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DNA mechanical flexibility controls DNA potential to activate cGAS-mediated immune surveillance.


ABSTRACT: DNA is well-documented to stimulate immune response. However, the nature of the DNA to activate immune surveillance is less understood. Here, we show that the activation of cyclic GMP-AMP synthase (cGAS) depends on DNA mechanical flexibility, which is controlled by DNA-sequence, -damage and -length. Consistently, DNA-sequence was shown to control cGAS activation. Structural analyses revealed that a conserved cGAS residue (mouse R222 or human R236) contributed to the DNA-flexibility detection. And the residue substitution neutralised the flexibility-controlled DNA-potential to activate cGAS, and relaxed the DNA-length specificity of cGAS. Moreover, low dose radiation was shown to mount cGAS-mediated acute immune surveillance (AIS) via repairable (reusable) DNAs in hrs. Loss of cGAS-mediated AIS decreased the regression of local and abscopal tumours in the context of focal radiation and immune checkpoint blockade. Our results build a direct link between immunosurveillance and DNA mechanical feature.

SUBMITTER: Wang L 

PROVIDER: S-EPMC9675814 | biostudies-literature | 2022 Nov

REPOSITORIES: biostudies-literature

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DNA mechanical flexibility controls DNA potential to activate cGAS-mediated immune surveillance.

Wang Lina L   Li Siru S   Wang Kai K   Wang Na N   Liu Qiaoling Q   Sun Zhen Z   Wang Li L   Wang Lulu L   Liu Quentin Q   Song Chengli C   Liu Caigang C   Yang Qingkai Q   Yang Qingkai Q  

Nature communications 20221119 1


DNA is well-documented to stimulate immune response. However, the nature of the DNA to activate immune surveillance is less understood. Here, we show that the activation of cyclic GMP-AMP synthase (cGAS) depends on DNA mechanical flexibility, which is controlled by DNA-sequence, -damage and -length. Consistently, DNA-sequence was shown to control cGAS activation. Structural analyses revealed that a conserved cGAS residue (mouse R222 or human R236) contributed to the DNA-flexibility detection. An  ...[more]

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