Intrabiliary growth by metastatic colorectal carcinoma (CRC) is an unusual finding that can clinically mimic cholangiocarcinoma. We evaluated prevalence of intrabiliary growth by retrospective review of 1596 diagnostic reports and by prospective evaluation of 223 hepatectomies. Positive cases were scored for extent of intrabiliary growth (major vs. minor duct involvement), architectural pattern (colonization of biliary epithelium and/or intrabiliary tumor plugs), and secondary sclerosing cholangitis in non-neoplastic parenchyma. By retrospective review, we identified intrabiliary growth in 41 (3.6%) of 1144 metastatic CRCs but only 3 (0.7%) of 452 noncolorectal tumors (P<0.001). Prospectively, we found intrabiliary growth in 18 (10.6%) of 170 metastatic CRCs and 1 (1.9%) of 53 other tumors (P=0.05). Among our final population of 43 CRCs with intrabiliary growth, 24 (56%) had major and 19 (44%) had minor duct involvement, 35 (81%) showed colonization of biliary epithelium, and 35 (81%) showed intrabiliary tumor plugs. Compared with minor duct involvement and 51 controls without intrabiliary growth, major duct involvement was more likely to produce obstructive liver chemistries (P=0.004), radiographic evidence of biliary disease (P<0.0001), and sclerosing cholangitis in non-neoplastic liver (P<0.0001). However, there was no impact on overall survival. Clinically, 5 (21%) cases of major duct involvement resulted in diagnostic uncertainty between metastatic CRC and cholangiocarcinoma. These findings underscore the frequency of intrabiliary growth by metastatic CRCs and its rarity with other metastases. Major duct involvement should be recognized because of its distinctive clinical features, which can overlap with cholangiocarcinoma.

Neuroendocrine carcinoma (NEC) of the breast is a rare type of carcinoma that has not been well studied or characterized. Of the limited number of studies reported in the literature, most are case reports. A few small retrospective series studies have been reported.

The physiological role of the mitotic checkpoint protein Bub1 is unknown. To study this role, we generated a series of mutant mice with a gradient of reduced Bub1 expression using wild-type, hypomorphic, and knockout alleles. Bub1 hypomorphic mice are viable, fertile, and overtly normal despite weakened mitotic checkpoint activity and high percentages of aneuploid cells. Bub1 haploinsufficient mice, which have a milder reduction in Bub1 protein than Bub1 hypomorphic mice, also exhibit reduced checkpoint activity and increased aneuploidy, but to a lesser extent. Although cells from Bub1 hypomorphic and haploinsufficient mice have similar rates of chromosome missegregation, cell death after an aberrant separation decreases dramatically with declining Bub1 levels. Importantly, Bub1 hypomorphic mice are highly susceptible to spontaneous tumors, whereas Bub1 haploinsufficient mice are not. These findings demonstrate that loss of Bub1 below a critical threshold drives spontaneous tumorigenesis and suggest that in addition to ensuring proper chromosome segregation, Bub1 is important for mediating cell death when chromosomes missegregate.