CAR produces high CR rate in adults with rel/ref ALL

Audience during a session at

the 2015 ASCO Annual Meeting

© ASCO/Max Gersh

CHICAGO—A CD19-targeted chimeric antigen receptor (CAR) T-cell therapy can provide durable complete responses (CRs) or a bridge to allogeneic transplant in adults with relapsed or refractory acute lymphoblastic leukemia (ALL), updated results of a phase 1 study suggest.

The therapy, JCAR015, produced a CR rate of 87%, and 33% of these patients went on to transplant.

The median duration of response or relapse-free survival was 5.3 months. The median overall survival was 8.5 months.

Nearly a quarter of patients developed severe cytokine release syndrome (CRS), and nearly 30% experienced neurological toxicities. But researchers said these effects were largely treatable and reversible.

This study was temporarily placed on clinical hold last year, after 2 patients died from complications related to CRS. But the hold was soon lifted and enrollment and dosing criteria were changed in an attempt to prevent severe CRS.

Jae H. Park, MD, of Memorial Sloan Kettering Cancer Center in New York, presented updated results of this trial (NCT01044069) at the 2015 ASCO Annual Meeting (abstract 7010*). The study is sponsored by Memorial Sloan Kettering, but funding has also been provided by Juno Therapeutics, the company developing JCAR015.

Results from this trial have previously been reported in Science Translational Medicine (Davila et al 2014; Brentjens et al 2013), at AACR 2014, and at ASH 2014.

At ASCO, Dr Park presented results in 39 patients with relapsed/refractory, CD19⁺ ALL. All of them were evaluable for toxicity assessment, and 38 were evaluable for response with at least 1 month of follow-up.

There were 29 males, and the patients’ median age was 45 (range, 22-74). Thirty-three percent had Ph⁺ ALL, and 11% had the T315I mutation.

Forty-nine percent of patients had received 2 prior therapies, 23% had received 3, and 28% had received 4 or more. Thirty-six percent of patients had a prior allogeneic hematopoietic stem cell transplant (HSCT).

For this study, patients first underwent leukapheresis. While their T cells were being manufactured, they were allowed to receive salvage chemotherapy. Patients underwent repeat bone marrow biopsy to assess their disease status immediately prior to T-cell infusion.

Fifty-four percent of patients (n=21) had morphologic disease (>5% blasts in the bone marrow, median 52%) immediately prior to JCAR015 infusion, and the remaining patients (n=18) had minimal residual disease (MRD).

Two days after conditioning with cyclophosphamide, patients received an infusion of 1-3 x 10⁶ CAR T cells/kg. At day 28, the researchers assessed patients’ disease with a repeat bone marrow biopsy.

Treatment results

The median follow-up was 5.6 months (1 to >38 months). Six patients had more than a year of follow-up.

The CR rate was 87% (33/38), and 81% of evaluable patients (26/32) were MRD-negative. The median time to CR was 23 days, and the median duration of response or relapse-free survival was 5.3 months.

“We examined the CR rates by different subgroup,” Dr Park noted. “We looked at whether patients had a pre-T-cell disease burden: morphologic disease vs minimal residual disease, whether they had an allogeneic bone marrow transplant prior to CAR T-cell infusion, their Ph⁺ status, age at infusion, and prior lines of therapy. And there was no [significant] difference between these groups for CRs and MRD-negative CR rate.”

At the time of presentation, 14 patients were disease-free, 10 of whom had not gone on to HSCT. In all, 11 patients went on to allogeneic HSCT.

Fourteen patients relapsed during follow-up, 3 after HSCT. Two of these patients had CD19-negative bone marrow blasts.

The median overall survival was 8.5 months in all patients and 10.8 months in patients who were MRD-negative. The median overall survival was 9.9 months in patients who underwent allogeneic HSCT and 8.5 months in patients who did not.

Dr Park said key adverse events were CRS—clinically manifested by fever, hypotension, and respiratory insufficiency—and neurological changes such as delirium, global encephalopathy, aphasia, and seizures.

Twenty-three percent of patients (n=9) developed severe CRS, 28% (n=11) had grade 3/4 neurotoxicity, and 8% (n=3) had grade 5 toxicity. The patients with grade 5 toxicities died of ventricular arrhythmia, sepsis, and an unknown cause (although this patient suffered a seizure).

The severity of CRS correlated with disease burden, and CRS was managed with an IL-6R inhibitor (n=4), a steroid (n=2), or both (n=9). Neurological symptoms were reversible and could occur independently of CRS, Dr Park said.

