Cytosine base editing enables quadruple-edited allogeneic CART cells for T-ALL

Caroline Diorio; Ryan Murray; Mark Naniong; Luis Barrera; Adam J. Camblin; John Chukinas; Lindsey Coholan; Aaron Edwards; Tori J. Fuller; Claudia Gonzales; Stephan A. Grupp; Alden Ladd; Melissa Le; Angelica Messana; Faith Musenge; Haley Newman; Yeh‐Chuin Poh; Henry Poulin; Theresa Ryan; Rawan Shraim; Sarah K. Tasian; Tiffaney L. Vincent; Lauren Young; Yingying Zhang; Giuseppe Ciaramella; Jason M. Gehrke; David T. Teachey

doi:10.1182/blood.2022015825

Cytosine base editing enables quadruple-edited allogeneic CART cells for T-ALL

Caroline Diorio(Children's Hospital of Philadelphia), Ryan Murray(Beam Therapeutics (United States)), Mark Naniong(Beam Therapeutics (United States)), Luis Barrera(Beam Therapeutics (United States)), Adam J. Camblin(Beam Therapeutics (United States)), John Chukinas(Children's Hospital of Philadelphia), Lindsey Coholan(Beam Therapeutics (United States)), Aaron Edwards(Beam Therapeutics (United States)), Tori J. Fuller(Children's Hospital of Philadelphia), Claudia Gonzales(Beam Therapeutics (United States)), Stephan A. Grupp(Children's Hospital of Philadelphia), Alden Ladd(Beam Therapeutics (United States)), Melissa Le(Beam Therapeutics (United States)), Angelica Messana(Beam Therapeutics (United States)), Faith Musenge(Beam Therapeutics (United States)), Haley Newman(Children's Hospital of Philadelphia), Yeh‐Chuin Poh(Beam Therapeutics (United States)), Henry Poulin(Beam Therapeutics (United States)), Theresa Ryan(Children's Hospital of Philadelphia), Rawan Shraim(Children's Hospital of Philadelphia), Sarah K. Tasian(Children's Hospital of Philadelphia), Tiffaney L. Vincent(Children's Hospital of Philadelphia), Lauren Young(Beam Therapeutics (United States)), Yingying Zhang(Beam Therapeutics (United States)), Giuseppe Ciaramella(Beam Therapeutics (United States)), Jason M. Gehrke(Beam Therapeutics (United States)), David T. Teachey(Children's Hospital of Philadelphia)

Blood

May 13, 2022

10.1182/blood.2022015825

Cited by 128Open Access

Full Text

Abstract

Allogeneic chimeric antigen receptor T-cell (CART) therapies require multiple gene edits to be clinically tractable. Most allogeneic CARTs have been created using gene editing techniques that induce DNA double-stranded breaks (DSBs), resulting in unintended on-target editing outcomes with potentially unforeseen consequences. Cytosine base editors (CBEs) install C•G to T•A point mutations in T cells, with between 90% and 99% efficiency to silence gene expression without creating DSBs, greatly reducing or eliminating undesired editing outcomes following multiplexed editing as compared with clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9). Using CBE, we developed 7CAR8, a CD7-directed allogeneic CART created using 4 simultaneous base edits. We show that CBE, unlike CRISPR-Cas9, does not impact T-cell proliferation, lead to aberrant DNA damage response pathway activation, or result in karyotypic abnormalities following multiplexed editing. We demonstrate 7CAR8 to be highly efficacious against T-cell acute lymphoblastic leukemia (T-ALL) using multiple in vitro and in vivo models. Thus, CBE is a promising technology for applications requiring multiplexed gene editing and can be used to manufacture quadruple-edited 7CAR8 cells, with high potential for clinical translation for relapsed and refractory T-ALL.

Related Papers

No related papers found

Powered by citation graph analysis