Publications by authors named "R Kischel"
Article Synopsis
- Bispecific T-cell engagers (Bi-TCEs) are innovative cancer treatments that have shown promise for both blood cancers and solid tumors, but starting dose selection for early human trials is complex due to risks of toxicity and ineffectiveness.
- The traditional method for determining doses often leads to long escalation periods, while a new modified approach uses better-targeted biological data and dosages that match the tumor environment, minimizing risks.
- This new method was successfully applied in a trial for a Bi-TCE targeting gastric cancer, allowing for a much higher initial dose that was safe and well-tolerated, which could expedite future clinical developments for Bi-TCEs in various cancer types.
Bispecific T-cell engager (BiTE) molecules recruit T cells to cancer cells through CD3ε binding, independently of T-cell receptor (TCR) specificity. Whereas physiological T-cell activation is dependent on signal 1 (TCR engagement) and signal 2 (co-stimulation), BiTE molecule-mediated T-cell activation occurs without additional co-stimulation. As co-stimulatory and inhibitory molecules modulate the strength and nature of T-cell responses, we studied the impact of the expression profile of those molecules on target cells for BiTE molecule-mediated T-cell activation in the context of acute myeloid leukemia (AML).
View Article and Find Full Text PDFT-cell-recruiting bispecific molecule therapy has yielded promising results in patients with hematologic malignancies; however, resistance and subsequent relapse remains a major challenge. T-cell exhaustion induced by persistent antigen stimulation or tonic receptor signaling has been reported to compromise outcomes of T-cell-based immunotherapies. The impact of continuous exposure to bispecifics on T-cell function, however, remains poorly understood.
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