Iduronate-2-sulfatase transport vehicle rescues behavioral and skeletal phenotypes in a mouse model of Hunter syndrome
Annie Arguello, René Meisner, Elliot R. Thomsen, Hoang N. Nguyen, Ritesh Ravi, Jeffrey Simms, Iris Lo, Jessica Speckart, Julia Holtzman, Thomas M. Gill, Darren Chan, Yuhsiang Cheng, Chi-Lu Chiu, Jason C. Dugas, Meng Fang, Isabel A. Lopez, Hilda Solanoy, Buyankhishig Tsogtbaatar, Yuda Zhu, Akhil Bhalla, Kirk R. Henne, Anastasia G. Henry, Anthony Delucchi, Simona Costanzo, Jeffrey M. Harris, Dolores Diaz, Kimberly Scearce-Levie, Pascal E. Sanchez
Annie Arguello, René Meisner, Elliot R. Thomsen, Hoang N. Nguyen, Ritesh Ravi, Jeffrey Simms, Iris Lo, Jessica Speckart, Julia Holtzman, Thomas M. Gill, Darren Chan, Yuhsiang Cheng, Chi-Lu Chiu, Jason C. Dugas, Meng Fang, Isabel A. Lopez, Hilda Solanoy, Buyankhishig Tsogtbaatar, Yuda Zhu, Akhil Bhalla, Kirk R. Henne, Anastasia G. Henry, Anthony Delucchi, Simona Costanzo, Jeffrey M. Harris, Dolores Diaz, Kimberly Scearce-Levie, Pascal E. Sanchez
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Research Article Neuroscience Therapeutics

Iduronate-2-sulfatase transport vehicle rescues behavioral and skeletal phenotypes in a mouse model of Hunter syndrome

Abstract

Mucopolysaccharidosis type II (MPS II) is a lysosomal storage disorder caused by deficiency of the iduronate-2-sulfatase (IDS) enzyme, resulting in cellular accumulation of glycosaminoglycans (GAGs) throughout the body. Treatment of MPS II remains a considerable challenge as current enzyme replacement therapies do not adequately control many aspects of the disease, including skeletal and neurological manifestations. We developed an IDS transport vehicle (ETV:IDS) that is engineered to bind to the transferrin receptor; this design facilitates receptor-mediated transcytosis of IDS across the blood-brain barrier and improves its distribution into the brain while maintaining distribution to peripheral tissues. Here we show that chronic systemic administration of ETV:IDS in a mouse model of MPS II reduced levels of peripheral and central nervous system GAGs, microgliosis, and neurofilament light chain, a biomarker of neuronal injury. Additionally, ETV:IDS rescued auricular and skeletal abnormalities when introduced in adult MPS II mice. These effects were accompanied by improvements in several neurobehavioral domains, including motor skills, sensorimotor gating, and learning and memory. Together, these results highlight the therapeutic potential of ETV:IDS for treating peripheral and central abnormalities in MPS II. DNL310, an investigational ETV:IDS molecule, is currently in clinical trials as a potential treatment for patients with MPS II.

Authors

Annie Arguello, René Meisner, Elliot R. Thomsen, Hoang N. Nguyen, Ritesh Ravi, Jeffrey Simms, Iris Lo, Jessica Speckart, Julia Holtzman, Thomas M. Gill, Darren Chan, Yuhsiang Cheng, Chi-Lu Chiu, Jason C. Dugas, Meng Fang, Isabel A. Lopez, Hilda Solanoy, Buyankhishig Tsogtbaatar, Yuda Zhu, Akhil Bhalla, Kirk R. Henne, Anastasia G. Henry, Anthony Delucchi, Simona Costanzo, Jeffrey M. Harris, Dolores Diaz, Kimberly Scearce-Levie, Pascal E. Sanchez

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Figure 3

ETV:IDS improves auricular abnormalities and the facial morphology of Ids-KO TfRmu/hu mice.

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ETV:IDS improves auricular abnormalities and the facial morphology of Id...
(A) Representative hematoxylin and eosin photomicrographs of the ear canal from vehicle-treated TfRmu/hu (n = 3), vehicle-treated Ids-KO TfRmu/hu mice (n = 3), and ETV:IDS-treated Ids-KO TfRmu/hu mice (n = 3). Scale bar: 400 μm. The tympanic bulla (TB) in the examined Ids-KO TfRmu/hu mice had effusion and/or chronic otitis media as evidenced by the presence of cellular debris and exudate (arrowhead) and expansion of the tympanic membrane (TM) by inflammatory cell infiltrates (higher magnification below; scale bar: 40 μm). Higher magnification of the lining of the TB (below; scale bar: 100 μm) showed the submucosa (SM) of the TB epithelium (EP) was expanded by edema or dense connective tissue (fibrosis). Fibrous polyps were also evident (arrowheads); EAM, external auditory canal; BM, bone marrow cells. (B) Representative images of the severity of an animal’s shortened, broadened snout (arrowhead) and each facial score. (C) Graphs display the number of mice blindly scored within each category; vehicle-treated TfRmu/hu (n = 22), vehicle-treated Ids-KO TfRmu/hu mice (n = 20), and ETV:IDS-treated Ids-KO TfRmu/hu mice (n = 19): Fisher’s exact test; ****P < 0.0001.