Differential plant cell responses to Acidovorax citrulli T3SS and T6SS reveal an effective strategy for controlling plant-associated pathogens

Kan, Yumin1; Zhang, Yanjie1; Lin, Wenhui1; Dong, Tao2

2023-06-01

10.1128/mbio.00459-23

MBIO   影响因子和分区

2150-7511

["Chemical pesticides are widely used to protect crops from various pathogens. Still, their extensive use has led to severe consequences, including drug resistance and environmental contamination. Here, we show that an engineered T6SS-active, but avirulent mutant of Acidovorax citrulli has strong inhibition capabilities against several pathogenic bacteria, demonstrating an effective strategy that is an alternative to chemical pesticides for sustainable agricultural practices.","Acidovorax citrulli is a gram-negative plant pathogen that employs the type III secretion system (T3SS) to infect cucurbit crops and cause bacterial fruit blotch. This bacterium also possesses an active type Ⅵ secretion system (T6SS) with strong antibacterial and antifungal activities. However, how plant cells respond to these two secretion systems and whether there is any cross talk between T3SS and T6SS during infection remain unknown. Here, we employ transcriptomic analysis to compare cellular responses to the T3SS and the T6SS during in planta infection and report distinctive effects on multiple pathways. The T3SS-mediated differentially expressed genes were enriched in the pathways of phenylpropanoid biosynthesis, plant-pathogen interaction, MAPK signaling pathway, and glutathione metabolism, while the T6SS uniquely affected genes were related to photosynthesis. The T6SS does not contribute to the in planta virulence of A. citrulli but is critical for the survival of the bacterium when mixed with watermelon phyllosphere bacteria. In addition, T3SS-mediated virulence is independent of the T6SS, and the inactivation of the T3SS does not affect the T6SS-mediated competition against a diverse set of bacterial pathogens that commonly contaminate edible plants or directly infect plants. A T6SS-active T3SS-null mutant (Ac-av) could inhibit the growth of Xanthomonas oryzae pv. oryzae significantly both in vitro and in vivo and also reduce symptoms of rice bacterial blight. In conclusion, our data demonstrate the T6SS in A. citrulli is nonpathogenic to the plant host and can be harnessed as a pathogen killer against plant-associated bacteria.IMPORTANCEChemical pesticides are widely used to protect crops from various pathogens. Still, their extensive use has led to severe consequences, including drug resistance and environmental contamination. Here, we show that an engineered T6SS-active, but avirulent mutant of Acidovorax citrulli has strong inhibition capabilities against several pathogenic bacteria, demonstrating an effective strategy that is an alternative to chemical pesticides for sustainable agricultural practices."]

Acidovorax citrulli T6SS interspecies competition RNA-Seq biocontrol

SCI

英语

通讯

National Key Ramp;D Program of China["2020YFA0907200","2018YFA0901203"] ; National Natural Science Foundation of China[32030001]

Microbiology

Microbiology

WOS:001023846200001

AMER SOC MICROBIOLOGY

Web of Science

1.Shanghai Jiao Tong Univ, Sch Life Sci & Biotechnol, State Key Lab Microbial Metab, Joint Int Res Lab Metab & Dev Sci, Shanghai, Peoples R China
2.Southern Univ Sci & Technol, Sch Life Sci, Dept Immunol & Microbiol, Shenzhen, Guangdong, Peoples R China

Kan, Yumin,Zhang, Yanjie,Lin, Wenhui,et al. Differential plant cell responses to Acidovorax citrulli T3SS and T6SS reveal an effective strategy for controlling plant-associated pathogens[J]. MBIO,2023,14(4).

Kan, Yumin,Zhang, Yanjie,Lin, Wenhui,&Dong, Tao.(2023).Differential plant cell responses to Acidovorax citrulli T3SS and T6SS reveal an effective strategy for controlling plant-associated pathogens.MBIO,14(4).

Kan, Yumin,et al."Differential plant cell responses to Acidovorax citrulli T3SS and T6SS reveal an effective strategy for controlling plant-associated pathogens".MBIO 14.4(2023).