Abstract
Microcephalic primordial dwarfism (MPD) is a group of autosomal recessive inherited single-gene disorders with intrauterine and postnatal global growth failure. Seckel syndrome is the most common form of the MPD. Ten genes are known with Seckel syndrome. Using genome-wide SNP genotyping and homozygosity mapping we mapped a Seckel syndrome gene to chromosomal region 4q28.1-q28.3 in a Turkish family. Direct sequencing of PLK4 (polo-like kinase 4) revealed a homozygous splicing acceptor site transition (c.31-3 A>G) that results in a premature translation termination (p.[=,Asp11Profs*14]) causing deletion of all known functional domains of the protein. PLK4 is a master regulator of centriole biogenesis and its deficiency has recently been associated with Seckel syndrome. However, the role of PLK4 in genomic stability and the DNA damage response is unclear. Evaluation of the PLK4-Seckel fibroblasts obtained from patient revealed the expected impaired centriole biogenesis, disrupted mitotic morphology, G2/M delay, and extended cell doubling time. Analysis of the PLK4-Seckel cells indicated that PLK4 is also essential for genomic stability and DNA damage response. These findings provide mechanistic insight into the pathogenesis of the severe growth failure associated with PLK4-deficiency.