The telomeric protein SNM1B/Apollo is required for normal cell proliferation and embryonic development

Conserved metallo β‐Lactamase and β‐CASP (CPSF‐Artemis‐Snm1‐Pso2) domain nuclease family member SNM1B/Apollo is a shelterin‐associated protein that localizes to telomeres through its interaction with TRF2. To study its in vivo role, we generated a knockout of SNM1B/Apollo in a mouse model. Snm1B/Apollo homozygous null mice die at birth with developmental delay and defects in multiple organ systems. Cell proliferation defects were observed in Snm1B/Apollo mutant mouse embryonic fibroblasts (MEFs) owing to high levels of telomeric end‐to‐end fusions. Deficiency of the nonhomologous end‐joining (NHEJ) factor Ku70, but not p53, rescued the developmental defects and lethality observed in Snm1B/Apollo mutant mice as well as the impaired proliferation of Snm1B/Apollo‐deficient MEFs. These findings demonstrate that SNM1B/Apollo is required to protect telomeres against NHEJ‐mediated repair, which results in genomic instability and the consequent multi‐organ developmental failure. Although Snm1B/Apollo‐deficient MEFs exhibited high levels of apoptosis, abrogation of p53‐dependent programmed cell death did not rescue the multi‐organ developmental failure in the mice.