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Danon Disease


Last updated: 02/09/2023
Years published: 2007, 2012, 2015, 2018, 2023


NORD gratefully acknowledges Matthew R.G. Taylor, MD, PhD, Director, Adult Medical Genetics Program, Colorado Lysosomal Storage Disease Center, University of Colorado, and Ryan S. D’Souza, MD, Anesthesia and Perioperative Medicine, Mayo Clinic, Rochester for assistance in the preparation of this report.

Disease Overview

Danon disease is a rare genetic disorder characterized by an X-linked dominant inheritance pattern, so males are more severely affected than females. Among boys, the key features are diseased heart muscle (cardiomyopathy), weakness of the body muscles (skeletal myopathy) and intellectual disability ranging from mild learning problems to overt intellectual disability. In many males, the disease progresses until a heart transplant is required or death occurs in the second to third decade of life. Females are also affected, although usually more mildly, and often onset is delayed until they reach adulthood. However, some females will progress to being considered for cardiac transplantation during their second decade of life, similar to what is observed in males. Other features include heart arrhythmias, which can lead to a need for medications or a pacemaker, and eye disease affecting the retina; the retinal disease does not always affect vision, especially early in the disease. Danon disease is not usually evident at birth unless blood tests are done in a suspected case (i.e., a son born to a mother known to have the disease).

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  • Antopol disease
  • glycogen storage cardiomyopathy
  • glycogen storage disease type IIB
  • lysosomal glycogen storage disease without acid maltase deficiency
  • pseudoglycogenosis II
  • vacuolar cardiomyopathy and myopathy, X-linked
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Signs & Symptoms

Symptoms of Danon disease vary from person to person and depend on gender. Boys usually show early signs of muscle problems (difficulty sitting or walking), and motor skills may be awkward or delayed. Intellectual disability is usually noticed by parents and/or teachers and can be quite mild. The development of heart disease can lead to further fatigue and shortness of breath. Visual complaints are also prevalent with serious color vision disturbances and near-complete loss of retinal pigment in some patients.

In general, young girls may have no symptoms and will report normal muscle strength and have normal intellect. As females age, symptoms of heart disease can begin to develop, and many adult women will experience arrhythmias and may develop progressive heart failure and be considered for cardiac transplantation. Muscle symptoms are reported by some girls and women, but overt findings of frank muscle weakness are usually absent. Visual complaints may also be reported in women and can be an early feature of the disease, although manifestations are less severe than in men.

Clinical researchers believe that the skeletal muscle involvement in Danon disease preferentially involves the muscles of the back, shoulder, upper legs and the neck muscles. These are the proximal muscles; that is, those closest to the center of the body. Symptoms of weakness in these muscles can include back pain and difficulty raising one’s arms over the head, getting out of a chair or walking up steps. In a young boy, these problems may be suggested by problems meeting motor milestones (sitting, crawling, and walking, running). An experienced neurologist can recognize the extent of muscle disease by performing a physical examination. Increasingly it is apparent that for some patients the muscle disease progresses over time and some older males may require assistance devices (walkers, wheelchairs).

The diseased heart muscle (cardiomyopathy) can lead to a thickened, stiff heart (hypertrophic cardiomyopathy) or to an enlarged heart (dilated cardiomyopathy). Hypertrophic cardiomyopathy is more common in males (approximately 90% hypertrophic and 10% dilated), whereas females are more apt to show features of dilated cardiomyopathy (approximately 50% hypertrophic and 50% dilated). Sometimes the cardiomyopathy can be the first sign of disease in male children. In both instances, problems with heart function and symptoms of heart failure (shortness of breath, fatigue, fluid gain) can occur. Death from heart disease seems to more occur frequently in males, especially as they reach the second and third decades of life. Heart transplantation has been performed successfully and can greatly improve symptoms and extend life. Implantable cardiac defibrillators are used to manage heart arrhythmias and should probably be considered when arrhythmia and cardiomyopathy develop.

The extent of intellectual disability in affected males has been described in some epidemiological studies. Most boys will be mildly affected cognitively, usually allowing them to achieve the ability to read, hold jobs, form relationships and live independently. Furthermore, providing education and learning support may help some boys improve their intellectual functioning. In women, intellect appears to be normal, although very little information in the literature addresses this question.

Less prevalent symptoms might also include liver and lung involvement, although these have not been studied extensively and might be secondary to muscle involvement (e.g., serum liver enzyme elevation and respiratory muscle weakness). Some speculation also exists on psychiatric disease, with some case reports detailing depression, psychosis, suicidal ideation and attention-deficit hyperactivity disorder in Danon disease patients. However, it is unclear if psychiatric episodes are related to Danon disease.

