Previous experimental evidence has indicated that the loss of Bmf causes defects in uterovaginal development, e.g. an imperforate vagina and hydrometrocolpos [22]. We analysed phenotypic abnormalities of Bim–/– animals in the anal canal. Animals were kept in IVC under SPF conditions. Rectum prolapses were found in 18 of 104 Bim–/– animals (Fig. 1a,b) which have not been used for breeding; anal bleeding was observed in those mice. No increase in collagen deposition in Bim–/– colon was detectable by Sirius red and Elastica von Giesson staining (not shown). Analysis of the length of collagen fibrils by polarized

light microscopy Selleck VX-765 also revealed no change in Bim–/– animals with prolapse compared to wild-type mice without prolapse. Colon length was not altered in Bim–/– animals compared to wild-type mice (8·0 ± 1·0, n = 18 versus 7·9 ± 0·8, n = 15, respectively, not shown). Transepithelial resistance was measured at a 1–2 cm distance from the distal end of the colon. Transepithelial resistance was not altered in Bim–/– animals compared to wild-type mice (35 ± 5 Ω × cm2, n = 5 versus 39 ± 6 Ω × cm2, n = 5, respectively, female mice without rectum prolapse, not shown). Previous experimental evidence has reported impaired cell death of lymphocytes in the absence of Bim [18]. We analysed peripheral blood from seven wild-type

check details controls and seven Bim–/– mice on an ADVIA 2120i haematology system (Siemens AG, Munich, Germany). The total number of leucocytes was increased significantly in Bim–/– mice compared to wild-type controls (8·21 ± 2·52 × 109 cells/l versus 1·66 ± 0·48 × 109 cells/l, P < 0·001). Total

numbers of lymphocytes (6·61 ± 2·90 × 103 cells/μl versus 1·24 ± 0·34 × 103 cells/μl, P < 0·001), neutrophilic leucocytes (1·20 ± 1·27 × 103 cells/μl versus 0·28 ± 0·25 × 103 cells/μl, P < 0·001) and eosinophilic leucocytes (0·24 ± 0·20 × 103 cells/μl versus 0·06 ± 0·03 × 103 cells/μl, P < 0·001) were increased significantly in Bim–/– mice compared to wild-type controls. In contrast, the proportion of monocytes was decreased significantly in Bim–/– mice compared to wild-type controls (0·91 ± 0·30 versus 2·73 ± 1·24, P < 0·001). Consistently, we observed a significant difference in the spleen Lenvatinib ic50 weight between Bim–/– and wild-type mice (spleen weight/body weight 7·7 ± 0·9 mg/g, n = 10 versus 4·2 ± 0·4 mg/g, n = 5; respectively, P < 0·05, Fig. 3a). As we found rectum prolapses, anal bleeding and a significant increase in the spleen weight in our Bim–/– animals, we focused on Bim dependence of intestinal inflammation and lymphocyte apoptosis in chronic DSS-induced colitis. Upon chronic DSS-induced colitis, the weight loss of Bim–/– mice was significantly higher compared to wild-type mice during the last days before the animals were killed (Fig. 2a). The macroscopic mucosal damage was assessed by colonoscopy and MEICS [20].