A Primary Microcephaly Protein Complex forms a ring around parental centrioles

Autosomal recessive primary microcephaly (MCPH) is characterised by a significant reduction in prenatal human brain growth, without alteration of cerebral architecture. The genetic aetiology of MCPH is bi-allelic mutations in genes coding for a subset of centrosomal proteins(1-10). While at least three of these proteins have been implicated in centrosome duplication(11), the nature of centrosome dysfunction that underlies the neurodevelopmental defect in MCPH is unclear. Here we report a homozygous MCPH-causing mutation in the human CEP63 gene. CEP63 forms a complex with another MCPH protein, CEP152, a conserved centrosome duplication factor(12-15). Together, they are essential for maintaining normal centrosome numbers in cells. Using super-resolution microscopy we find that CEP63 and CEP152 co-localise in a discrete ring around the proximal end of the parental centriole, a pattern specifically disrupted in CEP63-deficient patient-derived cells. This work suggests that the CEP152-CEP63 ring-like structure ensures normal neurodevelopment and its impairment particularly affects human cerebral cortex growth.