Males with Danon disease typically have abnormalities on certain laboratory tests. The creatine kinase (CPK) level in the blood is often elevated and reflects ongoing muscle damage. The CPK is usually elevated in males but is usually normal in females who have Danon disease. Abnormalities in liver enzyme tests are common in males; in some boys, these are mistakenly interpreted as a sign of primary liver disease rather than a reflection of skeletal muscle dysfunction; frank liver dysfunction has not been well-described in Danon disease. The electrocardiogram (ECG), which measures electrical impulses made by the heart, is often abnormal. This abnormality in conduction and electrical impulse is also known as an arrhythmia. Frequently, an arrhythmia called Wolff-Parkinson-White syndrome, or a pre-excitation syndrome will be seen on the ECG. An examination of the retina by an experienced eye doctor (ophthalmologist) will often detect changes in the pigment of the retina. This can be a useful sign in women, as the retinal changes appear to precede other symptoms of the disease in some females.

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Danon disease is caused by a change (mutation or variant) in a gene called LAMP2. To date, there are over 160 different variants in the LAMP2 gene identified in case reports and databases that could lead to Danon disease. Variants that lead to a complete absence of the LAMP2 protein have been shown to be most detrimental in terms of prognosis. Other variants that lead to a partial LAMP2 protein deficiency maybe less severe clinically.

In many instances the disease is inherited from a parent, typically the mother who is far more apt to remain healthy enough to reach reproductive age than the typically affected male. Without a heart transplant, only a few males may be healthy enough to father their own children. New genetic variants (sporadic mutations) could also account for the first case in a family, but these have not been widely reported. Affected mothers have a 50% chance to pass on the gene variant to each of their children (both sons and daughters). Affected fathers who are healthy enough to have children will pass on the variant to all of their daughters and none of their sons. This pattern of inheritance is consistent with what occurs in other X-linked genetic conditions.

Since females have two X chromosomes (and males have one), females are somewhat protected from the effects of the gene variants that cause Danon disease. This is explained by the fact that each woman with Danon disease has one X chromosome with a Danon disease gene variant and one X chromosome where the LAMP2 gene is functioning normally. The X chromosome with the normal LAMP2 gene protects females and explains, in part, the less severe symptoms and the delay in onset of symptoms until adulthood.

The genetic characteristics of this gene (LAMP2) are transmitted in an X-linked dominant pattern.

Genetic diseases are determined by the combination of genes for a particular trait that are on the chromosomes received from the father and the mother.

X-linked recessive genetic disorders are conditions caused by an abnormal gene on the X chromosome. Females have two X chromosomes but one of the X chromosomes is “turned off” and all of the genes on that chromosome are inactivated. Females who have a disease gene present on one of their X chromosomes are carriers for that disorder. Carrier females usually do not display symptoms of the disorder because it is usually the X chromosome with the abnormal gene that is turned off. A male has one X chromosome and if he inherits an X chromosome that contains a disease gene, he will develop the disease. Males with X-linked disorders pass the disease gene to all of their daughters, who will be carriers. A male cannot pass an X-linked gene to his sons because males always pass their Y chromosome instead of their X chromosome to male offspring. Female carriers of an X-linked disorder have a 25% chance with each pregnancy to have a carrier daughter like themselves, a 25% chance to have a non-carrier daughter, a 25% chance to have a son affected with the disease, and a 25% chance to have an unaffected son.

X-linked dominant disorders, like Danon disease, are also caused by an abnormal gene on the X chromosome, but in these rare conditions, females with an abnormal gene are affected with the disease. Males with an abnormal gene are more severely affected than females, and many of these males do not survive. In the case of Danon disease, males can survive to adulthood, however, their medical problems and the typical need for heart transplantation likely limits their ability to have children.

The function of the LAMP2 protein (made from the LAMP2 gene) is not well understood. It appears that the LAMP2 protein is important for the function of the cell’s lysosomes. Lysosomes, often compared to waste disposal plants, are small structures inside cells that are responsible for breaking down certain molecules and compounds in cells. When the lysosomes do not function properly, cellular products accumulate. One such product that may build-up is glycogen and, in some people, the diagnosis of Danon disease is suggested because of excess glycogen seen on a skeletal muscle biopsy. However, it is important to realize that excess glycogen is not always visible on a single muscle biopsy.

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Affected populations

At present, it is thought that Danon disease can affect all ethnic populations. The prevalence of Danon disease is unknown but may be rising due to increased detection from wider availability of LAMP2 gene testing. Histories of affected patients at birth are usually normal. As discussed, males are more severely affected in this X-linked dominant disease.

