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Complement activation at the interface between adipocytes and cancer cells drives tumor progression
Andres Valdivia, Ana Maria Isac, Horacio Cardenas, Guangyuan Zhao, Yaqi Zhang, Hao Huang, Jian-Jun Wei, Mauricio Cuello-Fredes, Sumie Kato, Fernán Gómez-Valenzuela, Francoise Gourronc, Aloysius Klingelhutz, Daniela Matei
Andres Valdivia, Ana Maria Isac, Horacio Cardenas, Guangyuan Zhao, Yaqi Zhang, Hao Huang, Jian-Jun Wei, Mauricio Cuello-Fredes, Sumie Kato, Fernán Gómez-Valenzuela, Francoise Gourronc, Aloysius Klingelhutz, Daniela Matei
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Research Article Cell biology Oncology

Complement activation at the interface between adipocytes and cancer cells drives tumor progression

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Abstract

The omentum is the primary site of metastasis for ovarian cancer (OC). Interactions between cancer cells and adipocytes drive an invasive and prometastatic phenotype. Here we studied cancer cell–adipocyte crosstalk by using a direct coculture model with immortalized human visceral nondiabetic pre-adipocytes (VNPADs) and OC cells. We demonstrated increased proliferation, invasiveness, and resistance to cisplatin of cocultured compared with monocultured OC cells. RNA sequencing of OC cells from coculture versus monoculture revealed significant transcriptomic changes, identifying over 200 differentially expressed genes common to OVCAR5 and OVCAR8 cell lines. Enriched pathways included PI3K/AKT and complement activation. Lipid transfer into OC cells from adipocytes induced upregulation of complement C3 and C5 proteins. Inhibiting C3 or C5 reversed the invasive phenotype and C3 knockdown reduced tumor progression in vivo. Increased C3 expression was observed in omental implants compared with primary ovarian tumors and C3 secretion was higher in OC ascites from high-BMI versus low-BMI patients. C3 upregulation in OC cells involved activation of the ATF4-mediated integrated stress response (ISR). Overall, adipocyte–cancer cell interactions promoted invasiveness and tumorigenesis via lipid transfer, activating the ISR, and upregulating complement proteins C3 and C5.

Authors

Andres Valdivia, Ana Maria Isac, Horacio Cardenas, Guangyuan Zhao, Yaqi Zhang, Hao Huang, Jian-Jun Wei, Mauricio Cuello-Fredes, Sumie Kato, Fernán Gómez-Valenzuela, Francoise Gourronc, Aloysius Klingelhutz, Daniela Matei

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Figure 4

Knockdown of C3 decreases tumor progression of OC cells in vivo.

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Knockdown of C3 decreases tumor progression of OC cells in vivo.
Total t...
Total tumor weights (A), total tumor volumes (B), and tumor numbers (C) of i.p. xenografts generated from OVCAR5 shCtrl and shC3 cells injected into athymic nude mice (mean ± SD, n = 8 per group). Total tumor weights (D), total tumor volumes (E), ascites volume (F), and tumor numbers (G) of i.p. xenografts generated from ID8 shCtrl and shC3 cells injected into C57BL/6 immunocompetent mice (mean ± SD, n = 8 per group). (H and I) Representative images of IHC staining (H) and quantification of number of CD3+ cells (I) in the xenografts derived from ID8 cells stably transduced with control shRNA or shRNA targeting C3. Original magnification, ×40. *P < 0.05, **P < 0.01, ***P < 0.001, ****P < 0.0001 by unpaired, 2-tailed Student’s t test.

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