Activation of Rho-associated protein kinase 1 (ROCK1) and myotonic dystrophy kinase-related CDC42-binding kinase alpha (MRCKα) by caspases during apoptosis in vertebrates represents a prototypical example of co-option of kinases by proteases. How caspases acquired the ability to control these proteins during evolution of vertebrates is still unknown. Here, we report a phylogenetic and molecular study on the acquisition of caspase-cleavage sites in the family of Rho-activated kinases (RaKs). We demonstrate that the acquisition of such sites has more frequently occurred in identifiable intrinsically disordered regions (IDRs) within or flanking the coiled-coil domain. Thanks to computational identification of IDRs in protein sequences of different organisms, we predicted and validated the independent evolution of two caspase-cleavage sites in ROCK of arthropods and the loss of one of the MRCKα caspase-cleavage sites in ray-finned fishes. In conclusion, we shed light on the propensity of RaKs to evolve novel proteolytic sites, causing kinase activation and uniform subcellular distribution.

Irreversible activation of Rho-activated kinases resulted from evolution of proteolytic sites within disordered regions in coiled-coil domain

Armando Gagliardi, Paolo;Primo, Luca
Last
2019

Abstract

Activation of Rho-associated protein kinase 1 (ROCK1) and myotonic dystrophy kinase-related CDC42-binding kinase alpha (MRCKα) by caspases during apoptosis in vertebrates represents a prototypical example of co-option of kinases by proteases. How caspases acquired the ability to control these proteins during evolution of vertebrates is still unknown. Here, we report a phylogenetic and molecular study on the acquisition of caspase-cleavage sites in the family of Rho-activated kinases (RaKs). We demonstrate that the acquisition of such sites has more frequently occurred in identifiable intrinsically disordered regions (IDRs) within or flanking the coiled-coil domain. Thanks to computational identification of IDRs in protein sequences of different organisms, we predicted and validated the independent evolution of two caspase-cleavage sites in ROCK of arthropods and the loss of one of the MRCKα caspase-cleavage sites in ray-finned fishes. In conclusion, we shed light on the propensity of RaKs to evolve novel proteolytic sites, causing kinase activation and uniform subcellular distribution.
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Armando Gagliardi, Paolo; Primo, Luca
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Utilizza questo identificativo per citare o creare un link a questo documento: http://hdl.handle.net/2318/1729758
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