Lucy Norris scite author profile

Thrombosis is common in ovarian cancer. However, the interaction of platelets with ovarian cancer cells has not been critically examined. To address this, we investigated platelet interactions in a range of ovarian cancer cell lines with different metastatic potentials [HIO-80, 59M, SK-OV-3, A2780, A2780cis]. Platelets adhered to ovarian cancer cells with the most significant adhesion to the 59M cell line. Ovarian cancer cells induced platelet activation [P-selectin expression] in a dose dependent manner, with the most significant activation seen in response to the 59M cell line. The platelet antagonists [cangrelor, MRS2179, and apyrase] inhibited 59M cell induced activation suggesting a P2Y12 and P2Y1 receptor mediated mechanism of platelet activation dependent on the release of ADP by 59M cells. A2780 and 59M cells potentiated PAR-1, PAR-4, and TxA2 receptor mediated platelet activation, but had no effect on ADP, epinephrine, or collagen induced activation. Analysis of gene expression changes in ovarian cancer cells following treatment with washed platelets or platelet releasate showed a subtle but valid upregulation of anti-apoptotic, anti-autophagy pro-angiogenic, pro-cell cycle and metabolic genes. Thus, ovarian cancer cells with different metastatic potential adhere and activate platelets differentially while both platelets and platelet releasate mediate pro-survival and pro-angiogenic signals in ovarian cancer cells.

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Venous thromboembolism in ovarian cancer: incidence, risk factors and impact on survival

Saadeh

Norris

O’Toole

et al. 2013

European Journal of Obstetrics & Gynecology and Reproductiv

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Blood coagulation

Norris

2003

Best Practice & Research Clinical Obstetrics & Gynaecol

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Blood coagulation can be initiated by two pathways: the extrinsic pathway, which is triggered by release of tissue factor from the site of injury, and the intrinsic system, which is stimulated by contact with a negatively charged surface. Following initial triggering, a series of serine proteases are sequentially activated, culminating in the formation of thrombin, the enzyme responsible for the conversion of soluble fibrinogen to the insoluble fibrin clot. Activation of coagulation is tightly regulated. Initiation by tissue factor is inhibited by tissue factor pathway inhibitor. Antithrombin can inactivate many of the serine proteases, including thrombin, by forming stable complexes which are rapidly cleared from the circulation. Protein C and protein S combine to inactivate coagulation factors V and VIII. The deposition of excess fibrin is prevented by the fibrinolytic system which can lyse fibrin into fibrin degradation products. Both genetic and environmental factors can influence the activation of coagulation and may predispose affected individuals to thrombosis.

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Tinzaparin sodium for thrombosis treatment and prevention during pregnancy

Smith¹,

Norris²,

Steer³

et al. 2004

American Journal of Obstetrics and Gynecology

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Platelets, immune cells and the coagulation cascade; friend or foe of the circulating tumour cell?

et al. 2021

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Cancer cells that transit from primary tumours into the circulatory system are known as circulating tumour cells (CTCs). These cancer cells have unique phenotypic and genotypic characteristics which allow them to survive within the circulation, subsequently extravasate and metastasise. CTCs have emerged as a useful diagnostic tool using “liquid biopsies” to report on the metastatic potential of cancers. However, CTCs by their nature interact with components of the blood circulatory system on a constant basis, influencing both their physical and morphological characteristics as well as metastatic capabilities. These properties and the associated molecular profile may provide critical diagnostic and prognostic capabilities in the clinic. Platelets interact with CTCs within minutes of their dissemination and are crucial in the formation of the initial metastatic niche. Platelets and coagulation proteins also alter the fate of a CTC by influencing EMT, promoting pro-survival signalling and aiding in evading immune cell destruction. CTCs have the capacity to directly hijack immune cells and utilise them to aid in CTC metastatic seeding processes. The disruption of CTC clusters may also offer a strategy for the treatment of advance staged cancers. Therapeutic disruption of these heterotypical interactions as well as direct CTC targeting hold great promise, especially with the advent of new immunotherapies and personalised medicines. Understanding the molecular role that platelets, immune cells and the coagulation cascade play in CTC biology will allow us to identify and characterise the most clinically relevant CTCs from patients. This will subsequently advance the clinical utility of CTCs in cancer diagnosis/prognosis.

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Lucy Norris

Platelet Adhesion and Degranulation Induce Pro-Survival and Pro-Angiogenic Signalling in Ovarian Cancer Cells

Venous thromboembolism in ovarian cancer: incidence, risk factors and impact on survival

Blood coagulation

Tinzaparin sodium for thrombosis treatment and prevention during pregnancy

Platelets, immune cells and the coagulation cascade; friend or foe of the circulating tumour cell?

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