AI Article Synopsis
- The study examines how cadmium telluride quantum dots (CdTe-QDs) affect macrophage differentiation and polarization, revealing that low doses can impair the transition from monocytes to macrophages.
- Exposure to CdTe-QDs triggers M1 polarization in differentiated THP-1 macrophages, marked by increased CD86 expression and elevated NF-κB and IL-1β protein levels.
- The research indicates that the mTOR signaling pathway is crucial for activating the transcription factor EB (TFEB), which plays a key role in immune regulation and autophagy; targeting this pathway may improve the biocompatibility of CdTe-QDs.
Article Abstract
The increasing application of quantum dots (QDs) increases interactions with organisms. The inflammatory imbalance is a significant manifestation of immunotoxicity. Macrophages maintain inflammatory homeostasis. Using macrophages differentiated by phorbol 12-myristate 13-acetate-induced THP-1 cells as models, the study found that low-dose (5 μM) cadmium telluride QDs (CdTe-QDs) hindered monocyte-macrophage differentiation. CD11b is a surface marker of macrophage, and the addition of CdTe-QDs during induction resulted in a decrease in CD11b expression. Moreover, exposure of differentiated THP-1 macrophage (dTHP-1) to 5 μM CdTe-QDs led to the initiation of M1 polarization. This was indicated by the increased surface marker CD86 expression, along with elevated level of NF-κB and IL-1β proteins. The potential mechanisms are being explored. The transcription factor EB (TFEB) plays a significant role in immune regulation and serves as a crucial regulator of the autophagic lysosomal pathway. After exposed to CdTe-QDs, TFEB activation-mediated autophagy and M1 polarization were observed to occur simultaneously in dTHP-1. The mTOR signaling pathway contributed to TFEB activation induced by CdTe-QDs. However, mTOR-independent activation of TFEB failed to promote M1 polarization. These results suggest that mTOR-TFEB is an advantageous target to enhance the biocompatibility of CdTe-QDs.
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| http://dx.doi.org/10.1016/j.impact.2024.100505 | DOI Listing |
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