Redox‐based control of the γ heavy chain ATPase from Chlamydomonas outer arm dynein

Abstract

The outer dynein arm from Chlamydomonas flagella contains two redox-active thioredoxin-related light chains associated with the α and β heavy chains; these proteins belong to a distinct subgroup within the thioredoxin family. This observation suggested that some aspect of dynein activity might be modulated through redox poise. To test this, we have examined the effect of sulfhydryl oxidation on the ATPase activity of isolated dynein and axonemes from wildtype and mutant strains lacking various heavy chain combinations. The outer, but not inner, dynein arm ATPase was stimulated significantly following treatment with low concentrations of dithionitrobenzoic acid; this effect was readily reversible by dithiol, and to a lesser extent, monothiol reductants. Mutational and biochemical dissection of the outer arm revealed that ATPase activation in response to DTNB was an exclusive property of the γ heavy chain, and that enzymatic enhancement was modulated by the presence of other dynein components. Furthermore, we demonstrate that the LC5 thioredoxin-like light chain binds to the N-terminal stem domain of the α heavy chain and that the β heavy chain-associated LC3 protein also interacts with the γ heavy chain. These data suggest the possibility of a dynein-associated redox cascade and further support the idea that the γ heavy chain plays a key regulatory role within the outer arm. Cell Motil. Cytoskeleton 52:131–143, 2002.