We developed a novel nanostructure DNA probe for the in situ detection of ITGA1 and miR-192 in retinoblastoma (RB) and to study the correlation between ITGA1 and miR-192 expression and RB development. ITGA1 and miR-192 nanostructure DNA probes were carried by silica particles and coated by dioleoyl-trimethy-lammonium-propane, which enhances their organizational compatibility and infiltration capacity. This probe has stable physicochemical properties and high specificity and sensitivity to detect ITGA1 and miR-192 in situ both in RB cell lines and RB tissues. Using ITGA1 and miR-192 nanostructure DNA probes in RB tissue and cell lines, we found that the expression of ITAG1 drastically increased, but to the contrary, miR-192 was not expressed. After transfection, ITGA1 and miR-192 were overexpressed or silenced in RB116 cells, and we found that ITGA1 could effectively increase the activity and invasion of this RB cell line and reduce its apoptosis level, while miR-192 antagonized this tumor-promoting effect. Therefore, miR-192 can be used as an early biomarker of RB, and ITGA1 may be a new prognostic marker and therapeutic target for the treatment of RB.