Qin, Mingyue

Citrus Huanglongbing (HLB), a devastating disease caused by the Gram-negative bacterium ‘ Candidatus Liberibacter asiaticus’ ( C Las), poses serious threats to global citrus production and lacks effective control strategies. Previously, SDE2470 (CLIBASIA_02470) was identified as a Sec-dependent effector that contributes to C Las pathogenesis, although its underlying molecular mechanisms were not fully elucidated. In this study, SDE2470 was found to target a citrus vascular one-zinc-finger transcription factor CsVOZ2. CsVOZ2 overexpression ( CsVOZ2- OE) in transgenic citrus plants significantly suppressed C Las colonization, whereas its RNA interference (RNAi) in citrus hairy roots enhanced susceptibility to C Las. Additionally, CsVOZ2 -OE significantly increased reactive oxygen species (ROS) and abscisic acid (ABA) contents accumulation and activated related genes expression. Further investigation revealed that the E3 ligase CsBTS1 directly interacts with CsVOZ2 and promotes its degradation via the 26S proteasome pathway. CsBTS1E3 -OE in citrus hairy roots markedly enhanced C Las proliferation. Importantly, SDE2470 directly interacts with CsBTS1E3 and strengthen CsBTS1E3-CsVOZ2 interaction. Meanwhile, SDE2470 strengthened the E3 ligase activity of CsBTS1, promoting CsVOZ2 degradation. Taken together, these findings support a model in which SDE2470 hijacks CsBTS1 to destabilize CsVOZ2, thereby disrupting ROS- and ABA-dependent immunity and promoting C Las infection in citrus.

ABSTRACT Citrus Huanglongbing (HLB), a devastating disease caused by the unculturable bacterium ‘ Candidatus Liberibacter asiaticus’ ( C Las), poses a severe threat to global citrus production. C Las secretes effectors to suppress host immune responses and facilitate its colonisation. Previously, the C Las effector SECP8 (CLIBASIA_05330) has been identified as an immune inhibitor. However, its molecular mechanisms on host immune suppression remain unclear. This study identifies the citrus transcription factor CsTCP15 as a target of SECP8. Transgenic citrus plants overexpressing CsTCP15 enhanced resistance to C Las, whereas CsTCP15 ‐RNAi interference plants became more susceptible, confirming its role as a positive immune regulator. Meanwhile, CsTCP15 was demonstrated to directly bind to cis ‐elements of salicylic acid (SA)‐responsive genes CsPR5 and CsWRKY22 , and overexpression of either gene strengthened citrus hairy roots' resistance against C Las. However, SECP8 directly interacts with CsTCP15 and inhibits its homodimerization. Concurrently, mSECP8 facilitates CsBRG3‐mediated degradation and further prevents the dimerization of CsTCP15. This two‐pronged interference eventually impairs the transcriptional activation of CsPR5 and CsWRKY22 , thereby compromising salicylic acid‐mediated immunity and promoting C Las infection. Our findings reveal a virulence strategy whereby a C Las effector manipulates a key host immune regulator to establish pathogenesis.