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Team uses iPSCs to create ‘universal’ CAR T cells

Image by James Thomson
Induced pluripotent stem cells

CHICAGO—Researchers have used induced pluripotent stem cells (iPSCs) to create a “universal” chimeric antigen receptor (CAR) T-cell therapy known as FT819.

The team says FT819 has the potential to be mass-produced, stored, and made readily available for cancer patients.

In in vitro experiments, FT819 demonstrated activity against leukemia and lymphoma.

These results were presented at the AACR Annual Meeting 2018 (abstract LB-108).

The research was conducted by employees of Fate Therapeutics, Inc., the company developing FT819, as well as Memorial Sloan-Kettering Cancer Center.

About FT819

FT819 is produced from a master iPSC line generated using T cells from healthy donors.

“A master iPSC line has unlimited capacity to self-renew and can be banked and renewably used,” said Bob Valamehr, PhD, vice-president of cancer immunotherapy at Fate Therapeutics, Inc.

“We started with cells from a healthy donor rather than the patient, created a master cell line, and used the master cell line to produce large quantities of ‘universal’ CAR19 T cells that are not patient-restricted. These first-of-kind CAR19 T cells, called FT819, can be packaged, stored, and made readily available for treatment of a large number of patients.”

FT819 has 2 targeting receptors—a CAR targeting CD19-positive tumor cells and a CD16 Fc receptor that can engage other therapies (such as tumor antigen-targeting monoclonal antibodies) to overcome antigen escape.

The master iPSC line used for the production of FT819 is engineered in a one-time event to insert a CD19 CAR into the T-cell receptor α constant (TRAC) locus. This is done to eliminate T-cell receptor expression and reduce the likelihood of graft-versus-host disease.

Previous research showed that targeting a CAR to the TRAC locus results in uniform CAR expression and enhances T-cell potency. In fact, TRAC-CAR T cells outperformed conventionally generated CAR T cells by preventing T-cell exhaustion in a mouse model of acute lymphoblastic leukemia.

In vitro experiments

With the current work, the researchers found that FT819 displayed an efficient cytotoxic T-cell response when challenged with CD19-positive tumor cells. FT819 produced cytokines (IFN-gamma, TNF-alpha, and IL-2) and mediators of cell death (CD107a/b, perforin, and granzyme B).

FT819 was also target-specific, attacking only CD19-positive tumor cells and sparing CD19-negative tumor cells in experiments with Raji (Burkitt lymphoma) and Nalm-6 (B-cell acute lymphoblastic leukemia) cell lines.

The researchers said they observed consistent antigen-specific cytotoxicity against Nalm-6 cells with FT819 but variability in antigen-specific cytotoxicity with conventional CAR T cells.

In addition, when combined with rituximab, FT819 elicited antibody-dependent cell-mediated cytotoxicity against CD19-negative, CD20-positive tumor cells.

“Through the development of FT819, we believe there is significant opportunity to lower the cost of CAR T-cell manufacture, enhance the quality of the product, and create a readily available supply of a more efficacious product to reach more patients in need,” Dr Valamehr said.

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Image by James Thomson
Induced pluripotent stem cells

CHICAGO—Researchers have used induced pluripotent stem cells (iPSCs) to create a “universal” chimeric antigen receptor (CAR) T-cell therapy known as FT819.

The team says FT819 has the potential to be mass-produced, stored, and made readily available for cancer patients.

In in vitro experiments, FT819 demonstrated activity against leukemia and lymphoma.

These results were presented at the AACR Annual Meeting 2018 (abstract LB-108).

The research was conducted by employees of Fate Therapeutics, Inc., the company developing FT819, as well as Memorial Sloan-Kettering Cancer Center.

About FT819

FT819 is produced from a master iPSC line generated using T cells from healthy donors.

“A master iPSC line has unlimited capacity to self-renew and can be banked and renewably used,” said Bob Valamehr, PhD, vice-president of cancer immunotherapy at Fate Therapeutics, Inc.

“We started with cells from a healthy donor rather than the patient, created a master cell line, and used the master cell line to produce large quantities of ‘universal’ CAR19 T cells that are not patient-restricted. These first-of-kind CAR19 T cells, called FT819, can be packaged, stored, and made readily available for treatment of a large number of patients.”

FT819 has 2 targeting receptors—a CAR targeting CD19-positive tumor cells and a CD16 Fc receptor that can engage other therapies (such as tumor antigen-targeting monoclonal antibodies) to overcome antigen escape.

