Pompe disease is due to a deficiency in lysosomal α-1,4-glucosidase, also called acid maltase. Lysosomes function as recycling centers in the cell and normally degrade excess muscle glycogen into glucose for the energy-converting reactions of the glycolytic pathway. Pompe disease was described in 1932 by Dutch pathologist Johann Pompe, who recognized that lysosomes in the affected patient's accumulated large amounts of glycogen. However, Henri Hers—the same Belgian pathologist who described the symptoms of liver glycogen phosphorylase deficiency (Hers disease)—discovered in 1965 that Pompe disease was due to a lysosomal α-1,4-glucosidase deficiency.

Enzyme  deficiency	Disease name	Organ	Disease symptoms
Lysosomal α-1,4- glucosidase	Pompe	All organs	Heart failure in infantile form; muscle defects in juvenile form

Answer these questions: 
What protein/enzyme does the mutation effects?
Symptoms and, if you can, how are the symptoms connected to the mutation. Why does the mutation cause these symptoms?
prognosis
treatment options
Incidence. Are there populations where incidence is more prevalent?
Go to a literature and find one current reference that describes some aspect of research being done on the condition
and the significance of the research (current means in the last 5 years).

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The treatments for most of these glycogen storage diseases depend on the severity of the symptoms and are of only moderate success in many cases. In the case of Pompe disease, however, it is now possible to use enzyme replacement therapy to treat these patients, which involves weekly infusions with recombinant lysosomal a-1,4- glucosidase protein. Although infusion of this recombinant enzyme does not cure the disease, studies have shown that it can slow the progression of disease symptoms in patients with juvenile and adult-onset Pompe disease. Figure 14.47 shows muscle biopsies from a Pompe disease patient who had been treated weekly with recombinant lysosomal a-1,4- glucosidase protein for 1 year. In this particular case, the patient showed a remarkable decrease in the amount of accumulated glycogen. William Canfield, a glycobiologist, and John Crowley, a biotechnology entrepreneur, worked together at their start-up company Novazyme to develop a clinical protocol to treat Pompe disease using enzyme replacement therapy. Although an improved treatment for Pompe disease was later developed using a different preparation of a-1,4-glucosidase than that pioneered by Canfield and Crowley, the efforts of Canfield and Crowley demonstrated that protein-based drugs, also called biologics, could be used to treat human disease.

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Excess lysosomal glycogen is present before treatment Glycogen is reduced after treatment with a-1,4-glucosidase Figure 14.47 Enzyme replacement therapy using recombinant lysosomal a-1,4-glucosidase protein has been used successfully to treat Pompe disease. Muscle biopsies of a Pompe disease patient before and after 52 weeks of treatment are shown. The darkly stained material in the left panel is excess glycogen in lysosomal compartments, which was present prior to enzyme replacement therapy. REPRODUCED WITH PERMISSION OF THE AUTHOR. B. L. THURBERG ET AL. (2006). CHARACTERIZATION OF PRE- AND POST-TREATMENT PATHOLOGY AFTER ENZYME REPLACEMENT THERAPY FOR POMPE DISEASE. LABORATORY INVESTIGATION, 86, 1208-1220. DOI:10.1038/LABINVEST.3700484; PUBLISHED ONLINE 30 OCTOBE 2006.