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Literature DB >> 17217857

Acid alpha-glucosidase deficiency (Pompe disease).

Tokiko Fukuda¹, Ashley Roberts, Paul H Plotz, Nina Raben.

Abstract

The development and recent approval of recombinant acid alpha-glucosidase for enzyme replacement therapy have been major milestones in Pompe disease research. Acid alpha-glucosidase is the enzyme responsible for degradation of glycogen polymers to glucose in the acidic milieu of the lysosomes. Cardiac and skeletal muscles are the two major tissues affected by the accumulation of glycogen within the lysosomes. Both cardiomyopathy and skeletal muscle myopathy are observed in patients with complete enzyme deficiency; this form of the disease is fatal within the first year of life. Skeletal muscle myopathy eventually leading to respiratory insufficiency is the predominant manifestation of partial enzyme deficiency. The recombinant enzyme alglucosidase alfa is the first drug ever approved for this devastating disorder. This review discusses the benefits and the shortcomings of the new therapy.

Entities: Chemical Disease Species

Mesh：

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Year: 2007 PMID： 17217857 DOI： 10.1007/s11910-007-0024-4

Source DB: PubMed Journal: Curr Neurol Neurosci Rep ISSN： 1528-4042 Impact factor: 5.081

53 in total

1. Determination of acid alpha-glucosidase protein: evaluation as a screening marker for Pompe disease and other lysosomal storage disorders.

Authors: K Umapathysivam; A M Whittle; E Ranieri; C Bindloss; E M Ravenscroft; O P van Diggelen; J J Hopwood; P J Meikle
Journal: Clin Chem Date: 2000-09 Impact factor: 8.327

Review 2. Structure and function of the mannose 6-phosphate/insulinlike growth factor II receptors.

Authors: S Kornfeld
Journal: Annu Rev Biochem Date: 1992 Impact factor: 23.643

3. A retrospective, multinational, multicenter study on the natural history of infantile-onset Pompe disease.

Authors: Priya S Kishnani; Wuh-Liang Hwu; Hanna Mandel; Marc Nicolino; Florence Yong; Deyanira Corzo
Journal: J Pediatr Date: 2006-05 Impact factor: 4.406

4. Age-related morphological changes in skeletal muscle cells of acid alpha-glucosidase knockout mice.

Authors: Reinout P Hesselink; Gert Schaart; Anton J M Wagenmakers; Maarten R Drost; Ger J van der Vusse
Journal: Muscle Nerve Date: 2006-04 Impact factor: 3.217

5. Carrier frequency for glycogen storage disease type II in New York and estimates of affected individuals born with the disease.

Authors: F Martiniuk; A Chen; A Mack; E Arvanitopoulos; Y Chen; W N Rom; W J Codd; B Hanna; P Alcabes; N Raben; P Plotz
Journal: Am J Med Genet Date: 1998-08-27

Review 6. The natural course of non-classic Pompe's disease; a review of 225 published cases.

Authors: Léon P F Winkel; Marloes L C Hagemans; Pieter A van Doorn; M Christa B Loonen; Wim J C Hop; Arnold J J Reuser; Ans T van der Ploeg
Journal: J Neurol Date: 2005-08 Impact factor: 4.849

7. Diagnosis of Pompe's disease using leukocyte preparations. Kinetic and immunological studies of 1,4-alpha-glucosidase in human fetal and adult tissues and cultured cells.

Authors: Y S Shin; W Endres; J Unterreithmeier; M Rieth; J Schaub
Journal: Clin Chim Acta Date: 1985-05-15 Impact factor: 3.786

Review 8. Pompe disease in infants and children.

Authors: Priya Sunil Kishnani; R Rodney Howell
Journal: J Pediatr Date: 2004-05 Impact factor: 4.406

9. Enzyme replacement therapy in late-onset Pompe's disease: a three-year follow-up.

Authors: Léon P F Winkel; Johanna M P Van den Hout; Joep H J Kamphoven; Janus A M Disseldorp; Maaike Remmerswaal; Willem F M Arts; M Christa B Loonen; Arnold G Vulto; Pieter A Van Doorn; Gerard De Jong; Wim Hop; G Peter A Smit; Stuart K Shapira; Marijke A Boer; Otto P van Diggelen; Arnold J J Reuser; Ans T Van der Ploeg
Journal: Ann Neurol Date: 2004-04 Impact factor: 10.422

10. Comparison of maltose and acarbose as inhibitors of maltase-glucoamylase activity in assaying acid alpha-glucosidase activity in dried blood spots for the diagnosis of infantile Pompe disease.

Authors: Haoyue Zhang; Helmut Kallwass; Sarah P Young; Cortney Carr; Jian Dai; Priya S Kishnani; David S Millington; Joan Keutzer; Yuan-Tsong Chen; Deeksha Bali
Journal: Genet Med Date: 2006-05 Impact factor: 8.822

20 in total

1. Gel-mediated delivery of AAV1 vectors corrects ventilatory function in Pompe mice with established disease.

Authors: Cathryn S Mah; Darin J Falk; Sean A Germain; Jeffry S Kelley; Melissa A Lewis; Denise A Cloutier; Lara R DeRuisseau; Thomas J Conlon; Kerry O Cresawn; Thomas J Fraites; Martha Campbell-Thompson; David D Fuller; Barry J Byrne
Journal: Mol Ther Date: 2010-01-26 Impact factor: 11.454

Review 2. Stem cells for skeletal muscle repair.

Authors: Jennifer L Shadrach; Amy J Wagers
Journal: Philos Trans R Soc Lond B Biol Sci Date: 2011-08-12 Impact factor: 6.237

Review 3. Engineered skeletal muscles for disease modeling and drug discovery.

Authors: Jason Wang; Alastair Khodabukus; Lingjun Rao; Keith Vandusen; Nadia Abutaleb; Nenad Bursac
Journal: Biomaterials Date: 2019-08-08 Impact factor: 12.479

Review 4. Autophagy in the cellular energetic balance.

Authors: Rajat Singh; Ana Maria Cuervo
Journal: Cell Metab Date: 2011-05-04 Impact factor: 27.287

5. Suppression of autophagy in skeletal muscle uncovers the accumulation of ubiquitinated proteins and their potential role in muscle damage in Pompe disease.

Authors: Nina Raben; Victoria Hill; Lauren Shea; Shoichi Takikita; Rebecca Baum; Noboru Mizushima; Evelyn Ralston; Paul Plotz
Journal: Hum Mol Genet Date: 2008-09-09 Impact factor: 6.150

10. Enhanced delivery of α-glucosidase for Pompe disease by ICAM-1-targeted nanocarriers: comparative performance of a strategy for three distinct lysosomal storage disorders.

Authors: Janet Hsu; Laura Northrup; Tridib Bhowmick; Silvia Muro
Journal: Nanomedicine Date: 2011-09-09 Impact factor: 5.307