We recently identified activating mutations of fibroblast growth factor receptor 3 (FGFR3) in bladder carcinoma. In this study we assessed the incidence of FGFR3 mutations in a series of 132 bladder carcinomas: 20 carcinoma in situ (CIS), 50 pTa, 19 pT1, and 43 pT2-4. All 48 mutations identified were identical to the germinal activating mutations that cause thanatophoric dysplasia, a lethal form of dwarfism. The S249C mutation, found in 33 of the 48 mutated tumors, was the most common. The frequency of mutations was higher in pTa tumors (37 of 50, 74%) than in CIS (0 of 20, 0%; P < 0.0001), pT1 (4 of 19, 21%; P < 0.0001) and pT2-4 tumors (7 of 43, 16%; P < 0.0001). Bladder cancer is the fourth most common malignancy in men and the ninth most common in women in the Western world. In these countries, more than 90% of bladder tumors are urothelial carcinomas. At the time of initial diagnosis, approximately 80% of urothelial carcinomas are confined to the epithelium (pTa, CIS) or lamina propria (pT1), whereas the remaining 20% invade the muscularis propria (pT2, pT3, pT4). pTa lesions, the most common form of bladder carcinoma, are papillary tumors. Carcinoma in situ (CIS) are flat, cytologically highgrade carcinomas. Primary isolated CIS is a very rare entity, CIS being more commonly associated with other malignant bladder lesions. 1 Clinical evidence and molecular studies suggest that there are two pathways in bladder carcinogenesis responsible for generating two types of urothelium-confined tumors (pTa and CIS) with very different behavior. 1-6 pTa tumors are associated with a high rate of recurrence (50 -75%) but a low probability (Ͻ5%) of progression to lamina propria-invasive (pT1) and muscleinvasive (pT2-4) tumors. CIS may be the most common precursor of invasive bladder cancer because CIS shows a strong tendency to progress (40 -50%), and because most muscle-invasive lesions arise with no history of a pTa precursor lesion. This clinical evidence is supported by various molecular studies showing that CIS and invasive tumors have many genetic alterations in common, such as specific chromosomal deletions and a high frequency of p53 mutations. 2,7 In our search for new markers of carcinoma progression, we recently reported specific missense mutations in a gene encoding a growth factor receptor, fibroblast
Neuroendocrine prostate cancer (NEPC), a lethal form of the disease, is characterized by loss of androgen receptor (AR) signaling during neuroendocrine transdifferentiation, which results in resistance to AR-targeted therapy. Clinically, genomically and epigenetically, NEPC resembles other types of poorly differentiated neuroendocrine tumors (NETs). Through pan-NET analyses, we identified ONECUT2 as a candidate master transcriptional regulator of poorly differentiated NETs. ONECUT2 ectopic expression in prostate adenocarcinoma synergizes with hypoxia to suppress androgen signaling and induce neuroendocrine plasticity. ONEUCT2 drives tumor aggressiveness in NEPC, partially through regulating hypoxia signaling and tumor hypoxia. Specifically, ONECUT2 activates SMAD3, which regulates hypoxia signaling through modulating HIF1α chromatin-binding, leading NEPC to exhibit higher degrees of hypoxia compared to prostate adenocarcinomas. Treatment with hypoxia-activated prodrug TH-302 potently reduces NEPC tumor growth. Collectively, these results highlight the synergy between ONECUT2 and hypoxia in driving NEPC, and emphasize the potential of hypoxia-directed therapy for NEPC patients.
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