Inherited defects of piRNA biogenesis cause transposon de-repression, impaired spermatogenesis, and human male infertility

  1. Birgit Stallmeyer
  2. Clara Bühlmann
  3. Rytis Stakaitis
  4. Ann-Kristin Dicke
  5. Farah Ghieh
  6. Luisa Meier
  7. Ansgar Zoch
  8. David MacKenzie MacLeod
  9. Johanna Steingröver
  10. Özlem Okutman
  11. Daniela Fietz
  12. Adrian Pilatz
  13. Antoni Riera Escamilla
  14. Miguel Xavier
  15. Christian Ruckert
  16. Sara Di Persio
  17. Nina Neuhaus
  18. Ali Sami Gurbuz
  19. Ahmend Şalvarci
  20. Nicolas Le May
  21. Kevin McEleny
  22. Corinna Friedrich
  23. Godfried van der Heijden
  24. Margot J. Wyrwoll
  25. Sabine Kliesch
  26. Joris A. Veltman
  27. Csilla Krausz
  28. Stéphane Viville
  29. Donald Conrad
  30. Donal O'Carroll
  31. Frank Tüttelmann
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Abstract

Piwi-interacting RNAs (piRNAs) are crucial for transposon silencing, germ cell maturation, and fertility in male mice. Here, we report on the genetic landscape of piRNA dysfunction in humans and present 39 infertile men carrying biallelic variants in 14 different piRNA pathway genes, including PIWIL1, GTSF1, GPAT2, MAEL, TDRD1, and DDX4 as novel disease genes. The testicular phenotypes repeatedly differ from those of the respective knockout mice and range from complete germ cell loss to the production of a few morphologically abnormal spermatozoa. LINE1 expression in spermatogonia links impaired piRNA biogenesis to transposon de-silencing and serves to classify variants as functionally relevant. Furthermore, an abolished expression of not only the encoded proteins but also of additional piRNA factors reveals co-dependencies within the human pathway. These results establish the disrupted piRNA pathway as a major cause of human spermatogenic failure and provide insights into transposon silencing in human male germ cells.

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