CD7-deleted hematopoietic stem cells can restore immunity after CAR T cell therapy
Miriam Y. Kim, Matthew L. Cooper, Miriam T. Jacobs, Julie K. Ritchey, Julia Hollaway, Todd A. Fehniger, John F. DiPersio
Miriam Y. Kim, Matthew L. Cooper, Miriam T. Jacobs, Julie K. Ritchey, Julia Hollaway, Todd A. Fehniger, John F. DiPersio
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Research Article Immunology Oncology

CD7-deleted hematopoietic stem cells can restore immunity after CAR T cell therapy

Abstract

Targeting T cell malignancies with universal CD7-targeting chimeric antigen receptor T cells (UCART7) can lead to profound immune deficiency due to loss of normal T and NK cells. While a small population of endogenous CD7– T cells exists, these cells are unlikely to be able to repopulate the entire immune repertoire after UCART7 treatment, as they are limited in number and proliferative capacity. To rescue T and NK cells after UCART7, we created hematopoietic stem cells genetically deleted for CD7 (CD7-KO HSCs). CD7-KO HSCs were able to engraft immunodeficient mice and differentiate into T and NK cells lacking CD7 expression. CD7-KO T and NK cells could perform effector functions as robustly as control T and NK cells. Furthermore, CD7-KO T cells were phenotypically and functionally distinct from endogenous CD7– T cells, indicating that CD7-KO T cells can supplement immune functions lacking in CD7– T cells. Mice engrafted with CD7-KO HSCs maintained T and NK cell numbers after UCART7 treatment, while these were significantly decreased in control mice. These studies support the development of CD7-KO HSCs to augment host immunity in patients with T cell malignancies after UCART7 treatment.

Authors

Miriam Y. Kim, Matthew L. Cooper, Miriam T. Jacobs, Julie K. Ritchey, Julia Hollaway, Todd A. Fehniger, John F. DiPersio

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Figure 5

T cells and NK cells are better preserved in mice with CD7-KO HSCs after UCART7 treatment.

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T cells and NK cells are better preserved in mice with CD7-KO HSCs after...
(A) Schema: NSGS mice engrafted with either control or CD7-KO HSCs were treated with UCART7 after 15 weeks of engraftment (n = 14/group). (B) Gating strategy to identify the different T cell populations. Within the human CD45+ cell population, HSC-derived T cells express CD3, while UCART7 lacks CD3 but can be identified by expression of human CD34, a selection marker inserted with the CAR. (C) Peripheral blood CD7+ expression and numbers of T cells in control and CD7-KO HSC–engrafted mice. (D) Representative flow cytometry plots showing CD7 expression in T cells before and after UCART7 treatment. (E) CD7 expression on peripheral blood NK cells, and numbers before and after UCART7 treatment. (F) Peripheral blood UCART7 numbers 1 week after injection. Statistical analyses were performed using paired 2-tailed Student’s t test (C) or unpaired 2-tailed Student’s t test (E and F). *P < 0.05, **P < 0.01.