Separase plays a central role in chromosome separation during mitosis and in centrosome cycle. Tight control of separase activity is required to prevent unscheduled resolution of sister chromatid cohesion and centrosome aberrations, thereby preserving genome stability. In mammals, despite their disassembly in early mitosis, some nuclear envelope components possess mitotic roles, but links with separase activity remain unexplored. Here, we uncover a new mechanism of separase regulation involving lamin B1, a key nuclear envelope factor. We show that separase and lamin B1 associate preferentially during early stages of mitosis. Importantly, lamin B1 depletion leads to an increase in separase recruitment on chromosomes together with premature chromatid separation, a phenotype reminiscent of separase overexpression. Conversely, similar to separase depletion, lamin B1 overexpression induces formation of diplochromosomes- resulting from chromatid separation failure-, in association with centrosome amplification. Importantly, increasing separase level prevents lamin B1-induced centrosome aberrations, suggesting a separase defect at their origin. Indeed, we show that overexpression of lamin B1 leads to a decrease in the recruitment of separase to the chromosome and a delay in its activity. Taken together, this study unveils a novel mechanism of separase regulation involving the nuclear envelope factor lamin B1, that is crucial for genome integrity maintenance.