Nature Communications (Feb 2024)
Structure-guided engineering of immunotherapies targeting TRBC1 and TRBC2 in T cell malignancies
- Mathieu Ferrari,
- Matteo Righi,
- Vania Baldan,
- Patrycja Wawrzyniecka,
- Anna Bulek,
- Alexander Kinna,
- Biao Ma,
- Reyisa Bughda,
- Zulaikha Akbar,
- Saket Srivastava,
- Isaac Gannon,
- Mathew Robson,
- James Sillibourne,
- Ram Jha,
- Mohamed El-Kholy,
- Oliver Muhammad Amin,
- Evangelia Kokalaki,
- Mohammed Amin Banani,
- Rehan Hussain,
- William Day,
- Wen Chean Lim,
- Priyanka Ghongane,
- Jade R. Hopkins,
- Dennis Jungherz,
- Marco Herling,
- Martin Welin,
- Sachin Surade,
- Michael Dyson,
- John McCafferty,
- Derek Logan,
- Shaun Cordoba,
- Simon Thomas,
- Andrew Sewell,
- Paul Maciocia,
- Shimobi Onuoha,
- Martin Pule
Affiliations
- Mathieu Ferrari
- Autolus Therapeutics
- Matteo Righi
- Autolus Therapeutics
- Vania Baldan
- Autolus Therapeutics
- Patrycja Wawrzyniecka
- Cardiff University School of Medicine; Heath Park
- Anna Bulek
- Autolus Therapeutics
- Alexander Kinna
- Autolus Therapeutics
- Biao Ma
- Autolus Therapeutics
- Reyisa Bughda
- Autolus Therapeutics
- Zulaikha Akbar
- Autolus Therapeutics
- Saket Srivastava
- Autolus Therapeutics
- Isaac Gannon
- Autolus Therapeutics
- Mathew Robson
- Autolus Therapeutics
- James Sillibourne
- Autolus Therapeutics
- Ram Jha
- Autolus Therapeutics
- Mohamed El-Kholy
- Autolus Therapeutics
- Oliver Muhammad Amin
- Autolus Therapeutics
- Evangelia Kokalaki
- Autolus Therapeutics
- Mohammed Amin Banani
- Autolus Therapeutics
- Rehan Hussain
- Autolus Therapeutics
- William Day
- Autolus Therapeutics
- Wen Chean Lim
- Autolus Therapeutics
- Priyanka Ghongane
- Autolus Therapeutics
- Jade R. Hopkins
- Cardiff University School of Medicine; Heath Park
- Dennis Jungherz
- Department of Hematology, Cell Therapy, Hemostaseology, and Infectious Diseases, University of Leipzig Medical Centre
- Marco Herling
- Department of Hematology, Cell Therapy, Hemostaseology, and Infectious Diseases, University of Leipzig Medical Centre
- Martin Welin
- Saromics Inc.
- Sachin Surade
- Iontas Ltd., Pampisford
- Michael Dyson
- Iontas Ltd., Pampisford
- John McCafferty
- Iontas Ltd., Pampisford
- Derek Logan
- Saromics Inc.
- Shaun Cordoba
- Autolus Therapeutics
- Simon Thomas
- Autolus Therapeutics
- Andrew Sewell
- Cardiff University School of Medicine; Heath Park
- Paul Maciocia
- Cancer Institute; University College London
- Shimobi Onuoha
- Autolus Therapeutics
- Martin Pule
- Autolus Therapeutics
- DOI
- https://doi.org/10.1038/s41467-024-45854-3
- Journal volume & issue
-
Vol. 15,
no. 1
pp. 1 – 16
Abstract
Abstract Peripheral T cell lymphomas are typically aggressive with a poor prognosis. Unlike other hematologic malignancies, the lack of target antigens to discriminate healthy from malignant cells limits the efficacy of immunotherapeutic approaches. The T cell receptor expresses one of two highly homologous chains [T cell receptor β-chain constant (TRBC) domains 1 and 2] in a mutually exclusive manner, making it a promising target. Here we demonstrate specificity redirection by rational design using structure-guided computational biology to generate a TRBC2-specific antibody (KFN), complementing the antibody previously described by our laboratory with unique TRBC1 specificity (Jovi-1) in targeting broader spectrum of T cell malignancies clonally expressing either of the two chains. This permits generation of paired reagents (chimeric antigen receptor-T cells) specific for TRBC1 and TRBC2, with preclinical evidence to support their efficacy in T cell malignancies.
