The Effect of Platelet G Proteins on Platelet Extravasation and Tumor Growth in the Murine Model of Ovarian Cancer

Overview

Journal Blood Adv

Specialty Hematology

Date 2021 Apr 6

PMID 33821990

Citations 8

Authors

Min Soon Cho

Jiasong Li

Ricardo Gonzalez-Delgado

Hani Lee

Matthew Vasquez

Tiancheng He

Yunjie He

Kai Liu

Tomoyuki Sasano

Bernd Nurnberg

Anil K Sood

Stephen T C Wong

Vahid Afshar-Kharghan

Affiliations

Soon will be listed here.

Abstract

We and other investigators have shown that platelets promote metastasis and the growth of tumors. Our rationale for conducting this study is that platelets' prometastatic and progrowth effects depend on a close encounter between platelets and cancer cells. This interaction occurs inside blood vessels with circulating tumor cells and outside blood vessels with cancer cells residing in the tumor parenchyma. Our hypothesis was that platelet extravasation is required for the effect of platelets on tumor growth. Platelets respond to environmental stimuli by activation of G protein-coupled receptors on their surface. We investigated the impact of various platelet G proteins on the growth of ovarian cancer tumors and platelet extravasation. We used mice with platelet-specific deficiency of Gαi2 (Gi), Gα13 (G13), or Gαq (Gq) in a syngeneic ovarian cancer model. We measured the total weight of tumor nodules resected from tumor-bearing mice. We developed methods for automated whole-slide image acquisition and unbiased computerized image analysis to quantify extravasated platelets. We compared the number of platelets inside tumor nodules of platelet G protein-deficient tumor-bearing mice. We found that deficiency of Gi and G13, but not Gq, in platelets resulted in smaller tumors compared with those in corresponding littermates. Deficiency of Gi and G13 in platelets reduced the number of extravasated platelets by >90%, but deficiency of Gq did not reduce the number of extravasated platelets significantly. The lack of Gi or G13 in platelets reduced platelet extravasation into the tumor and tumor growth.

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