Exact centriole counts are critical for B cell development but not function

Centrioles define centrosome structure and function. Deregulation of centriole numbers can cause developmental defects and foster malignant disease. The p53 tumor suppressor limits the growth of cells lacking or harboring additional centrioles and can be engaged by the “mitotic surveillance” or the “PIDDosome pathway”, respectively. Here, we show that early B cell progenitors frequently present extra centrioles that are rapidly lost during maturation. Increasing centriole counts beyond physiological levels by Polo-like kinase 4 (PLK4) overexpression induces apoptosis, suggesting clearance of such cells during development. Remarkably, this apoptotic response is independent of PIDD1 or p53, but can be blocked by excess BCL2. In contrast, loss of centrosomes upon Plk4 deletion arrests B cell development at the pro B cell stage. This defect can be rescued by co-deletion of Usp28 , a critical component of the mitotic surveillance pathway that restores cell number and function in the absence of centrioles. In both scenarios, too many and too few centrosomes, mitochondrial apoptosis is engaged to kill B cells with abnormal centriole counts during their development with progenitor B cells being intolerant to centriole loss but permissive to centriole amplification. Unexpectedly, our findings show that centrioles are dispensable for mounting an effective humoral immune response.