Gold nanoparticles (AuNPs) have interesting physical and optical property on surface plasmon resonance (SPR). Especially, AuNPs display different absorption spectra when the AuNPs possess different sizes, shapes, or being functionalized with chemical molecules. In this study, an optical biosensing platform was established and was based on the SPR property of AuNPs for the measurement of proteinase activity. First, the 13 nm AuNPs was modified with gelatin as proteinase substrate and then modified with 6-mercapto-1-hexanol (MCH) as an inducer. When AuNPs was modified with gelatin and MCH (AuNPs/MCH-gelatin), the gelatin increased the steric repulsion of AuNPs, and prevented the AuNPs surfaces from coming into close contact. For this reason, the AuNPs/MCH-gelatin could disperse in solution, and exhibited a dramatic stability in strict environment. After the proteinase (trypsin or matrix metalloproteinase-2 [MMP-2]) digested the substrate on AuNPs/MCH-gelatin, the AuNPs lost shelter and MCH increased the attraction force between AuNPs. Therefore, the AuNPs were close to each other and gradually resulted in aggregation. The AuNPs aggregation could be monitored by a red-shift in surface plasmon absorption and color would change from wine-red to violet-purple. Furthermore, the color change can be observed by naked eyes, and the maximum wavelength (λmax) was measured by the UV/Vis spectroscopy. In the AuNPs-based optical biosensing platform, the absorption ratio (A625 nm/A525 nm) of AuNPs was used to quantitively estimate the proteinase activity, and a linear range of trypsin detected by the AuNPs-based optical biosensing platform was from 5 × 10-1 to 5 × 102 U and with a detection limit of 5 × 10-1 U. A linear correlation was established when the MMP-2 activity was from 50 ng/mL to 600 ng/mL, and with a detection limit of 50 ng/mL. Besides, two MMP-2 inhibitors, galardin and ONO-4817, were used in this study for feasibility analysis of drugs screening. In the AuNPs-based method, the MMPs activity for IC50 values of galardin and ONO-4817 were 1.87 nM and 17.76 nM, respectively. In comparision with zymography, MMP-2 activity for IC50 values of galardin and ONO-4817 were 3.48 and 14.33 nM, respectively. The result of the AuNPs-based method was consistent with that of zymography method. Furthermore, the AuNPs-based method can shorten detection time to less than 30 min. Thus, the rapid and sensitive novel AuNPs-based optical biosensing platform had potential for further applications in anti-MMPs drug screening and for MMP-related diseases diagnosis.