The remodeling of the extracellular matrix (ECM) by proteases releases fragments that promote tumor progression and metastasis. The protease cathepsin D (cath-D), a marker of poor prognosis in triple-negative breast cancer (TNBC), is aberrantly secreted in the ECM. Using degradomics, we discovered that the matricellular protein SPARC is a substrate of extracellular cath-D. In vitro, cath-D induced limited proteolysis of SPARC C-terminal extracellular Ca2+ binding domain at acidic pH, leading to the production of SPARC fragments (34-, 27-, 16-, 9-, and 6-kDa). Cath-D secreted by TNBC cells cleaved fibroblast- and cancer cell-derived SPARC at the tumor pericellular pH. SPARC cleavage also occurred in TNBC tumors. Among these fragments, the 9-kDa SPARC fragment inhibited TNBC cell adhesion and spreading, and stimulated their migration, endothelial transmigration and invasion more potently than full-length SPARC. Our study establishes a novel crosstalk between proteases and matricellular proteins in the ECM through limited proteolysis of SPARC, revealing a novel targetable 9-kDa bioactive SPARC fragment for TNBC.