For example, in cocultured experiments, CAFs extracted from human breast carcinomas were more competent in promoting the growth of admixed breast carcinoma cells than NFs that GSK621 derived from the same patients [22]. Similarly, when exposed to the conditioned medium of pancreatic stellate cells isolated from resected pancreatic adenocarcinoma, pancreatic epithelial cells showed an increase in proliferation,
migration, invasion and colony formation in soft agar in a dose-dependent manner [2, 3]. It is well known that expression of α-SMA is a defining characteristic of myofibroblasts [24], which activates the growth of fibroblasts in areas of inflammation during wound healing [25]. Our results demonstrated that human mammary carcinomas, from which we had extracted CAFs, carried large numbers of myofibroblasts in their stroma. In this study, we found that CAFs up-regulated the proportion of CD44+CD24- cells in mammospheres, whereas NFs down-regulated it in mammospheres, implying that the CAFs have positive effects on CD44+CD24- cell generation, while NFs have negative effects
on it. Furthermore, coinoculation of mammosphere cells with CAFs into NOD/SCID mice significantly increased tumorigenicity selleck kinase inhibitor as compared to those obtained with mammosphere cells alone or with NFs. This might be attributed to the enhanced generation of mammosphere CD44+CD24- cells by CAFs. Importantly, endogenous CXCR4 expression on carcinoma cells is known to correlate with a poor prognosis for several types of carcinomas [26, 27]. The knockdown of CXCR4 expression by a small interfering RNA in breast carcinoma cells
decreases cell invasion and proliferation in vitro and abrogates the tumor growth in vivo [28, 29]. Furthermore, the selective blocking of the CXCR4 by plerixafor overcome the protective effect of the bone marrow environment for BCR-ABL(+) leukemia [30]. Consistent with the above findings, Cytidine deaminase our results suggested that CXCR4 gene is expressed in mammosphere cells at higher levels than that in monolayer cells. So we hypothesized that CAFs enhanced the proliferation of CD44+CD24- cells in secondary mammosphere cells through CXCR4. Essential SDF-1/CXCR4 interactions have been increasingly demonstrated in various CUDC-907 supplier tissues and culture systems and it is possible that SDF-1/CXCR4 initiated different signal pathways for cell proliferation and migration [27, 31, 32]. In malignant tumors, SDF-1/CXCR4 may provide paracrine signals in promoting malignant progression such as metastasis, invasion and cell proliferation [33–35]. We found in this study that SDF-1 was highly released in the conditioned medium of mammosphere cells with CAFs, compared with NFs. In addition, the interaction of SDF-1 released from CAFs and CRCX4 expressed on mammosphere cells is at least partly involved in the proliferation of mammosphere.