The prognosis-associated genes of urinary bladder cancer have been systematically investigated in the Pathology Atlas project based on The Cancer Genome Atlas data. However, the biological functions of most genes in bladder cancer remain unknown. The present study investigated the biological function of 12 of the most significant survival-associated genes (
ABRACL, MITD1, ZNF524, EMP1, HSPB6, CXorf38, TRIM38, ZNF182, ZNF195, SPRN, PTPN6
and
LIPT1
) in urothelial cancer reported by the Pathology Atlas project, with respect to cell proliferation and migration.
In vitro
, proliferation and migration analyses of T24 cells were performed following the transfection of the 12 prognostic genes. The results were validated with a small interfering (si)RNA library. Immunohistochemistry (IHC) analysis of clinical samples was performed to determine the association between gene expression and tumor metastasis. Furthermore, RNA sequencing was used to investigate the downstream signals. Among the 12 prognostic genes, MIT-domain containing protein 1 (
MITD1
) transfection was demonstrated to inhibit T24 cell migration to a certain degree. Experiments performed with a 7-gene siRNA library demonstrated that
MITD1
knockdown markedly upregulated cell migratory abilities. Mechanistically, the influence of
MITD1
on cell signal transduction was assessed via RNA sequencing. Cell migration-associated genes, including
KISS1, SPANXB1, SPINT1, PIWIL2, SNAI1, APLN
and
CTHRC1
were dysregulated. IHC analysis demonstrated that MITD1 protein expression was notably lower in metastatic lymph nodes compared with the primary tumors. Taken together, the results of the present study suggest that the prognostic gene,
MITD1
may serve as a migration inhibitor, and be developed as a potential therapeutic target for improving the prognosis of bladder cancer.