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An Immunocompetent Microphysiological System to Simultaneously Investigate Effects of Anti-Tumor Natural Killer Cells on Tumor and Cardiac Microtissues. | LitMetric

AI Article Synopsis

  • - Existing cancer therapies often struggle with the complexity of tumors, highlighting the need for new treatments like adoptive cell therapy (ACT), which shows promise despite its limited clinical use due to factors such as cost and difficulty in translating animal results to humans.
  • - Immunocompetent microphysiological systems (iMPS) are innovative platforms that facilitate the study of tumor-immune cell interactions, potentially speeding up ACT development by allowing for realistic testing environments.
  • - A proof-of-concept iMPS featuring 3D colorectal tumor microtissues and natural killer (NK) cells revealed effective NK cell-mediated tumor killing, inflammatory responses, and minor impacts on healthy cardiac tissues, emphasizing the system's utility for assessing both efficacy and

Article Abstract

Existing first-line cancer therapies often fail to cope with the heterogeneity and complexity of cancers, so that new therapeutic approaches are urgently needed. Among novel alternative therapies, adoptive cell therapy (ACT) has emerged as a promising cancer treatment in recent years. The limited clinical applications of ACT, despite its advantages over standard-of-care therapies, can be attributed to (i) time-consuming and cost-intensive procedures to screen for potent anti-tumor immune cells and the corresponding targets, (ii) difficulties to translate and animal-derived efficacies to clinical efficacy in humans, and (iii) the lack of systemic methods for the safety assessment of ACT. Suitable experimental models and testing platforms have the potential to accelerate the development of ACT. Immunocompetent microphysiological systems (iMPS) are microfluidic platforms that enable complex interactions of advanced tissue models with different immune cell types, bridging the gap between and studies. Here, we present a proof-of-concept iMPS that supports a triple culture of three-dimensional (3D) colorectal tumor microtissues, 3D cardiac microtissues, and human-derived natural killer (NK) cells in the same microfluidic network. Different aspects of tumor-NK cell interactions were characterized using this iMPS including: (i) direct interaction and NK cell-mediated tumor killing, (ii) the development of an inflammatory milieu through enrichment of soluble pro-inflammatory chemokines and cytokines, and (iii) secondary effects on healthy cardiac microtissues. We found a specific NK cell-mediated tumor-killing activity and elevated levels of tumor- and NK cell-derived chemokines and cytokines, indicating crosstalk and development of an inflammatory milieu. While viability and morphological integrity of cardiac microtissues remained mostly unaffected, we were able to detect alterations in their beating behavior, which shows the potential of iMPS for both, efficacy and early safety testing of new candidate ACTs.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8675866PMC
http://dx.doi.org/10.3389/fimmu.2021.781337DOI Listing

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