Abstract
While cancer-associated fibroblasts (CAFs) in the tumour microenvironment may play important roles in bladder cancer (BCa) progression, their impacts on BCa chemoresistance remain unclear. Using human BCa samples, we found that tumour tissues possessed more CAFs than did adjacent normal tissues. Both the presence of CAFs in the BCa stroma and the expression of ERβ in BCa contribute to chemoresistance, and CAFs and BCa cells interact to affect ERβ expression. In vitro co-culture assays demonstrated that compared with normal bladder cells, BCa cells had a higher capacity to induce the transformation of normal fibroblasts into CAFs. When BCa cells were co-cultured with CAFs, their viability, clone formation ability and chemoresistance were increased, whereas their apoptotic rates were downregulated. Dissection of the mechanism revealed that the recruited CAFs increased IGF-1/ERβ signalling in BCa cells, which then led to the promotion of the expression of the anti-apoptotic gene Bcl-2. Blocking IGF-1/ERβ/Bcl-2 signalling by either an shRNA targeting ERβ or an anti-IGF-1 neutralizing antibody partially reversed the capacity of CAFs to increase BCa chemoresistance. The in vivo data also confirmed that CAFs could increase BCa cell resistance to cisplatin by increasing ERβ/Bcl-2 signalling. The above results showed the important roles of CAFs within the bladder tumour microenvironment, which could enhance BCa chemoresistance.
Highlights
Bladder cancer (BCa) is one of the most common types of urinary tract malignancy[1]
At the time of radical cystectomy (RC) after neo-adjuvant chemotherapy (NAC), 7 (25.0%) patients were identified as having a pathologic complete response, 12 (42.9%) patients were identified as having a pathologic partial response, and 9 (32.1%) patients were identified as having a pathologic non-response
(see figure on previous page) Fig. 4 cancer-associated fibroblasts (CAFs) could decrease BCa apoptosis induced by cisplatin via upregulation of ERβ/Bcl-2 signalling. a qRT-PCR results showed increased ERβ expression in BCa cells (T24 and 5637) after co-culture with CAFs
Summary
Bladder cancer (BCa) is one of the most common types of urinary tract malignancy[1]. Approximately 30% of patients are diagnosed with muscleinvasive BCa (MIBC)[2]. Chemotherapy is a major treatment choice for MIBC patients, especially for high-risk patients, and this approach can effectively inhibit tumour growth and postpone tumour recurrence[3,4]. Cisplatin serves as the first-line chemotherapy for advanced BCa. most patients benefit little from chemotherapy due to chemoresistance[3].
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