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Because Danon disease is rare and unfamiliar to most physicians, diagnosis is difficult and takes substantial time. The diagnosis is suggested based on a family history compatible with X-linked dominant inheritance and symptoms in affected relatives (cardiomyopathy, skeletal myopathy, intellectual disability, Wolff-Parkinson White, etc.). Skeletal muscle biopsy is done in some males to determine the cause of muscle weakness. If, while examining the biopsy materials, glycogen buildup and/or empty spaces appear in the cells of the muscle tissue (vacuolization), Danon disease must be considered. This also holds true for the analysis of a heart biopsy. A muscle biopsy that yields evidence of glycogen build-up and empty spaces in the muscle cells are key signs and indications that a diagnosis of Danon disease is a high probability.

It is important to recognize that, in early stages of Danon disease, and probably also in women, the muscle biopsy can be non-specific. Thus, a normal or non-specific muscle biopsy does not exclude Danon disease. If other features of Danon disease are present, a non-diagnostic muscle biopsy should not discourage more definitive genetic testing. Patients who appear to have Pompe disease (based on muscle biopsy for instance) but have normal acid maltase activity, should be evaluated for Danon disease. Unexplained hypertrophic cardiomyopathy in males is probably due to Danon disease in some people.

Antibodies to the LAMP-2 protein are available and tissue staining (of a muscle biopsy) for the absence of LAMP-2 protein is another potential, but not widely available, diagnostic approach. LAMP-2 antibody testing is likely to be normal in women with Danon disease and if done should be interpreted with caution due to the possibility of a false-negative result.

Genetic testing of the LAMP2 gene is currently the gold standard for diagnosis and is available in specialized genetics laboratories. Most genetic variants causing Danon disease predict reduced levels or even absence of the LAMP2 gene product, the LAMP-2 protein. Although the sensitivity of LAMP2 genetic testing is not known at this time, it is the best that is available. The noninvasive nature of DNA-based testing and the inclusion of LAMP2 gene testing in hypertrophic cardiomyopathy genetic diagnostic panels favor this method as the most common route to diagnosis.

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Standard Therapies

The treatment of Danon disease is directed toward the specific symptoms that are apparent in each individual. It requires a team that should include a primary care physician as well as several specialists, including a cardiologist, neurologist, ophthalmologist, geneticist, genetic counselor, rehabilitation physician, educational specialist, and physical therapist. Currently there is no specific therapy that is known to slow the underlying biological problems caused by LAMP-2 protein deficiency.

The severity of cardiomyopathy is the major prognostic factor. Imaging studies including echocardiography and cardiac magnetic resonance can assess heart function, extent of hypertrophy, and degree of cardiac fibrosis (formation of scar tissue on the heart). Medications for heart disease should be given when indicated by clinical signs and symptoms. The rapid progression of the cardiomyopathy in some males necessitates prompt consideration for heart transplantation. Early involvement of electrophysiology to study the electrical conduction system of the heart is warranted in patients with arrhythmias. Devices that continuously record the electrical impulses of the heart and can be worn for several days can be used to detect arrhythmias. For symptomatic arrhythmias, early implantation of a cardioverter-defibrillator may be appropriate. Cardiac ablation therapy, which is a technique utilized to destroy the abnormal focus in the heart generating the irregular rhythm, can also be performed. As the disease can progress rapidly in males, consideration for early defibrillator implantation and evaluation for cardiac transplantation are appropriate in males as cardiomyopathy progresses.

Assessment of muscle strength, especially the proximal muscles of the shoulder, neck, and legs, should be performed regularly. Physical therapy can be helpful in maintaining muscle strength and flexibility. Intellectual disability should be screened for in males and appropriate educational interventions applied as needed. Regular eye examinations, to track the development and progression of retinal disease, should be considered. Biological relatives who are at risk for Danon disease should be evaluated by a physician for early signs of disease. At a minimum, evaluation of such relatives should include a medical history, physical examination (attention to cardiac, neurological, and ocular exams), CPK testing, ECG and echocardiogram.

Genetic consultation and counseling are recommended for all patients and families so that inheritance and reproductive risks are clearly communicated.

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Clinical Trials and Studies

Future investigation should focus on the biochemical role of the LAMP2 gene in Danon disease. Information on its molecular function can provide insight on its pathogenesis and help initiate investigations to novel therapy. A gene therapy strategy that attempts to replace the abnormal LAMP2 gene variant has been developed and studied in a clinical trial in males (as of 2022).

Information on current clinical trials is posted on the Internet at www.clinicaltrials.gov. All studies receiving U.S. government funding, and some supported by private industry, are posted on this government web site.

