Mouse HORMAD1 and HORMAD2, Two Conserved Meiotic Chromosomal Proteins, Are Depleted from Synapsed Chromosome Axes with the Help of TRIP13 AAA-ATPase

Abstract: Meiotic crossovers are produced when programmed double-strand breaks (DSBs) are repaired by recombination from homologous chromosomes (homologues). In a wide variety of organisms, meiotic HORMA-domain proteins are required to direct DSB repair towards homologues. This inter-homologue bias is required for efficient homology search, homologue alignment, and crossover formation. HORMA-domain proteins are also implicated in other processes related to crossover formation, including DSB formation, inhibition of prom… Show more

“…Because the Cdc20-Mad2 substrate used in our assay contained p31 comet (necessary for the release of the subcomplex from MCC), TRIP13 seemed to be a likely candidate. Indeed, immunoblotting of MonoQ column fractions with anti-TRIP13 showed an exact coincidence of the peak of the elution of TRIP13 protein with that of Cdc20-Mad2 dissociating activity, with both centered in fractions [25][26] (Fig. 1B).…”

“…In some instances, an AAA-ATPase can bind to different adaptor proteins, thus changing its substrate specificities and cellular functions (19). In the case of the TRIP13 AAA-ATPase and of its homologs, a role in meiotic recombination has been reported in mice, yeast, worms, and plants (25)(26)(27)(28). This function has been explained by their action to dislocate certain proteins from Recombinant Cdc20-Mad2 complex was expressed and purified as described in Materials and Methods and was added to the assay at 2 nM.…”

“…2A. chromatin (26)(27)(28). A different function of TRIP13 has been suggested by a proteomic data mining study that identified it as a kinetochore protein that interacts with p31 comet (16).…”

Disassembly of mitotic checkpoint complexes by the joint action of the AAA-ATPase TRIP13 and p31 ^comet

“…Because the Cdc20-Mad2 substrate used in our assay contained p31 comet (necessary for the release of the subcomplex from MCC), TRIP13 seemed to be a likely candidate. Indeed, immunoblotting of MonoQ column fractions with anti-TRIP13 showed an exact coincidence of the peak of the elution of TRIP13 protein with that of Cdc20-Mad2 dissociating activity, with both centered in fractions [25][26] (Fig. 1B).…”

“…In some instances, an AAA-ATPase can bind to different adaptor proteins, thus changing its substrate specificities and cellular functions (19). In the case of the TRIP13 AAA-ATPase and of its homologs, a role in meiotic recombination has been reported in mice, yeast, worms, and plants (25)(26)(27)(28). This function has been explained by their action to dislocate certain proteins from Recombinant Cdc20-Mad2 complex was expressed and purified as described in Materials and Methods and was added to the assay at 2 nM.…”

“…2A. chromatin (26)(27)(28). A different function of TRIP13 has been suggested by a proteomic data mining study that identified it as a kinetochore protein that interacts with p31 comet (16).…”

Disassembly of mitotic checkpoint complexes by the joint action of the AAA-ATPase TRIP13 and p31 ^comet

“…A third organizational axes layer is made by the HORMA-domain proteins HORMAD1 and HORMAD2. They preferentially bind to unsynapsed chromosome axes and become displaced from the AEs by synapsis formation in a TRIP13-dependent manner (Wojtasz et al 2009). A Hormad1 -/-mutant mouse model suggests that the HORMADs function in a meiotic "synapsis" checkpoint.…”

Evolutionary history of the mammalian synaptonemal complex

“…Recently a Pch2 orthologue (TRIP13) has also been identified in mice. The analyses of these mutants revealed that TRIP13 is required for the removal of HORMAD1 from synapsed axes [34], completed homologous synapses, and DSB repair, indicating that at least some of the functions of Pch2 are conserved in mammals. However a specific role in inter-homolog vs. sister bias has not been ascertained [35].…”

Meiotic double strand breaks repair in sexually reproducing eukaryotes: We are not all equal