Caroline Mart scite author profile

Caroline Mart

3Publications

18Citation Statements Received

60Citation Statements Given

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Medical University of South Carolina

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Phase I Trial Characterizing the Pharmacokinetic Profile of N-803, a Chimeric IL-15 Superagonist, in Healthy Volunteers

Rubinstein

Williams

Mart

et al. 2022

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The oncotherapeutic promise of IL-15, a potent immunostimulant, is limited by a short serum t 1/2 . The fusion protein N-803 is a chimeric IL-15 superagonist that has a >20-fold longer in vivo t 1/2 versus IL-15. This phase 1 study characterized the pharmacokinetic (PK) profile and safety of N-803 after s.c. administration to healthy human volunteers. Volunteers received two doses of N-803, and after each dose, PK and safety were assessed for 9 d. The primary endpoint was the N-803 PK profile, the secondary endpoint was safety, and immune cell levels and immunogenicity were measures of interest. Serum N-803 concentrations peaked 4 h after administration and declined with a t 1/2 of ~20 h. N-803 did not cause treatment-emergent serious adverse events (AEs) or grade $3 AEs. Injection site reactions, chills, and pyrexia were the most common AEs. Administration of N-803 was well tolerated and accompanied by proliferation of NK cells and CD8 + T cells and sustained increases in the number of NK cells. Our results suggest that N-803 administration can potentiate antitumor immunity.

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Phase I trial characterizing the pharmacokinetic profile and NK and CD8⁺ t cell expansion with n-803, a chimeric IL-15 superagonist, in healthy volunteers.

Wrangle

Rubinstein

Mart

et al. 2020

JCO

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e15008 Background: The oncotherapeutic promise of IL-15, a potent immune stimulant, is limited by short serum half-life. The fusion protein N-803 is an IL-15 superagonist complex that has > 20-fold longer half-life in vivo vs IL-15. This study characterized the pharmacokinetic (PK) profile, biological activity, and safety of N-803 after subcutaneous administration to healthy human volunteers. Methods: Volunteers were randomized 1:1 to receive 1 mg/mL or 2 mg/mL N-803. Each subject received 2 doses of N-803: 10 µg/kg followed 24 days later by 20 µg/kg. After each dose, PK and safety measures were assayed for 9 successive days. Primary endpoint was the PK profile of N-803; secondary was safety; and exploratory endpoints were cytokine levels, immune cell characterization, and immunogenicity. Results: N-803 resulted in no grade ≥3 or serious adverse events (AEs). Mild injection site reactions, chills, and pyrexia were the most common AEs. Serum N-803 concentrations peaked 10.3-15.4 hours after administration and declined with a half-life of 20.0-20.7 hours. Peak N-803 serum concentrations were dose-dependent, with a 1.5-fold increase in Cmax after administration of 20 µg/kg vs 10 µg/kg. In the peripheral blood, N-803 induced a transient decline, followed by a significant increase (3-fold) in NK cell number that persisted for ≥24 days. N-803 also caused a significant proliferation of NK (22-fold increase in Ki-67+ cells), CD8+ (27-fold) and CD4+ T (11-fold) cells; however, increased cell number occurred only in NK cells. N-803 administration also increased serum levels of interferon gamma, IL-10, and IL-6. One of 14 evaluable subjects had measureable anti-N-803 antibodies at the end-of-study visit. Conclusions: N-803 results in prolonged elevation of drug serum concentrations, contrasting with rapid clearance of recombinant human IL-15 (ie, half-life of ~20 vs < 1 hour). N-803 administration was well-tolerated in healthy volunteers, without evidence of adverse systemic inflammatory responses, and resulted in proliferation of NK cells and CD8+ T cells, as well as sustained increases in NK cell number. Findings in this study are consistent with published results from N-803 administration in treating liquid tumors and lung cancer. Our results demonstrate N-803 administration potentiates the proliferation and activity of lymphocytes with antitumor and antivirus properties, and suggest this investigational product holds promise in treatment of cancer as well as infectious disease such as HIV. Clinical trial information: NCT03381586 .

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Discovering tumor-reactive T-cell receptors through single-cell sequencing of tumor-infiltrating lymphocytes

Gottschalk

Aksoy

et al. 2021

Preprint

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We evaluated the utility of single-cell sequencing of tumor-infiltrating lymphocytes (TIL) for tumor-reactive T-cell receptor (TCR) discovery. Using the MC38 cell line as our tumor model in mice, we show that expression of exogenous TCRs via mRNA electroporation in human T cells provides an easy and quick path to validating tumor-specific candidate TCRs. We detail the identification and validation of four novel MC38-reactive mouse TCRs with varying levels of reactivity to the target cells. Validating our process, one of the MC38 TCRs is specific against a previously reported neoantigen (ASMTNMELM in the Adpgk gene). Consideration of these methodologies may aid in the development of rapid TCR-based therapies for the treatment of cancer and human disease.Abstract Figure

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Caroline Mart

Phase I Trial Characterizing the Pharmacokinetic Profile of N-803, a Chimeric IL-15 Superagonist, in Healthy Volunteers

Phase I trial characterizing the pharmacokinetic profile and NK and CD8⁺ t cell expansion with n-803, a chimeric IL-15 superagonist, in healthy volunteers.

Discovering tumor-reactive T-cell receptors through single-cell sequencing of tumor-infiltrating lymphocytes

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Caroline Mart

Phase I Trial Characterizing the Pharmacokinetic Profile of N-803, a Chimeric IL-15 Superagonist, in Healthy Volunteers

Phase I trial characterizing the pharmacokinetic profile and NK and CD8+ t cell expansion with n-803, a chimeric IL-15 superagonist, in healthy volunteers.

Discovering tumor-reactive T-cell receptors through single-cell sequencing of tumor-infiltrating lymphocytes

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Resources

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Phase I trial characterizing the pharmacokinetic profile and NK and CD8⁺ t cell expansion with n-803, a chimeric IL-15 superagonist, in healthy volunteers.