Abstract
AbstractLafora disease is a fatal juvenile epilepsy, characterized by the malignant accumulation of aberrant glucan inclusions called Lafora Bodies (LBs). Cerebral delivery of protein-based therapeutics for the clearance of Lafora Bodies remain a unique challenge in the field. Recently, a humanized antigen-binding fragment (hFab) derived from a murine systemic lupus erythematosus DNA autoantibody (3E10) has been shown to mediate cell penetration and been proposed as a broadly applicable carrier to mediate cellular targeting and uptake. We report studies on cerebral delivery of VAL-0417, an antibody-enzyme fusion composed of the 3E10 hFab and human pancreatic α-amylase for the clearance of LBs in a mouse model of lafora disease. Herein, we report development of an enzyme-linked immunosorbant-based bioassay to detect VAL-0417 post treatment as a measure of delivery efficacy. We demonstrate the robust and sensitive detection of the fusion protein in multiple tissue types. Using our method, we measured biodistribution in different methods of delivery. We found intracerebroventricular administration provided the most robust delivery, while intrathecal administration only showed modest biodistribution. These data define critical steps in the translational pipeline of VAL-0417for the treatment of Lafora disease.
Publisher
Cold Spring Harbor Laboratory