For information about clinical trials being conducted at the NIH Clinical Center in Bethesda, MD, contact the NIH Patient Recruitment Office:
Toll-free: (800) 411-1222
TTY: (866) 411-1010
Email: prpl@cc.nih.gov

Some current clinical trials also are posted on the following page on the NORD website:

For information about clinical trials sponsored by private sources, contact:

For information about clinical trials conducted in Europe, contact:

Danon disease results from a missing protein, LAMP-2. Other diseases that result from insufficiency or lack of other proteins have been successfully treated with protein replacement therapies. This approach is theoretically possible in Danon disease but has not been developed to date. There is no evidence or rational to support a high protein diet to treat Danon disease and any protein replacement effort would have to involve the LAMP-2 protein.

A researcher in Colorado, Matthew Taylor, MD, PhD, has developed a registry of Danon disease patients and families to collect information that may advance the understanding of this disease and be helpful in the future development of treatments. He may be contacted at:

Matthew Taylor, MD, PhD
Adult Medical Genetics Program
Colorado Lysosomal Storage Disease Center
12700 East 19th Avenue, F442, Room 8022
Aurora, CO 80045
Email: matthew.taylor@cuanschutz.edu
Web site: www.danondisease.org
Phone: 303-724-1400

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Hirschhorn R, Reuser AJJ. Glycogen Storage Disease Type II: Lysosomal Glycogen Storage Diisease Without a-Glucosidase Deficiency (Danon Disease). In: Scriver CR, Beaudet AL, Sly WS, et al., eds. The Metabolic Molecular Basis of Inherited Disease. 8th ed. New York, NY: McGraw-Hill Companies; 2001:3410.

D’souza RS, Mestroni L, Taylor MRG. Danon disease for the cardiologist: case report and review of the literature. J Community Hosp Intern Med Perspect. 2017;7(2):107-114.

D’souza RS, Levandowski C, Slavov D, Graq SL, Allen LA, Adler E, Mestroni L, Taylor MR. Circ Heart Fail. 2014;7(5):843-9. PMID: 25228319 [PubMed – indexed for MEDLINE]

Boucek D, Jirikowic J, Taylor M. Natural history of Danon disease. Genet Med. 2011;13(6):563-8. PMID: 21415759 [PubMed – indexed for MEDLINE]

Stevens-Lapsley JE, Kramer LR, Balter JE, Jirikowic J, Boucek D, Taylor M. Functional performance and muscle strength phenotypes in men and women with Danon disease. Muscle Nerve. 2010;42(6):908-14. PMID: 21104865 [PubMed – indexed for MEDLINE]

Eskelinen EL. Roles of LAMP-1 and LAMP-2 in lysozyme biogenesis and autophagy. Mol Aspects Med. 2006;27:495-502.

Prall FR, Drack A, Taylor M, Ku L, et al. Ophthalmic manifestions of Danon disease. Ophthalmology. 2006;113:1010-13.

Fanin M, Nascimbeni AC, Fulizio L, Spinazzi M, Melacini P, Angelini C. Generalized lysosome-associated membrane protein-2 defect explains multisystem clinical involvement and allows leukocyte diagnostic screening in Danon disease. Am J Pathol. 2006;168:1309-20.

Echaniz-Laguna A, Mohr M, Epailly E, Nishino I, et al. Novel LAMP-2 gene mutation and successful treatment with heart transplantation in a large family with Danon disease. Muscle Nerve. 2006;33:393-97.

Yang Z, McMahaon CJ, Smith LR, Bersola J, et al. Danon disease as an underrecognized cause of hypertrophic cardiomyopathy in children. Circulation. 2005;112:1612-17.

Balmer C, Ballhausen D, Bosshard NU, Steinmann B, et al. Familial X-linked cardiomyopathy (Danon disease) : diagnostic confirmation by mutation analysis of the LAMP2 gene. Eur J Pediatr. 2005;164:509-14.

Sugie K, Noguchi S, Kozuka Y, Arikawa-Hirasawa E, et al. Autophagic vacuoles with sarcolemmal features delineate Danon disease and related myopathies. J Neuropathol Exp Neurol. 2005;64:513-22.

Charron P, Villard E, Sebillon P, Laforet P, et al. Danon’s disease as a cause of hypertrophic cardiomyopathy : a systematic survey. Heart. 2004;90:842-46.

Sugie K, Yamamoto A, Murayama K, Oh SJ, et al. Clinicopathological features of genetically confirmed Danon disease. Neurology. 2002;58 :1773-78.

Nishino I, Fu J, Tanji K, Yamada T, et al. Primary LAMP-2 deficiency causes X-linked vacuolar cardiomyopathy and myopathy (Danon disease). Nature. 2000;406 :906-10.

Online Mendelian Inheritance in Man (OMIM). The Johns Hopkins University. Danon Disease. Entry No: 300257. Last Edited10/15/2021. Available at: http://omim.org/entry/300257 Accessed Dec 8, 2022.

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