*Information in the abstract differs from that presented at the meeting.

Audience during a session at

the 2015 ASCO Annual Meeting

© ASCO/Max Gersh

CHICAGO—A CD19-targeted chimeric antigen receptor (CAR) T-cell therapy can provide durable complete responses (CRs) or a bridge to allogeneic transplant in adults with relapsed or refractory acute lymphoblastic leukemia (ALL), updated results of a phase 1 study suggest.

The therapy, JCAR015, produced a CR rate of 87%, and 33% of these patients went on to transplant.

The median duration of response or relapse-free survival was 5.3 months. The median overall survival was 8.5 months.

Nearly a quarter of patients developed severe cytokine release syndrome (CRS), and nearly 30% experienced neurological toxicities. But researchers said these effects were largely treatable and reversible.

This study was temporarily placed on clinical hold last year, after 2 patients died from complications related to CRS. But the hold was soon lifted and enrollment and dosing criteria were changed in an attempt to prevent severe CRS.

Jae H. Park, MD, of Memorial Sloan Kettering Cancer Center in New York, presented updated results of this trial (NCT01044069) at the 2015 ASCO Annual Meeting (abstract 7010*). The study is sponsored by Memorial Sloan Kettering, but funding has also been provided by Juno Therapeutics, the company developing JCAR015.

Results from this trial have previously been reported in Science Translational Medicine (Davila et al 2014; Brentjens et al 2013), at AACR 2014, and at ASH 2014.

At ASCO, Dr Park presented results in 39 patients with relapsed/refractory, CD19⁺ ALL. All of them were evaluable for toxicity assessment, and 38 were evaluable for response with at least 1 month of follow-up.

There were 29 males, and the patients’ median age was 45 (range, 22-74). Thirty-three percent had Ph⁺ ALL, and 11% had the T315I mutation.

Forty-nine percent of patients had received 2 prior therapies, 23% had received 3, and 28% had received 4 or more. Thirty-six percent of patients had a prior allogeneic hematopoietic stem cell transplant (HSCT).

For this study, patients first underwent leukapheresis. While their T cells were being manufactured, they were allowed to receive salvage chemotherapy. Patients underwent repeat bone marrow biopsy to assess their disease status immediately prior to T-cell infusion.

Fifty-four percent of patients (n=21) had morphologic disease (>5% blasts in the bone marrow, median 52%) immediately prior to JCAR015 infusion, and the remaining patients (n=18) had minimal residual disease (MRD).

Two days after conditioning with cyclophosphamide, patients received an infusion of 1-3 x 10⁶ CAR T cells/kg. At day 28, the researchers assessed patients’ disease with a repeat bone marrow biopsy.

Treatment results

The median follow-up was 5.6 months (1 to >38 months). Six patients had more than a year of follow-up.

The CR rate was 87% (33/38), and 81% of evaluable patients (26/32) were MRD-negative. The median time to CR was 23 days, and the median duration of response or relapse-free survival was 5.3 months.

“We examined the CR rates by different subgroup,” Dr Park noted. “We looked at whether patients had a pre-T-cell disease burden: morphologic disease vs minimal residual disease, whether they had an allogeneic bone marrow transplant prior to CAR T-cell infusion, their Ph⁺ status, age at infusion, and prior lines of therapy. And there was no [significant] difference between these groups for CRs and MRD-negative CR rate.”

At the time of presentation, 14 patients were disease-free, 10 of whom had not gone on to HSCT. In all, 11 patients went on to allogeneic HSCT.

Fourteen patients relapsed during follow-up, 3 after HSCT. Two of these patients had CD19-negative bone marrow blasts.

The median overall survival was 8.5 months in all patients and 10.8 months in patients who were MRD-negative. The median overall survival was 9.9 months in patients who underwent allogeneic HSCT and 8.5 months in patients who did not.

Dr Park said key adverse events were CRS—clinically manifested by fever, hypotension, and respiratory insufficiency—and neurological changes such as delirium, global encephalopathy, aphasia, and seizures.

Twenty-three percent of patients (n=9) developed severe CRS, 28% (n=11) had grade 3/4 neurotoxicity, and 8% (n=3) had grade 5 toxicity. The patients with grade 5 toxicities died of ventricular arrhythmia, sepsis, and an unknown cause (although this patient suffered a seizure).

The severity of CRS correlated with disease burden, and CRS was managed with an IL-6R inhibitor (n=4), a steroid (n=2), or both (n=9). Neurological symptoms were reversible and could occur independently of CRS, Dr Park said.

*Information in the abstract differs from that presented at the meeting.

