. Author manuscript; available in PMC: 2015 Jul 1.

Published in final edited form as: Nat Rev Cancer. 2015 Jan;15(1):42–54. doi: 10.1038/nrc3858

Table 3.

GEM models of bladder cancer

Allele name	Method for targeting to bladder^b	Description	Phenotype	Ref.
Transgenic models
UPII-SV40T^a	Uroplakin II Promoter	Expression of SV40 large T antigen	CIS	^{126, 127}
UPII-SV40T high	Uroplakin II Promoter		CIS with progression to invasion, in some cases metastasis	¹²⁶
CK19-SV40T	Cytokeratin 19		CIS with progression to invasion, in some cases metastasis	¹²⁹
UPII-Ha-Ras^Q61L	Uroplakin II	Expression of mutant (active) H-Ras	Papillary non-invasive cancer	¹³¹
UPII-EGFR		Expression of EGFR	Hyperplasia	¹³²
UPII-SV40T low; EGFR		Expression of SV40 large T combined with EGFR	High-grade non-invasive cancer	¹³²
UPII-p53DN		Expression of mutant (active) p53	Hyperplasia	¹³⁵
UPII-Ha-rasQ61L; p53DN		Mutant (active) H-Ras combined with mutant (active) allele of p53	Hyperplasia with localized dysplasia	¹³⁵
UPII-Ha-rasQ61L; p53-null		Mutant H-Ras combined with a germline null allele of p53	Papillary non-invasive cancer	¹³⁵
Models using Cre Drivers expressed in the urothelium
β-catenin^exon3/exon3	UroII-Cre allele	Mutant (active) allele of β-catenin	Hyperplasia	¹³⁶
β-catenin^exon3/exon3; Pten^flox/flox		Mutant (active) allele of β-catenin combined with loss of function of Pten	Papillary non-invasive cancer	¹³⁶
β-catenin^exon3/exon3; K-rasG12D		Mutant (active) allele of β-catenin combined with mutant (active) Kras	Papillary non-invasive cancer	¹³⁷
β-catenin^exon3/exon3; H-rasQ61L		Mutant (active) allele of β-catenin combined with mutant (active) Ha-ras	Papillary non-invasive cancer	¹³⁷
β-catenin^exon3/exon3; p21^−/−		Mutant (active) allele of β-catenin combined with germline null allele of p21	Papillary non-invasive cancer	¹³⁷
Fgfr3^+/K644E; Pten^{flox /flox}		Mutant (active) allele of Fgfr3 combined with loss of function of Pten	Hyperplasia with localized dysplasia	¹⁴⁰
UPII-Ha-rasQ61L; CDKN2A null		Mutant H-Ras combined with a germline null allele of INK4a/Arf	Hyperplasia	¹³⁴
Ncstn^flox/flox	UPII-Cre-GFP	Bladder-restricted deletion of Nicastrin, which abrogates Notch function	Hyperplasia and CIS	¹³⁹
Models using Cre Drivers that are not specific for bladder
β-catenin^exon3/+	Msx2rtTA;tetO-Cre	Mutant (active) allele of β-catenin	Papillary non-invasive cancer	⁵⁸
Pten^{flox /flox}	Fabp-Cre	Conditional loss of function Pten	Papillary non-invasive cancer	¹⁵⁰
Lkb1^flox/flox; Pten^flox/flox	AhCreER	Conditional loss of function of Lkb and Pten	Papillary non-invasive cancer	¹⁴¹
Ncstn^flox/flox	Rosa26rtTA;tet O-Cre	Systemic deletion of Nicastrin, which abrogates Notch function	Muscle-invasive bladder cancer	¹³⁹
Models using delivery of Adeno-Cre to the bladder
p53^flox/flox; Pten^flox/flox	AdenoCre delivery (via surgery)	Conditional loss of function of p53 and Pten	Muscle-invasive bladder cancer with frequent metastasis	¹¹²
p53^flox/flox; K-rasG12D	AdenoCre delivery (via instillation)	Mutant (active) allele of β-catenin combined with mutant (active) Kras	Hyperplasia	¹⁴³
Rb^flox/flox; p130^flox/flox p107^−/−	AdenoCre delivery (via surgery)	Loss of function of all retinoblastoma genes	Papillary non-invasive cancer	¹⁵⁹

Notes:

Note that distinct uroplakin 2 promoters were used to develop these SV40 large T antigen models.

References for relevant Cre alleles: are as follows: UroII-Cre ¹⁶⁰; Fabp-Cre ¹⁵⁰; AhCreER ¹⁴¹; UPKII-Cre ¹²⁷; Upk2-CreERT2 ¹⁶¹; UPK3a-GFP-CreERT2 ²⁰; UPII-Cre-GFP ¹³⁹.