The master iPSC line used for the production of FT819 is engineered in a one-time event to insert a CD19 CAR into the T-cell receptor α constant (TRAC) locus. This is done to eliminate T-cell receptor expression and reduce the likelihood of graft-versus-host disease.

Previous research showed that targeting a CAR to the TRAC locus results in uniform CAR expression and enhances T-cell potency. In fact, TRAC-CAR T cells outperformed conventionally generated CAR T cells by preventing T-cell exhaustion in a mouse model of acute lymphoblastic leukemia.

In vitro experiments

With the current work, the researchers found that FT819 displayed an efficient cytotoxic T-cell response when challenged with CD19-positive tumor cells. FT819 produced cytokines (IFN-gamma, TNF-alpha, and IL-2) and mediators of cell death (CD107a/b, perforin, and granzyme B).

FT819 was also target-specific, attacking only CD19-positive tumor cells and sparing CD19-negative tumor cells in experiments with Raji (Burkitt lymphoma) and Nalm-6 (B-cell acute lymphoblastic leukemia) cell lines.

The researchers said they observed consistent antigen-specific cytotoxicity against Nalm-6 cells with FT819 but variability in antigen-specific cytotoxicity with conventional CAR T cells.

In addition, when combined with rituximab, FT819 elicited antibody-dependent cell-mediated cytotoxicity against CD19-negative, CD20-positive tumor cells.

“Through the development of FT819, we believe there is significant opportunity to lower the cost of CAR T-cell manufacture, enhance the quality of the product, and create a readily available supply of a more efficacious product to reach more patients in need,” Dr Valamehr said.

Image by James Thomson
Induced pluripotent stem cells

CHICAGO—Researchers have used induced pluripotent stem cells (iPSCs) to create a “universal” chimeric antigen receptor (CAR) T-cell therapy known as FT819.

The team says FT819 has the potential to be mass-produced, stored, and made readily available for cancer patients.

In in vitro experiments, FT819 demonstrated activity against leukemia and lymphoma.

These results were presented at the AACR Annual Meeting 2018 (abstract LB-108).

The research was conducted by employees of Fate Therapeutics, Inc., the company developing FT819, as well as Memorial Sloan-Kettering Cancer Center.

About FT819

FT819 is produced from a master iPSC line generated using T cells from healthy donors.

“A master iPSC line has unlimited capacity to self-renew and can be banked and renewably used,” said Bob Valamehr, PhD, vice-president of cancer immunotherapy at Fate Therapeutics, Inc.

“We started with cells from a healthy donor rather than the patient, created a master cell line, and used the master cell line to produce large quantities of ‘universal’ CAR19 T cells that are not patient-restricted. These first-of-kind CAR19 T cells, called FT819, can be packaged, stored, and made readily available for treatment of a large number of patients.”

FT819 has 2 targeting receptors—a CAR targeting CD19-positive tumor cells and a CD16 Fc receptor that can engage other therapies (such as tumor antigen-targeting monoclonal antibodies) to overcome antigen escape.

The master iPSC line used for the production of FT819 is engineered in a one-time event to insert a CD19 CAR into the T-cell receptor α constant (TRAC) locus. This is done to eliminate T-cell receptor expression and reduce the likelihood of graft-versus-host disease.

Previous research showed that targeting a CAR to the TRAC locus results in uniform CAR expression and enhances T-cell potency. In fact, TRAC-CAR T cells outperformed conventionally generated CAR T cells by preventing T-cell exhaustion in a mouse model of acute lymphoblastic leukemia.

In vitro experiments

With the current work, the researchers found that FT819 displayed an efficient cytotoxic T-cell response when challenged with CD19-positive tumor cells. FT819 produced cytokines (IFN-gamma, TNF-alpha, and IL-2) and mediators of cell death (CD107a/b, perforin, and granzyme B).

FT819 was also target-specific, attacking only CD19-positive tumor cells and sparing CD19-negative tumor cells in experiments with Raji (Burkitt lymphoma) and Nalm-6 (B-cell acute lymphoblastic leukemia) cell lines.

The researchers said they observed consistent antigen-specific cytotoxicity against Nalm-6 cells with FT819 but variability in antigen-specific cytotoxicity with conventional CAR T cells.

In addition, when combined with rituximab, FT819 elicited antibody-dependent cell-mediated cytotoxicity against CD19-negative, CD20-positive tumor cells.

“Through the development of FT819, we believe there is significant opportunity to lower the cost of CAR T-cell manufacture, enhance the quality of the product, and create a readily available supply of a more efficacious product to reach more patients in need,” Dr Valamehr said.

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