Loss-of-function mutations in CFAP57 cause multiple morphological abnormalities of the flagella in humans and mice
Ao Ma, Jianteng Zhou, Haider Ali, Tanveer Abbas, Imtiaz Ali, Zubair Muhammad, Sobia Dil, Jing Chen, Xiongheng Huang, Hui Ma, Daren Zhao, Beibei Zhang, Yuanwei Zhang, Wasim Shah, Basit Shah, Ghulam Murtaza, Furhan Iqbal, Muzammil Ahmad Khan, Asad Khan, Qing Li, Bo Xu, Limin Wu, Huan Zhang, Qinghua Shi
Ao Ma, Jianteng Zhou, Haider Ali, Tanveer Abbas, Imtiaz Ali, Zubair Muhammad, Sobia Dil, Jing Chen, Xiongheng Huang, Hui Ma, Daren Zhao, Beibei Zhang, Yuanwei Zhang, Wasim Shah, Basit Shah, Ghulam Murtaza, Furhan Iqbal, Muzammil Ahmad Khan, Asad Khan, Qing Li, Bo Xu, Limin Wu, Huan Zhang, Qinghua Shi
View: Text | PDF
Research Article Reproductive biology

Loss-of-function mutations in CFAP57 cause multiple morphological abnormalities of the flagella in humans and mice

Abstract

Multiple morphological abnormalities of the sperm flagella (MMAF) are the most severe form of asthenozoospermia due to impaired axoneme structure in sperm flagella. Dynein arms are necessary components of the sperm flagellar axoneme. In this study, we recruited 3 unrelated consanguineous Pakistani families with multiple MMAF-affected individuals, who had no overt ciliary symptoms. Whole-exome sequencing and Sanger sequencing identified 2 cilia and flagella associated protein 57 (CFAP57) loss-of-function mutations (c.2872C>T, p. R958*; and c.2737C>T, p. R913*) recessively segregating with male infertility. A mouse model mimicking the mutation (c.2872C>T) was generated and recapitulated the typical MMAF phenotype of CFAP57-mutated individuals. Both CFAP57 mutations caused loss of the long transcript-encoded CFAP57 protein in spermatozoa from MMAF-affected individuals or from the Cfap57-mutant mouse model while the short transcript was not affected. Subsequent examinations of the spermatozoa from Cfap57-mutant mice revealed that CFAP57 deficiency disrupted the inner dynein arm (IDA) assembly in sperm flagella and that single-headed IDAs were more likely to be affected. Thus, our study identified 2 pathogenic mutations in CFAP57 in MMAF-affected individuals and reported a conserved and pivotal role for the long transcript-encoded CFAP57 in IDAs’ assembly and male fertility.

Authors

Ao Ma, Jianteng Zhou, Haider Ali, Tanveer Abbas, Imtiaz Ali, Zubair Muhammad, Sobia Dil, Jing Chen, Xiongheng Huang, Hui Ma, Daren Zhao, Beibei Zhang, Yuanwei Zhang, Wasim Shah, Basit Shah, Ghulam Murtaza, Furhan Iqbal, Muzammil Ahmad Khan, Asad Khan, Qing Li, Bo Xu, Limin Wu, Huan Zhang, Qinghua Shi

×

Figure 2

CFAP57 loss-of-function variants identified in MMAF cases.

Options: View larger image (or click on image) Download as PowerPoint
CFAP57 loss-of-function variants identified in MMAF cases. (A) CFAP57 v...
(A) CFAP57 variants are located in the regions of homozygosity (RoHs) of affected individuals. RoHs are marked in red. (BD) Verification of the CFAP57 variants, p.R958* (NC_000001.10:g.43692660C>T) in family 1 (B) and p.R913* (NC_000001.10:g.43689747C>T) in family 2 (C) and family 3 (D), by Sanger sequencing using genomic DNA from all the available family members. Arrowheads, the mutation sites; F, female; M, male; WT, wild-type allele; MT, the mutant allele; M1, c.2872C>T; M2, c.2737C>T. (E) The positions of the 2 variants in CFAP57 at transcript level (NM_001195831.2) and protein level (NP_001182760.2). (F) Representative images of spermatozoa from a fertile control and P7 costained by anti–α-tubulin antibodies and anti-CFAP57 antibodies. Scale bars represent 10 μm.