Urine is an ideal material to study and examine the bladder cancer (BCa) biomarkers, whereas exploration to the corresponding protein candidates is confronting technique challenges. Herein, we proposed a comprehensive strategy of searching the urine proteins related to BCa. The strategy consists of three core combinations, screening the candidates in the secreted proteins derived from the BCa cell lines and verifying them in the patient urines, defining the differential proteins through two-dimensional electrophoresis (2DE) and isobaric tags for relative and absolute quantitation (iTRAQ), and implementing quantitative analysis in profiling and targeting proteomics. The differential proteins were globally and quantitatively determined between the two typical cell lines of BCa, T24 and 5637, and the immortalized normal uroepithelium cell line, SV-HUC-1, while the BCa related proteins were verified between the relatively normal and patient urines. With proteomic survey combined with 2DE and iTRAQ, a total of 724 secreted proteins were identified as the BCa related proteins. With label-free quantitative proteomics, the 96 candidates were detected in the pooled urine samples. Furthermore, the multiple reaction monitoring (MRM)-based quantification was adapted to verify these urine proteins in individual urines that were collected from 23 BCa patients and 24 relative normal people, and resulted in the 10 urine proteins with significant abundance differences between the two groups. Of the potential indicators for BCa, analysis of receiver operating characteristics (ROC) revealed the combination of complement component 3 (CO3) and lactose dehydrogenase B (LDHB) was more sensitive and efficient to distinguish healthy and disease urine. The discovery of the indicative proteins of BCa through our strategy has thus paved an avenue to further validation of BCa biomarkers in urine.