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Trombocyt-lockbeten hämmar trombos och förhindrar metastatisk tumörbildning i prekliniska modeller

Anne-Laure Papa, Amanda Jiang, Netanel Korin, Michelle B Chen, Erin T Langan, Anna Waterhouse, Emma Nash, Jildaz Carof, Amanda Graveline, Andyna Vernet, Akiko Mammoto, Tadanori Mammoto, Abhishek Jain, Roger D Kamm, Matthew J Gounis, Donald E Ingber

Trombocyt Trombocytattrapper Trombos Metastaserande tumörer

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Nyckelinsikter

01Forskare skapade "platelet decoys" som binder men inte aktiveras
02Dessa "decoys" hämmade blodproppsbildning i djurmodeller
03De minskade även spridning av bröstcancer i en musmodell
04Kan vara en ny strategi mot blodproppar och metastaser

Modifierade blodplättar, så kallade "decoys", kan i prekliniska modeller bidra till att förhindra både blodproppar och spridning av cancer.

Abstract

Platelets are crucial for normal hemostasis; however, their hyperactivation also contributes to many potentially lethal pathologies including myocardial infarction, stroke, and cancer. We hypothesized that modified platelets lacking their aggregation and activation capacity could act as reversible inhibitors of platelet activation cascades. Here, we describe the development of detergent-extracted human modified platelets (platelet decoys) that retained platelet binding functions but were incapable of functional activation and aggregation. Platelet decoys inhibited aggregation and adhesion of platelets on thrombogenic surfaces in vitro, which could be immediately reversed by the addition of normal platelets; in vivo in a rabbit model, pretreatment with platelet decoys inhibited arterial injury-induced thromboembolism. Decoys also interfered with platelet-mediated human breast cancer cell aggregation, and their presence decreased cancer cell arrest and extravasation in a microfluidic human microvasculature on a chip. In a mouse model of metastasis, simultaneous injection of the platelet decoys with tumor cells inhibited metastatic tumor growth. Thus, our results suggest that platelet decoys might represent an effective strategy for obtaining antithrombotic and antimetastatic effects.

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APA: Anne-Laure Papa, Amanda Jiang, Netanel Korin, Michelle B Chen, Erin T Langan, Anna Waterhouse, Emma Nash, Jildaz Carof, Amanda Graveline, Andyna Vernet, Akiko Mammoto, Tadanori Mammoto, Abhishek Jain, Roger D Kamm, Matthew J Gounis, & Donald E Ingber (2019). Trombocyt-lockbeten hämmar trombos och förhindrar metastatisk tumörbildning i prekliniska modeller. https://fasciaresearchdatabase.com/platelet-decoys-inhibit-thrombosis-and-prevent-metastatic-tumor-formation-in-preclinical-models/
MLA: Anne-Laure Papa, et al. "Trombocyt-lockbeten hämmar trombos och förhindrar metastatisk tumörbildning i prekliniska modeller." 2019, https://fasciaresearchdatabase.com/platelet-decoys-inhibit-thrombosis-and-prevent-metastatic-tumor-formation-in-preclinical-models/.
Chicago: Anne-Laure Papa et al. 2019. "Trombocyt-lockbeten hämmar trombos och förhindrar metastatisk tumörbildning i prekliniska modeller.". https://fasciaresearchdatabase.com/platelet-decoys-inhibit-thrombosis-and-prevent-metastatic-tumor-formation-in-preclinical-models/

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