Glycogen storage disease type IV (GSD IV), or Andersen's Disease,[2][3] is a form of
glycogen storage disease, which is caused by an
inborn error of metabolism. It is the result of a mutation in the
GBE1 gene, which causes a defect in the glycogen branching enzyme. Therefore,
glycogen is not made properly and abnormal glycogen molecules accumulate in cells; most severely in cardiac and muscle cells. The severity of this disease varies on the amount of enzyme produced. GSD IV is autosomal recessive, which means each parent has a mutant copy of the gene, but show no symptoms of the disease. Having an autosomal recessive inheritance pattern, males and females are equally likely to be affected by Andersen's disease. Classic Andersen's disease typically becomes apparent during the first few months after the patient is born. Approximately 1 in 20,000 to 25,000 newborns have a glycogen storage disease.[4] Andersen's disease affects 1 in 800,000 individuals worldwide, with 3% of all GSDs being type IV.[5] The disease was described and studied first by
Dorothy Hansine Andersen.[6][7]
Human pathology
It is a result of the absence of the
glycogen branching enzyme, which is critical in the production of
glycogen. This leads to very long unbranched glucose chains being stored in glycogen. The long unbranched molecules have low solubility, leading to glycogen precipitation in the liver. These deposits subsequently build up in the body tissue, especially the
heart and
liver. The inability to break down glycogen in muscle cells causes muscle weakness. The probable result is cirrhosis and death within five years. In adults, the activity of the enzyme is higher and symptoms do not appear until later in life.[citation needed]
Variant types
Fatal perinatal neuromuscular type
Excess fluid builds up around and in the body of the fetus
Causes decrease in fetal movement and stiffness of joints after birth
Infants have low muscle tone and muscle wasting
Do not survive past the newborn stage due to weakened heart and lungs
Congenital muscular type
Develops in early infancy
Babies have dilated cardiomyopathy, preventing the heart from pumping efficiently
Only survive a few months
Progressive hepatic type
Infants have difficulty gaining weight
Develop enlarged liver and cirrhosis that is irreversible
High BP in hepatic portal vein and buildup of fluid in the abdominal cavity
Die of liver failure in early childhood
Non-progressive hepatic type
Same as progressive, but liver disease is not so severe
Do not usually develop cirrhosis
Usually show muscle weakness and hypotonia
Survive into adulthood
Life expectancy varies upon symptom severity
Childhood neuromuscular type
Develops in late childhood
Has myopathy and dilated cardiomyopathy
Varies greatly
Some have mild muscle weakness
Some have severe cardiomyopathy and die in early adulthood
Diagnosis
An assay of amylo-1,4 → 1,6 glucan transferases (which removes a block of 6 glucose residues from the 1,4 position and attaches it to the 1,6 position of the same chain)
Alternative names and related disease
Alternative names in medical literature for the disease include:
The disease has been reported in the
Norwegian Forest Cat, where it causes skeletal muscle, heart, and CNS degeneration in animals greater than five months old. It has not been associated with
cirrhosis or liver failure.[9][10]