PubMed İndeksli Yayınlar Koleksiyonu / PubMed Indexed Publications Collection
Permanent URI for this collectionhttps://hdl.handle.net/11147/7645
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Article Citation - WoS: 20Citation - Scopus: 21Breast Cancer Cells and Macrophages in a Paracrine-Juxtacrine Loop(Elsevier, 2021) Önal, Sevgi; Pesen Okvur, Devrim; Türker Burhan, Merve; Batı Ayaz, Gizem; Yanık, Hamdullah; Pesen Okvur, Devrim; 04.03. Department of Molecular Biology and Genetics; 04. Faculty of Science; 01. Izmir Institute of TechnologyBreast cancer cells (BCC) and macrophages are known to interact via epidermal growth factor (EGF) produced by macrophages and colony stimulating factor-1 (CSF-1) produced by BCC. Despite contradictory findings, this interaction is perceived as a paracrine loop. Further, the underlying mechanism of interaction remains unclear. Here, we investigated interactions of BCC with macrophages in 2D and 3D. While both BCC and macrophages showed invasion/chemotaxis to fetal bovine serum, only macrophages showed chemotaxis to BCC in custom designed 3D cell-on-a-chip devices. These results were in agreement with gradient simulation results and ELISA results showing that macrophage-derived-EGF was not secreted into macrophage-conditioned-medium. Live cell imaging of BCC in the presence and absence of iressa showed that macrophages but not macrophage-derived-matrix modulated adhesion and motility of BCC in 2D. 3D co-culture experiments in collagen and matrigel showed that BCC changed their multicellular organization in the presence of macrophages. In custom designed 3D co-culture cell-on-a-chip devices, macrophages promoted and reduced migration of BCC in collagen and matrigel, respectively. Furthermore, adherent but not suspended BCC endocytosed EGFR when in contact with macrophages. Collectively, our data revealed that macrophages showed chemotaxis towards BCC whereas BCC required direct contact to interact with macrophage-derived-EGF. Therefore, we propose that the interaction between cancer cells and macrophages is a paracrine-juxtacrine loop of CSF-1 and EGF, respectively. © 2020 Elsevier LtdArticle Citation - WoS: 90Citation - Scopus: 94Progesterone and Wnt4 Control Mammary Stem Cells Via Myoepithelial Crosstalk(John Wiley and Sons Inc., 2015) Rajaram, Renuga Devi; Yalçın Özuysal, Özden; Caikovski, Marian; Ayyanan, Ayyakkannu; Rougemont, Jacques; Shan, Jingdong; Vainio, Seppo J.; Yalçın Özuysal, Özden; Brisken, Cathrin; 04.03. Department of Molecular Biology and Genetics; 04. Faculty of Science; 01. Izmir Institute of TechnologyOvarian hormones increase breast cancer risk by poorly understood mechanisms. We assess the role of progesterone on global stem cell function by serially transplanting mouse mammary epithelia. Progesterone receptor (PR) deletion severely reduces the regeneration capacity of the mammary epithelium. The PR target, receptor activator of Nf-κB ligand (RANKL), is not required for this function, and the deletion of Wnt4 reduces the mammary regeneration capacity even more than PR ablation. A fluorescent reporter reveals so far undetected perinatal Wnt4 expression that is independent of hormone signaling. Pubertal and adult Wnt4 expression is specific to PR+ luminal cells and requires intact PR signaling. Conditional deletion of Wnt4 reveals that this early, previously unappreciated, Wnt4 expression is functionally important. We provide genetic evidence that canonical Wnt signaling in the myoepithelium required PR and Wnt4, whereas the canonical Wnt signaling activities observed in the embryonic mammary bud and in the stroma around terminal end buds are independent of Wnt4. Thus, progesterone and Wnt4 control stem cell function through a luminal-myoepithelial crosstalk with Wnt4 acting independent of PR perinatally. Synopsis This paper ascribes a new role for Wnt4 in pre-pubertal mammary gland development while revealing luminal cells to respond to Wnt activation. During regeneration, Wnt4 interacts with progesterone receptor signaling, correcting previous notions on RANKL signaling in this context. Wnt4 is an essential control factor for mammary epithelial stem cell function. RANKL is not required for mammary gland regeneration potential. Wnt4 activates canonical Wnt signaling in the basal/myoepithelial compartment. Progesterone receptor signaling is required for mammary epithelial Wnt4 expression already during puberty. This paper ascribes a new role for Wnt4 in pre-pubertal mammary gland development while revealing luminal cells to respond to Wnt activation. During regeneration, Wnt4 interacts with progesterone receptor signaling, correcting previous notions on RANKL signaling in this context.