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Literature DB >> 30711607

HLA- and genotype-based risk assessment model to identify infantile onset pompe disease patients at high-risk of developing significant anti-drug antibodies (ADA).

A S De Groot¹, Z B Kazi², R F Martin³, F E Terry³, A K Desai², W D Martin³, P S Kishnani⁴.

Abstract

In Pompe disease, anti-drug antibodies (ADA) to acid alpha-glucosidase (GAA) enzyme replacement therapy contribute to early mortality. Assessing individual risk for ADA development is notoriously difficult in (CRIM-positive) patients expressing endogenous GAA. The individualized T cell epitope measure (iTEM) scoring method predicts patient-specific risk of developing ADA against therapeutic recombinant human GAA (rhGAA) using individualized HLA-binding predictions and GAA genotype. CRIM-negative patients were six times more likely to develop high ADA titers than CRIM-positive patients in this retrospective study, whereas patients with high GAA-iTEM scores were 50 times more likely to develop high ADA titers than patients with low GAA-iTEM scores. This approach identifies high-risk IOPD patients requiring immune tolerance induction therapy to prevent significant ADA response to rhGAA leading to a poor clinical outcome and can assess ADA risk in patients receiving replacement therapy for other enzyme or blood factor deficiency disorders.

Entities: Chemical Disease Gene Species

Keywords: ADA; Enzyme replacement therapy; Immunogenicity; Immunoinformatics; Pompe Disease

Mesh：

Substances：

Year: 2019 PMID： 30711607 PMCID： PMC6554735 DOI： 10.1016/j.clim.2019.01.009

Source DB: PubMed Journal: Clin Immunol ISSN： 1521-6616 Impact factor: 3.969

20 in total

1. Coupling sensitive in vitro and in silico techniques to assess cross-reactive CD4(+) T cells against the swine-origin H1N1 influenza virus.

Authors: Brian C Schanen; Anne S De Groot; L Moise; Matt Ardito; Elizabeth McClaine; William Martin; Vaughan Wittman; William L Warren; Donald R Drake
Journal: Vaccine Date: 2011-02-22 Impact factor: 3.641

2. The impact of antibodies in late-onset Pompe disease: a case series and literature review.

Authors: Trusha T Patel; Suhrad G Banugaria; Laura E Case; Stephan Wenninger; Benedikt Schoser; Priya S Kishnani
Journal: Mol Genet Metab Date: 2012-05-09 Impact factor: 4.797

3. Chinese hamster ovary cell-derived recombinant human acid alpha-glucosidase in infantile-onset Pompe disease.

Authors: Priya Sunil Kishnani; Marc Nicolino; Thomas Voit; R Curtis Rogers; Anne Chun-Hui Tsai; John Waterson; Gail E Herman; Andreas Amalfitano; Beth L Thurberg; Susan Richards; Mark Davison; Deyanira Corzo; Y T Chen
Journal: J Pediatr Date: 2006-07 Impact factor: 4.406

4. Prediction of well-conserved HIV-1 ligands using a matrix-based algorithm, EpiMatrix.

Authors: J R Schafer; B M Jesdale; J A George; N M Kouttab; A S De Groot
Journal: Vaccine Date: 1998-11 Impact factor: 3.641

5. A method for individualizing the prediction of immunogenicity of protein vaccines and biologic therapeutics: individualized T cell epitope measure (iTEM).

Authors: Tobias Cohen; Leonard Moise; Matthew Ardito; William Martin; Anne S De Groot
Journal: J Biomed Biotechnol Date: 2010-07-18

6. Algorithm for the early diagnosis and treatment of patients with cross reactive immunologic material-negative classic infantile pompe disease: a step towards improving the efficacy of ERT.

Authors: Suhrad G Banugaria; Sean N Prater; Trusha T Patel; Stephanie M Dearmey; Christie Milleson; Kathryn B Sheets; Deeksha S Bali; Catherine W Rehder; Julian A J Raiman; Raymond A Wang; Francois Labarthe; Joel Charrow; Paul Harmatz; Pranesh Chakraborty; Amy S Rosenberg; Priya S Kishnani
Journal: PLoS One Date: 2013-06-25 Impact factor: 3.240

7. CRIM-negative infantile Pompe disease: characterization of immune responses in patients treated with ERT monotherapy.

Authors: Kathryn L Berrier; Zoheb B Kazi; Sean N Prater; Deeksha S Bali; Jennifer Goldstein; Mihaela C Stefanescu; Catherine W Rehder; Eleanor G Botha; Carolyn Ellaway; Kaustuv Bhattacharya; Anna Tylki-Szymanska; Nesrin Karabul; Amy S Rosenberg; Priya S Kishnani
Journal: Genet Med Date: 2015-03-05 Impact factor: 8.822

