Immunohistochemical staining of human breast tissues, using an antibody against fibroblast growth factor receptor 3 [FGFR-3], showed differences in cellular distribution. Both malignant and non-malignant epithelial cells contained FGFR-3 immunoreactivity, but myoepithelial cells and stroma were negative. The staining pattern in malignant epithelial cells was predominantly nuclear, whereas epithelial cells in normal breast tissue showed both cytoplasmic and nuclear elements. Reverse transcription-polymerase chain reaction (RT-PCR) revealed two isoforms of FGFR-3 corresponding to the FGFR-3-IIIb variant and a previously described exon-deleted nuclear form of FGFR-3, which were present in both malignant and non-malignant epithelial cells. The higher level of nuclear staining and loss of cytoplasmic staining seen in malignant epithelial cells did not correspond to an increase in expression of the exon-deleted form of FGFR-3, nor to any detectable activating point mutations. Since receptor activation can result in its movement to a perinuclear localization, an alternative explanation for the redistribution of FGFR-3-IIIb could be different degrees of activation by a ligand (FGF1 or FGF9). No FGF9 was detected by immunohistochemistry in breast tissues. FGF1, however, is present in the majority of breast cancers and a different tissue distribution of FGF1 was found in breast tissues, showing predominantly nuclear, or a mix of nuclear and cytoplasmic FGFR-3. The difference in FGFR-3 staining patterns may implicate this ligand-receptor pair in breast cancer.
Members of the Tis11 family of early-response genes are characterized by a high degree of sequence similarity around a putative zinc finger motif. They are induced by a variety of cell agonists and polypeptide mitogens, including 12-O-tetradecanoylphorbol-13-acetate (TPA) and epidermal growth factor (EGF). We describe the cloning and sequencing of a human member of this gene family, EGF-response factor 1 (ERF-1), the homolog of the mouse Tis11b/rat cMG1 genes. The human and rodent genes are similar, with 5' UTR, coding sequence, and 3' UTR highly conserved. The promoter/enhancer region and intron sequences contain multiple putative transcription factor binding motifs characteristic of early-response genes. Amino acid sequence comparison of the seven members of the Tis11 family cloned so far identifies a repeated consensus motif of (x+)YKTELC(x+)x5GxCxYGx(x+)CxFxH involving the potential zinc finger. Toward the carboxyterminal end is a region with a high percentage of prolines (15/73) and, partially overlapping, a serine-rich domain (20/54). These may be important as trans-activation and phosphorylation sites. The 3' untranslated region is unusually long, extending over 1,860 bp. The sequence immediately downstream from the translational stop codon has extensive secondary structure potential. The 3' UTR is 60% AT rich, but contains two GC rich (> 70%) regions. In addition there are multiple reiterations of a destabilization sequence, as well as a single UUAUUUAU motif characteristic of mRNAs specifying proteins involved in the inflammatory response. The mRNA contains a consensus polyadenylation signal.
Suture line recurrence is an important cause of failure after potentially curative resection for colonic carcinoma. Our aim was to determine whether suture technique affected the incidence of perianastomotic tumours in experimentally induced colonic cancer. Sprague-Dawley rats were randomized into three groups. A 1 cm longitudinal colotomy was repaired with four interrupted 6/0 polypropylene monofilament sutures, using either a transmural technique (n = 18) or a seromuscular technique (n = 18). Control animals (n = 18) had a sham laparotomy. All animals received nine, weekly, subcutaneous injections of azoxymethane (total dose 90 mg/kg) starting 6 weeks after laparotomy. Surviving animals were killed 32 weeks after laparotomy. Five animals from each group were given intraperitoneal bromodeoxyuridine (100 mg/kg) 1 h before being killed. At death, perianastomotic tumours occurred more frequently in animals with transmural sutures than in either controls or those with seromuscular sutures. This difference was associated with a greater mucosal bromodeoxyuridine crypt cell labelling index in the transmural suture group. We conclude that a transmural anastomotic suture technique promotes the development of experimental perianastomotic colonic tumours.
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