Publications by authors named "Linda Warmuth"
Article Synopsis
- - CRISPR-engineered CAR T cells show promise in cancer treatments but have been linked to chromosomal issues due to the CRISPR process.
- - The study reveals that increased T cell activation and faster proliferation lead to larger DNA deletions, while non-activated T cells have a lower risk but are less effective for gene editing.
- - A small molecule called pifithrin-α can reduce chromosomal damage while preserving the functionality of CRISPR-engineered T cells, making it a viable strategy for improving genomic safety.
Article Synopsis
- Research shows a correlation between the gut microbiome and the effectiveness of cancer immunotherapy, specifically for CAR T cell patients.
- The study identifies pentanoate, a metabolite from commensal bacteria, as a key factor that enhances patient survival by improving CAR T cell performance in challenging tumor environments.
- Findings suggest that incorporating microbial metabolites like pentanoate into CAR T cell manufacturing can exploit metabolic pathways and epigenetic changes to enhance treatment outcomes.
Adoptive cellular therapies have shown enormous potential but are complicated by personalization. Because of HLA mismatch, rejection of transferred T cells frequently occurs, compromising the T-cell graft's functionality. This obstacle has led to the development of HLA knock-out (KO) T cells as universal donor cells.
View Article and Find Full Text PDFAdoptive immunotherapy based on chimeric antigen receptor (CAR)-engineered T cells has exhibited impressive clinical efficacy in treating B-cell malignancies. However, the potency of CAR-T cells carriethe potential for significant on-target/off-tumor toxicities when target antigens are shared with healthy cells, necessitating the development of complementary safety measures. In this context, there is a need to selectively eliminate therapeutically administered CAR-T cells, especially to revert long-term CAR-T cell-related side effects.
View Article and Find Full Text PDFLymphodepletion (LD) or conditioning is an essential step in the application of currently used autologous and allogeneic chimeric antigen receptor T-cell (CAR-T) therapies as it maximizes engraftment, efficacy and long-term survival of CAR-T. Its main modes of action are the depletion and modulation of endogenous lymphocytes, conditioning of the microenvironment for improved CAR-T expansion and persistence, and reduction of tumor load. However, most LD regimens provide a broad and fairly unspecific suppression of T-cells as well as other hematopoietic cells, which can also lead to severe side effects, particularly infections.
View Article and Find Full Text PDFEngagement of the inhibitory T cell receptor programmed cell death protein 1 (PD-1) associates with dysfunctional states of pathogen- or tumor-specific T cells. Accordingly, systemic antibody-mediated blockade of PD-1 has become a central target for immunotherapies but is also associated with severe toxicities due to loss of peripheral tolerance. Therefore, selective ablation of PD-1 expression on adoptively transferred T cells through direct genetic knockout (KO) is currently being explored as an alternative therapeutic approach.
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