- Kishnani, Priya S;
- Dickson, Patricia I;
- Muldowney, Laurie;
- Lee, Jessica J;
- Rosenberg, Amy;
- Abichandani, Rekha;
- Bluestone, Jeffrey A;
- Burton, Barbara K;
- Dewey, Maureen;
- Freitas, Alexandra;
- Gavin, Derek;
- Griebel, Donna;
- Hogan, Melissa;
- Holland, Stephen;
- Tanpaiboon, Pranoot;
- Turka, Laurence A;
- Utz, Jeanine J;
- Wang, Yow-Ming;
- Whitley, Chester B;
- Kazi, Zoheb B;
- Pariser, Anne R
The US Food and Drug Administration (FDA) and National Organization for Rare Disease (NORD) convened a public workshop titled "Immune Responses to Enzyme Replacement Therapies: Role of Immune Tolerance Induction" to discuss the impact of anti-drug antibodies (ADAs) on efficacy and safety of enzyme replacement therapies (ERTs) intended to treat patients with lysosomal storage diseases (LSDs). Participants in the workshop included FDA staff, clinicians, scientists, patients, industry, and advocacy group representatives. The risks and benefits of implementing prophylactic immune tolerance induction (ITI) to reduce the potential clinical impact of antibody development were considered. Complications due to immune responses to ERT are being recognized with increasing experience and lengths of exposure to ERTs to treat several LSDs. Strategies to mitigate immune responses and to optimize therapies are needed. Discussions during the workshop resulted in the identification of knowledge gaps and future areas of research, as well as the following proposals from the participants: (1) systematic collection of longitudinal data on immunogenicity to better understand the impact of ADAs on long-term clinical outcomes; (2) development of disease-specific biomarkers and outcome measures to assess the effect of ADAs and ITI on efficacy and safety; (3) development of consistent approaches to ADA assays to allow comparisons of immunogenicity data across different products and disease groups, and to expedite reporting of results; (4) establishment of a system to widely share data on antibody titers following treatment with ERTs; (5) identification of components of the protein that are immunogenic so that triggers and components of the immune responses can be targeted in ITI; and (6) consideration of early ITI in patients who are at risk of developing clinically relevant ADA that have been demonstrated to worsen treatment outcomes.