Decreased expression of keratinocyte growth factor receptor in a subset of human transitional cell bladder carcinomas.

Growth factors and growth factor receptors are involved in tumor progression. The fibroblast growth factor receptor 2 gene encodes distinct isoforms. The isoforms which bind KGF (keratinocyte growth factor or FGF-7) are called KGF-R or FGFR2b. KGF-R is expressed in different epithelia and is involved in the control of epithelial-mesenchymal interactions. Expression of KGF-R mRNA was examined in normal human bladder and transitional cell carcinoma of the bladder (TCC) by semi-quantitative RT-PCR using TFIID and GAPDH as internal standards. In normal bladder, the KGF-R mRNA was detected in the urothelium but not in the underlying stroma. In TCCs, the level of KGF-R mRNA was generally either normal or low. Eighteen out of 54 TCCs had a KGF-R mRNA level below 30% of that found in normal urothelium. This decrease in KGF-R mRNA was not accompanied by an increase in BEK (FGFR2c) mRNA, the other major splice variant of the fibroblast growth factor receptor 2 gene. Expression of the KGF-R was also monitored by immunohistochemistry using a functional KGF-immunoglobulin chimera. The receptor was uniformly expressed throughout the normal urothelium except for the umbrella cells. Immunoreactivity for KGF-R was found to be negative in tumors with low levels of KGF-R mRNA, while the peritumoral normal urothelium was positive. Among patients with muscle invasive tumors, those exhibiting a low level of KGF-R mRNA had a significantly higher proportion of cancer deaths. Our results suggest that decreased expression of KGF-R can be considered as a marker of tumor progression in muscle invasive TCCs.

Functions of fibroblast and transforming growth factors in primary organoid-like cultures of normal human urothelium.

Previous studies have indicated that growth factors such as epidermal growth factor, transforming growth factor alpha, and fibroblast growth factor 1 (FGF-1) have important regulatory functions in murine urothelial wound healing and tumorigenesis. Immunocytochemical analyses suggest that these factors are also involved in human urothelium. Yet, little is known about the functional effects of these growth factors on human urothelial cells. We established organoid-like primary cultures of normal human urothelium on porous membranes. Direct functional effects of growth factors were examined on confluent cultures reflecting intact urothelium. Immunocytochemistry was performed with a panel of specific antibodies against growth factors and their receptors on both cultures and the corresponding tissue sections. Lacking the appropriate antibodies, we performed reverse transcriptase PCR to detect FGF receptor mRNA in cultures and dissected tissue. The proliferation was stimulated by transforming growth factor alpha, FGF-1, and weakly by FGF-7, but not by FGF-2. TGF beta 1 inhibited proliferation. In contrast to mouse urothelium, none of the growth factors showed an effect on differentiation. The functional data correlate with the urothelial expression of epidermal growth factor receptors, TGF beta receptor types I and II, the (low) protein expression of FGF receptor 1, and the presence of FGF-7 receptor (FGF receptor 2 (IIIb)) mRNA. The organotypic nature of the cultures permits the study of growth factor interactions between urothelial cells. The data indicate that FGF-1, transforming growth factor alpha, and TGF beta 1 contribute differently to the maintenance of human urothelium.