Plasma Membrane Association by N-Acylation Governs PKG Function in Toxoplasma gondii

Cyclic GMP (cGMP)-dependent protein kinase (protein kinase G [PKG]) is essential for microneme secretion, motility, invasion, and egress in apicomplexan parasites, However, the separate roles of two isoforms of the kinase that are expressed by some apicomplexans remain uncertain. Despite having identical regulatory and catalytic domains, PKG(I) is plasma membrane associated whereas PKG(II) is cytosolic in Toxoplasma gondii. To determine whether these isoforms are functionally distinct or redundant, we developed an auxin-inducible degron (AID) tagging system for conditional protein depletion in T. gondii. By combining AID regulation with genome editing strategies, we determined that PKG(I) is necessary and fully sufficient for PKG-dependent cellular processes. Conversely, PKG(II) is functionally insufficient and dispensable in the presence of PKG(I). The difference in functionality mapped to the first 15 residues of PKG(I), containing a myristoylated Gly residue at position 2 that is critical for membrane association and PKG function. Collectively, we have identified a novel requirement for cGMP signaling at the plasma membrane and developed a new system for examining essential proteins in T. gondii.