Background

The cartilaginous growth plate (GP) is a zonal structure, in which chondrocytes are organized into columns and drive the longitudinal elongation of the endochondral bones. In the proliferative zone (PZ), cells exhibit high mitotic activity, are flattened and oriented along the mediolateral (ML) axis of the GP. Mitotic figures in the elongated chondrocytes lie perpendicular to the proximo-distal (PD) direction of growth, while cell divisions occur parallel to the columns followed by a gliding movement of the daughter cells. The mechanisms responsible for the geometrical anisotropy and columnar arrangement of PZ chondrocytes are poorly understood. Here, we assessed the function of the adhesive receptor β1 integrins on spindle and division geometry in chondrocytes using mouse genetics.