Targeting Gα13-integrin interaction ameliorates systemic inflammation.
Ni ChengYaping ZhangM Keegan DelaneyCan WangYanyan BaiRandal A SkidgelXiaoping DuPublished in: Nature communications (2021)
Systemic inflammation as manifested in sepsis is an excessive, life-threatening inflammatory response to severe bacterial or viral infection or extensive injury. It is also a thrombo-inflammatory condition associated with vascular leakage/hemorrhage and thrombosis that is not effectively treated by current anti-inflammatory or anti-thrombotic drugs. Here, we show that MB2mP6 peptide nanoparticles, targeting the Gα13-mediated integrin "outside-in" signaling in leukocytes and platelets, inhibited both inflammation and thrombosis without causing hemorrhage/vascular leakage. MB2mP6 improved mouse survival when infused immediately or hours after onset of severe sepsis. Furthermore, platelet Gα13 knockout inhibited septic thrombosis whereas leukocyte Gα13 knockout diminished septic inflammation, each moderately improving survival. Dual platelet/leukocyte Gα13 knockout inhibited septic thrombosis and inflammation, further improving survival similar to MB2mP6. These results demonstrate that inflammation and thrombosis independently contribute to poor outcomes and exacerbate each other in systemic inflammation, and reveal a concept of dual anti-inflammatory/anti-thrombotic therapy without exacerbating vascular leakage.
Keyphrases
- oxidative stress
- pulmonary embolism
- acute kidney injury
- anti inflammatory
- intensive care unit
- peripheral blood
- early onset
- stem cells
- type diabetes
- single cell
- metabolic syndrome
- adipose tissue
- genome wide
- physical activity
- body mass index
- newly diagnosed
- mesenchymal stem cells
- dna methylation
- cell migration
- wild type
- weight loss
- glycemic control