PF20 was first identified in Chlamydomonas rheinhardtii as an essential component of the axoneme central apparatus. We discovered that the mouse Pf20 gene encodes two major transcripts (2.5 and 1.4 kb), which are expressed in different patterns during spermatogenesis, yielding proteins of 71 and 35 kDa, respectively. Both proteins contain contiguous WD repeats in their C termini. The meiotically expressed 71-kDa protein is incorporated into the central apparatus, whereas the 35-kDa protein, which accumulates in postmeiotic male germ cells, is abundant in the nucleus. We disrupted the Pf20 gene domains that encode the C-terminal WD repeats in embryonic stem cells. Highly chimeric mice carrying the mutant Pf20 allele had impaired spermatogenesis with a significant loss of germ cells at the round spermatid stage, in association with disorganization of sperm axoneme structure. The mutated Pf20 allele was never transmitted, indicating that Pf20 haploinsufficiency caused the defects in spermatogenesis. The 35-kDa PF20 protein was shown to bind to meiosis-expressed gene 1 (MEIG1), a chromosome͞chromatin-binding protein initially expressed during meiosis but retained in the germ cell nucleus throughout later stages of spermatogenesis. Our findings reveal an essential role for Pf20 in mouse spermatogenesis, sustaining postmeiotic germ cell viability. The different patterns of expression of the two PF20 proteins suggest the possibility that the Pf20 gene has multiple functions during spermatogenesis.A xonemes, critical components of cilia and flagella, have a structure consisting of nine outer doublet microtubules encircling a central pair of microtubules, which has remained virtually unchanged during evolution (1-3). Defective assembly or function of axonemes results in immotile cilia, which causes defects in lateralization, respiratory disease, hydrocephalus, and infertility (4-7). The best-studied mutations in mammals that cause immotile cilia are in genes encoding dynein arm proteins, which generate the force that drives axonemal motility (8-10). Less is known about other axonemal proteins, especially those of the central pair. However, studies of Chlamydomonas rheinhardtii revealed important roles for the central apparatus. Mutant Chlamydomonas strains lacking functional PF16, PF6, and PF20 have paralyzed flagella, and the C1 microtubule, the projections connecting the C1 microtubule and the entire central pair, respectively, are missing in isolated axonemes (11)(12)(13).To understand the function of the central apparatus in mammals, we cloned the human and mouse orthologues of Chlamydomonas, PF16 (SPAG6) (14, 15) and PF20 (16). SPAG6-deficient mice are hydrocephalic, and males surviving to maturity are infertile as a result of a marked sperm motility defect associated with disorganization of flagellar structures, including loss of the central pair microtubules and disorganization of the outer dense fibers and fibrous sheath (6). These observations suggested an important role for central apparatus proteins in mammali...
