Knockout mouse models of sperm flagellum anomalies

D Escalier - Human reproduction update, 2006 - academic.oup.com
D Escalier
Human reproduction update, 2006academic.oup.com
To date, 21 knockout mouse models are known to bear specific anomalies of the sperm
flagellum structures leading to motility disorders. In addition, genes responsible for flagellar
defects of two well-known spontaneous mutant mice have recently been identified. These
models reveal genetic factors, which are required for the proper assembly of the axoneme,
the annulus, the mitochondrial sheath and the fibrous sheath. Many of these genetic factors
follow unexpected cellular pathways to act on sperm flagellum morphogenesis. These …
Abstract
To date, 21 knockout mouse models are known to bear specific anomalies of the sperm flagellum structures leading to motility disorders. In addition, genes responsible for flagellar defects of two well-known spontaneous mutant mice have recently been identified. These models reveal genetic factors, which are required for the proper assembly of the axoneme, the annulus, the mitochondrial sheath and the fibrous sheath. Many of these genetic factors follow unexpected cellular pathways to act on sperm flagellum morphogenesis. These mouse models may bear anomalies which are restricted to the spermatozoa or display more complex phenotypes that often include neuropathies and/or cilia-related diseases. In human, several structural disorders of the sperm flagellum found in brothers or consanguineous men probably have a genetic origin, but the genes involved have not yet been identified. The mutant mice we present in this review are invaluable models, which can be used to identify potential candidate genes for infertile men with specific sperm flagellum anomalies.
Oxford University Press