Abstract
Pompe disease is a rare inherited disorder of lysosomal glycogen metabolism due to acid α-glucosidase (GAA) deficiency. Enzyme replacement therapy (ERT) using alglucosidase alfa, a recombinant human GAA (rhGAA), is the only approved treatment for Pompe disease. Although alglucosidase alfa has provided clinical benefits, its poor targeting to key disease-relevant skeletal muscles results in suboptimal efficacy. We are developing an rhGAA, ATB200 (Amicus proprietary rhGAA), with high levels of mannose-6-phosphate that are required for efficient cellular uptake and lysosomal trafficking. When administered in combination with the pharmacological chaperone AT2221 (miglustat), which stabilizes the enzyme and improves its pharmacokinetic properties, ATB200/AT2221 was substantially more potent than alglucosidase alfa in a mouse model of Pompe disease. The new investigational therapy is more effective at reversing the primary abnormality — intralysosomal glycogen accumulation — in multiple muscles. Furthermore, unlike the current standard of care, ATB200/AT2221 dramatically reduces autophagic buildup, a major secondary defect in the diseased muscles. The reversal of lysosomal and autophagic pathologies leads to improved muscle function. These data demonstrate the superiority of ATB200/AT2221 over the currently approved ERT in the murine model.
Authors
Su Xu, Yi Lun, Michelle Frascella, Anadina Garcia, Rebecca Soska, Anju Nair, Abdul S. Ponery, Adriane Schilling, Jessie Feng, Steven Tuske, Maria Cecilia Della Valle, José A. Martina, Evelyn Ralston, Russell Gotschall, Kenneth J. Valenzano, Rosa Puertollano, Hung V. Do, Nina Raben, Richie Khanna
Pharmacokinetics of ATB200 alone or in combination with AT2221 across several species
