Carnitine Palmitoyltransferas... Health Article

Genetic profile

CPT-I deficiency is caused by defects in the CPT1 gene located on chromosome 11. CPT-II deficiency results from mutations in the CPT2 gene on chromosome 1.

Both CPT-I and CPT-II deficiency are considered autosomal recessive conditions. This means that both parents of an affected person carry one defective CPT gene, but also have a normal gene of that pair. Carriers of a single recessive gene typically do not express the deficiency because the second normal functioning gene, is able to compensate. A person with two mutated genes has no normal gene to make up for the deficiency, and thus expresses the disease. Parents who are both carriers for the same autosomal recessive condition face a 25% chance in each pregnancy that they will both pass on the defective gene and have an affected child.

Several individuals proven to be carriers of CPT-II deficiency have had mild symptoms of the disorder. Measurement of CPT-II enzyme levels (the protein coded for by CPT2) in most of the carriers tested show lower levels, as would be expected when one gene is mutated and the other is not. It is not yet clear why some carriers show mild symptoms, but this phenomenon occasionally occurs in other autosomal recessive conditions.

Demographics

CPT-I deficiency is rare, with fewer than 15 cases having been reported. CPT-II deficiency is more common, but its true occurrence is unknown. Muscle CPT-II deficiency makes up the majority of cases that have been reported; liver and multiorgan CPT-II deficiency are both quite rare. There seems to be no geographic area or ethnic group that is at greater risk for either type of CPT deficiency.

Approximately equal numbers of males and females with CPT-I deficiency have been seen, which is typical of autosomal recessive inheritance. However, about 80% of those individuals diagnosed with CPT-II deficiency are male. Males and females do have an equal likelihood of inheriting a defective CPT2 gene from a parent, but effects of the gene in each sex can be different. Hormonal differences between males and females may have some effect—a clue being the tendency of an affected woman to have more symptoms while pregnant.

CPT-I deficiency

The CPT-I enzyme has two forms, coded for by different genes. CPT-IA is the form present in liver, skin, kidney, and heart cells, while CPT-IB functions in skeletal muscle, heart, fat, and testis cells. CPT-I deficiency refers to the CPT-IA form since a defective CPT-IB enzyme has not yet been described in humans. CPT-I deficiency has always been diagnosed in infants or children.

The brain and muscles use ketone bodies as a source of energy. The brain especially, relies heavily on ketone bodies for energy during times of stress, such as after fasting when low sugar levels (hypoglycemia) occur. In fact, children with CPT-I deficiency are usually first diagnosed after they have fasted due to an illness or diarrhea. Hypoketosis and hypoglycemia in CPT-I deficiency can become severe, and result in lethargy (lack of physical energy), seizures, and coma.

CPT-II deficiency

CPT-II deficiency is divided into three subtypes. "Muscle CPT deficiency" is the most common form of the condition. Onset of symptoms is usually in adolescence or adulthood, but varies. "Hepatic CPT-II deficiency" is rare and is diagnosed in childhood. The remaining cases are classified as "multiorgan CPT-II deficiency," and have been diagnosed in infants. Differences in the severity of symptoms between the groups, as well as within each group, are due in part to different mutations in the CPT2 gene. Environmental factors may assist the triggering of attacks and thus may contribute to the variety of observed symptoms.

MUSCLE CPT DEFICIENCY Muscle fatigue, stiffness, and pain are typically caused by prolonged exercise or exertion. Other possible triggers include fasting, infection, muscle injury, exposure to cold, and even emotional stress. Cases of adverse reactions to certain types of general anesthesia have also been reported.

These "muscle attacks" after a triggering event are the classic physical signs of muscle CPT-II deficiency. When an attack is associated with the breakdown of muscle tissue (rhabdomyolysis), myoglobinuria is the other classic sign. Unlike other metabolic myopathies, there are no obvious signs of an impending attack, and resting will not stop the symptoms once they have begun. Muscle symptoms may begin during or up to several hours after prolonged exercise or other triggering events. A specific muscle group may be affected, or generalized symptoms may occur. Muscle weakness between attacks is not a problem, unlike some other metabolic myopathies. In addition, muscle cells examined under the microscope typically appear normal. Some people with muscle CPT deficiency have only had a few attacks in their lifetime, while others may experience several attacks per week. Renal failure due to repeated episodes of myoglobinuria occurs in about 25% of individuals with muscle CPT deficiency.

HEPATIC CPT-II DEFICIENCY Symptoms and age of onset in hepatic CPT-II deficiency are similar to CPT-I deficiency, primarily coma and seizures associated with hypoketotic hypoglycemia. However, unlike CPT-I deficiency, most infants with liver CPT-II deficiency have had heart problems and have died.

MULTIORGAN CPT-II DEFICIENCY This type of CPT-II deficiency has only been reported a few times and involves the liver, skeletal muscles and heart. Infants with this type have all died.