have not been any reports of individuals with campomelic dysplasia having children.