VACTERL/caudal regression/Currarino syndrome-like malformations in mice with mutation in the proprotein convertasePcsk5
Szumska D., Pieles G., Essalmani R., Bilski M., Mesnard D., Kaur K., Franklyn A., El Omari K., Jefferis J., Bentham J., Taylor JM., Schneider JE., Arnold SJ., Johnson P., Tymowska-Lalanne Z., Stammers D., Clarke K., Neubauer S., Morris A., Brown SD., Shaw-Smith C., Cama A., Capra V., Ragoussis J., Constam D., Seidah NG., Prat A., Bhattacharya S.
We have identified an ethylnitrosourea (ENU)-induced recessive mouse mutation (Vcc) with a pleiotropic phenotype that includes cardiac, tracheoesophageal, anorectal, anteroposterior patterning defects, exomphalos, hindlimb hypoplasia, a presacral mass, renal and palatal agenesis, and pulmonary hypoplasia. It results from a C470R mutation in the proprotein convertase PCSK5 (PC5/6). Compound mutants (Pcsk5Vcc/null) completely recapitulate thePcsk5Vcc/Vccphenotype, as does an epiblast-specific conditional deletion ofPcsk5. The C470R mutation ablates a disulfide bond in the P domain, and blocks export from the endoplasmic reticulum and proprotein convertase activity. We show that GDF11 is cleaved and activated by PCSK5A, but not by PCSK5A-C470R, and thatGdf11-deficient embryos, in addition to having anteroposterior patterning defects and renal and palatal agenesis, also have a presacral mass, anorectal malformation, and exomphalos.Pcsk5mutation results in abnormal expression of several paralogousHoxgenes (Hoxa,Hoxc, andHoxd), and ofMnx1(Hlxb9). These include knownGdf11targets, and are necessary for caudal embryo development. We identified nonsynonymous mutations inPCSK5in patients with VACTERL (vertebral, anorectal, cardiac, tracheoesophageal, renal, limb malformation OMIM 192350) and caudal regression syndrome, the phenotypic features of which resemble the mouse mutation. We propose thatPcsk5, at least in part via GDF11, coordinately regulates caudalHoxparalogs, to control anteroposterior patterning, nephrogenesis, skeletal, and anorectal development.