Abstract 6409: A multiparametric flow cytometry assay to monitor regeneration of B-cells following anti B-cell therapy in cancer and autoimmune patients

Abstract

Abstract Purpose Functional dysregulation of B-cells leads to a variety of autoimmune disorders and blood cancers. Multiple B-cell depleting therapies (e.g., BTK inhibitors, antibodies or CAR-Ts) are currently in active clinical trial investigation. Following therapeutic elimination of pathogenic B-cells, it is critical to monitor the productive regeneration of fully functional B-cells as they mediate innate and adaptive immune responses. To this end, we developed a multiparametric flow cytometry assay for exquisite monitoring of early stages of B cell development, maturation, and antibody production to correlate it with treatment outcomes and determine if continuous depletion of B-cells is necessary to maintain clinical benefits for patients. Study Design We designed a high throughput 12-parameter flow cytometry panel incorporating primary differentiation markers namely, CD45, CD3, CD38, CD10, CD27, CD19, CD20, IgD, Lambda & Kappa Light Chains required for identification of different developmental stages of B-cells in peripheral blood using an in vitro diagnostic grade flow cytometry system (BD FACSLyric). The optimized method underwent robust fit-for-purpose analytical validation per CLSI H62 guidelines with emphasis on establishing assay sensitivity, specificity, and reproducibility across experimental days, operators, and instruments. Results We were able to reliably identify different stages of B-cell development, namely, Naïve (CD19+CD20+IgD+CD27-), Unswitched/Marginal (CD19+CD20+IgD+CD27+), Memory (CD19+CD20+IgD-CD27+), Transitional (CD19+CD20+IgD+CD27-CD10+), Antibody Secreting Cells (CD19+CD20-IgD-CD27+CD38hi) as well as clonality (CD19+CD20+Lambda+ or Kappa+). The lower limit of quantitation was determined to be around 60 events, based upon analysis of 90 data points with good reproducibility (CV range: 0-11.7%) across experimental days, operators and instruments demonstrating sensitive detection and robust performance. Conclusion In summary, we have developed and validated a 12-parameter flow cytometry assay focusing on monitoring the regeneration of different subsets of B-cells in various B-cell malignancies (Non-Hodgkin’s Lymphoma, B CLL) and autoimmune disorders (Multiple Sclerosis, Rheumatoid Arthritis, Systemic Lupus Erythematosus). The high reproducibility/robustness of the assay demonstrates its suitability for use in clinical trials as a valuable tool for safety monitoring and disease evaluation enabling development of novel therapeutic agents. Citation Format: Amit Kumar Mehta, Ruby Tandon, Anil Pahuja, Jane Gao, Kevin Nguyen, Naveen Dakappagari, Zeni Alfonso. A multiparametric flow cytometry assay to monitor regeneration of B-cells following anti B-cell therapy in cancer and autoimmune patients [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 6409.