8. The two-faced T cell epitope: examining the host-microbe interface with JanusMatrix.

Authors: Leonard Moise; Andres H Gutierrez; Chris Bailey-Kellogg; Frances Terry; Qibin Leng; Karim M Abdel Hady; Nathan C VerBerkmoes; Marcelo B Sztein; Phyllis T Losikoff; William D Martin; Alan L Rothman; Anne S De Groot
Journal: Hum Vaccin Immunother Date: 2013-04-12 Impact factor: 3.452

9. Clinical outcomes after long-term treatment with alglucosidase alfa in infants and children with advanced Pompe disease.

Authors: Marc Nicolino; Barry Byrne; J Edmund Wraith; Nancy Leslie; Hanna Mandel; David R Freyer; Georgianne L Arnold; Eniko K Pivnick; C J Ottinger; Peter H Robinson; John-Charles A Loo; Martin Smitka; Philip Jardine; Luciano Tatò; Brigitte Chabrol; Shawn McCandless; Shigemi Kimura; L Mehta; Deeksha Bali; Alison Skrinar; Claire Morgan; Lakshmi Rangachari; Deya Corzo; Priya S Kishnani
Journal: Genet Med Date: 2009-03 Impact factor: 8.822

10. Bortezomib in the rapid reduction of high sustained antibody titers in disorders treated with therapeutic protein: lessons learned from Pompe disease.

Authors: Suhrad G Banugaria; Sean N Prater; Judeth K McGann; Jonathan D Feldman; Jesse A Tannenbaum; Carrie Bailey; Renuka Gera; Robert L Conway; David Viskochil; Joyce A Kobori; Amy S Rosenberg; Priya S Kishnani
Journal: Genet Med Date: 2012-10-11 Impact factor: 8.822

7 in total

Review 1. Immunological challenges and approaches to immunomodulation in Pompe disease: a literature review.

Authors: Ankit K Desai; Cindy Li; Amy S Rosenberg; Priya S Kishnani
Journal: Ann Transl Med Date: 2019-07

Review 2. Immunogenicity of Monoclonal Antibodies and the Potential Use of HLA Haplotypes to Predict Vulnerable Patients.

Authors: Romy Mosch; Henk-Jan Guchelaar
Journal: Front Immunol Date: 2022-06-17 Impact factor: 8.786

3. Characterization of immune response in Cross-Reactive Immunological Material (CRIM)-positive infantile Pompe disease patients treated with enzyme replacement therapy.

Authors: Ankit K Desai; Zoheb B Kazi; Deeksha S Bali; Priya S Kishnani
Journal: Mol Genet Metab Rep Date: 2019-05-10

4. Second Tier Molecular Genetic Testing in Newborn Screening for Pompe Disease: Landscape and Challenges.

Authors: Laurie D Smith; Matthew N Bainbridge; Richard B Parad; Arindam Bhattacharjee
Journal: Int J Neonatal Screen Date: 2020-04-05

Review 5. Immune responses to alglucosidase in infantile Pompe disease: recommendations from an Italian pediatric expert panel.

Authors: Vincenza Gragnaniello; Federica Deodato; Serena Gasperini; Maria Alice Donati; Clementina Canessa; Simona Fecarotta; Antonia Pascarella; Giuseppe Spadaro; Daniela Concolino; Alberto Burlina; Giancarlo Parenti; Pietro Strisciuglio; Agata Fiumara; Roberto Della Casa
Journal: Ital J Pediatr Date: 2022-03-05 Impact factor: 2.638

6. Immune Tolerance-Adjusted Personalized Immunogenicity Prediction for Pompe Disease.

Authors: Anne S De Groot; Ankit K Desai; Sandra Lelias; S M Shahjahan Miah; Frances E Terry; Sundos Khan; Cindy Li; John S Yi; Matt Ardito; William D Martin; Priya S Kishnani
Journal: Front Immunol Date: 2021-06-16 Impact factor: 7.561

7. Predicting the Development of Anti-Drug Antibodies against Recombinant alpha-Galactosidase A in Male Patients with Classical Fabry Disease.

Authors: Sanne J van der Veen; Wytze J Vlietstra; Laura van Dussen; André B P van Kuilenburg; Marcel G W Dijkgraaf; Malte Lenders; Eva Brand; Christoph Wanner; Derralynn Hughes; Perry M Elliott; Carla E M Hollak; Mirjam Langeveld
Journal: Int J Mol Sci Date: 2020-08-12 Impact factor: 5.923

7 in total