Audience during a session at

the 2015 ASCO Annual Meeting

© ASCO/Max Gersh

CHICAGO—A CD19-targeted chimeric antigen receptor (CAR) T-cell therapy can provide durable complete responses (CRs) or a bridge to allogeneic transplant in adults with relapsed or refractory acute lymphoblastic leukemia (ALL), updated results of a phase 1 study suggest.

The therapy, JCAR015, produced a CR rate of 87%, and 33% of these patients went on to transplant.

The median duration of response or relapse-free survival was 5.3 months. The median overall survival was 8.5 months.

Nearly a quarter of patients developed severe cytokine release syndrome (CRS), and nearly 30% experienced neurological toxicities. But researchers said these effects were largely treatable and reversible.

This study was temporarily placed on clinical hold last year, after 2 patients died from complications related to CRS. But the hold was soon lifted and enrollment and dosing criteria were changed in an attempt to prevent severe CRS.

Jae H. Park, MD, of Memorial Sloan Kettering Cancer Center in New York, presented updated results of this trial (NCT01044069) at the 2015 ASCO Annual Meeting (abstract 7010*). The study is sponsored by Memorial Sloan Kettering, but funding has also been provided by Juno Therapeutics, the company developing JCAR015.

Results from this trial have previously been reported in Science Translational Medicine (Davila et al 2014; Brentjens et al 2013), at AACR 2014, and at ASH 2014.

At ASCO, Dr Park presented results in 39 patients with relapsed/refractory, CD19⁺ ALL. All of them were evaluable for toxicity assessment, and 38 were evaluable for response with at least 1 month of follow-up.

There were 29 males, and the patients’ median age was 45 (range, 22-74). Thirty-three percent had Ph⁺ ALL, and 11% had the T315I mutation.

Forty-nine percent of patients had received 2 prior therapies, 23% had received 3, and 28% had received 4 or more. Thirty-six percent of patients had a prior allogeneic hematopoietic stem cell transplant (HSCT).

For this study, patients first underwent leukapheresis. While their T cells were being manufactured, they were allowed to receive salvage chemotherapy. Patients underwent repeat bone marrow biopsy to assess their disease status immediately prior to T-cell infusion.

Fifty-four percent of patients (n=21) had morphologic disease (>5% blasts in the bone marrow, median 52%) immediately prior to JCAR015 infusion, and the remaining patients (n=18) had minimal residual disease (MRD).

Two days after conditioning with cyclophosphamide, patients received an infusion of 1-3 x 10⁶ CAR T cells/kg. At day 28, the researchers assessed patients’ disease with a repeat bone marrow biopsy.

Treatment results

The median follow-up was 5.6 months (1 to >38 months). Six patients had more than a year of follow-up.

The CR rate was 87% (33/38), and 81% of evaluable patients (26/32) were MRD-negative. The median time to CR was 23 days, and the median duration of response or relapse-free survival was 5.3 months.

“We examined the CR rates by different subgroup,” Dr Park noted. “We looked at whether patients had a pre-T-cell disease burden: morphologic disease vs minimal residual disease, whether they had an allogeneic bone marrow transplant prior to CAR T-cell infusion, their Ph⁺ status, age at infusion, and prior lines of therapy. And there was no [significant] difference between these groups for CRs and MRD-negative CR rate.”

At the time of presentation, 14 patients were disease-free, 10 of whom had not gone on to HSCT. In all, 11 patients went on to allogeneic HSCT.

Fourteen patients relapsed during follow-up, 3 after HSCT. Two of these patients had CD19-negative bone marrow blasts.

The median overall survival was 8.5 months in all patients and 10.8 months in patients who were MRD-negative. The median overall survival was 9.9 months in patients who underwent allogeneic HSCT and 8.5 months in patients who did not.

Dr Park said key adverse events were CRS—clinically manifested by fever, hypotension, and respiratory insufficiency—and neurological changes such as delirium, global encephalopathy, aphasia, and seizures.

Twenty-three percent of patients (n=9) developed severe CRS, 28% (n=11) had grade 3/4 neurotoxicity, and 8% (n=3) had grade 5 toxicity. The patients with grade 5 toxicities died of ventricular arrhythmia, sepsis, and an unknown cause (although this patient suffered a seizure).

The severity of CRS correlated with disease burden, and CRS was managed with an IL-6R inhibitor (n=4), a steroid (n=2), or both (n=9). Neurological symptoms were reversible and could occur independently of CRS, Dr Park said.

*Information in the abstract differs from that presented at the meeting.