4.6 Article

A novel insight into mechanism of derangement of coagulation balance: interactions of quantum dots with coagulation-related proteins

Journal

PARTICLE AND FIBRE TOXICOLOGY
Volume 19, Issue 1, Pages -

Publisher

BMC
DOI: 10.1186/s12989-022-00458-x

Keywords

Quantum dots; Interaction; Coagulation; Prothrombin; Plasminogen; Fibrinogen

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Funding

  1. National Natural Science Foundation of China [81872667, 81573201, 81960601]

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Quantum dots (QDs) have gained attention for their biomedical and electronic applications, with their interaction with coagulation-related proteins possibly disrupting the balance of coagulation and fibrinolysis. The binding of QDs to proteins like PTM, PLG, and FIB can alter their conformation and interfere with hemostasis processes, indicating the importance of understanding these interactions for evaluating the biological effects of QDs.
Background Quantum dots (QDs) have gained increased attention for their extensive biomedical and electronic products applications. Due to the high priority of QDs in contacting the circulatory system, understanding the hemocompatibility of QDs is one of the most important aspects for their biosafety evaluation. Thus far, the effect of QDs on coagulation balance haven't been fully understood, and limited studies also have yet elucidated the potential mechanism from the perspective of interaction of QDs with coagulation-related proteins. Results QDs induced the derangement of coagulation balance by prolonging the activated partial thromboplastin time and prothrombin time as well as changing the expression levels of coagulation and fibrinolytic factors. The contact of QDs with PTM (prothrombin), PLG (plasminogen) and FIB (fibrinogen) which are primary coagulation-related proteins in the coagulation and fibrinolysis systems formed QDs-protein conjugates through hydrogen-bonding and hydrophobic interaction. The affinity of proteins with QDs followed the order of PTM > PLG > FIB, and was larger with CdTe/ZnS QDs than CdTe QDs. Binding with QDs not only induced static fluorescence quenching of PTM, PLG and FIB, but also altered their conformational structures. The binding of QDs to the active sites of PTM, PLG and FIB may promote the activation of proteins, thus interfering the hemostasis and fibrinolysis processes. Conclusions The interactions of QDs with PTM, PLG and FIB may be key contributors for interference of coagulation balance, that is helpful to achieve a reliable and comprehensive evaluation on the potential biological influence of QDs from the molecular level.

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