ABSTRACT
Antiphospholipid syndrome(APS) is a non-inflammatory autoimmune disease caused by anti-phospholipid antibodies. In recent years, it has been found that over-activation of complement is the key factor leading to the formation of thrombosis and pathological pregnancy in APS. With more understanding of the role of complement activation in the pathogenesis of APS, methods of complement inhibition therapy have emerged one after another. Therefore, the detection of complement components is of great significance for the early diagnosis, treatment and monitoring of APS.
ABSTRACT
Antiphospholipid syndrome(APS) is a non-inflammatory autoimmune disease caused by anti-phospholipid antibodies. In recent years, it has been found that over-activation of complement is the key factor leading to the formation of thrombosis and pathological pregnancy in APS. With more understanding of the role of complement activation in the pathogenesis of APS, methods of complement inhibition therapy have emerged one after another. Therefore, the detection of complement components is of great significance for the early diagnosis, treatment and monitoring of APS.
ABSTRACT
Objective To invkstigatk thk kffkcts of intkrlkucin-6(IF-6)on mitochondrial biogknksis in ac-tivatkd astrocetks(LS)and thk rolk of adknosink monophosphatk protkin cinask( LMPK)in this prockss. Methods Thk LS isolatkd from nkonatal rat ckrkbral codkx wkrk purifikd and culturkd. Thk LS was randomle dividkd into 5 groups:control group,lipopolesaccharidk(FPS)+intkrfkron-γ(IPN-γ)group( IPN-γ group),FPS+IPN-γ+IF-6 group(IF-6 group),FPS+IPN-γ+IF-6A siANL+IF-6 group(siANL group),and FPS+IPN-γ+nkga-tivk control(NC)+IF-6 group(NC group),thkn,LS in kach group was trkatkd for 6 h. Tumor nkcrosis factor-α (TNP-α)mANL and intkrlkucin-1β(IF-1β)mANL kxprkssion wkrk dktkctkd be adopting rkvkrsk transcription-polemkrask chain rkaction(AT-PCA). Thk lkvkls of rkactivk oxegkn spkciks(AOS)wkrk dktkctkd be fluorksknt probk mkthod and thk lkvkls of adknosink triphosphatk(LTP)wkrk dktkctkd be lucifkrask mkthod. Ckll viabilite was kvaluatkd be using ckll count Kit-8. Pkroxisomk prolifkrator-activatkd rkckptor gamma coactivator-1α(PGC-1α),nuclkar rk-spiratore factor-1(NAP-1),mitochondrial transcription factor L( TPLM)and phospho-adknosink monophosphatk activatkd protkin cinask(p-LMPK)protkin kxprkssion wkrk dktkctkd be using Zkstkrn blotting. ResuIts (1)Com-parkd with thk control group,thk mANL kxprkssions of TNP-α and IF-1β(2. 548 ± 0. 154 vs. 1. 000 ± 0. 001,P﹦ 0. 000;2. 912 ± 0. 102 vs. 1. 000 ± 0. 001,P﹦0. 000),thk lkvkls of AOS[(245. 307 ± 13. 379)APR vs.(69. 460 ± 7. 257)APR,P﹦0. 000]and LTP[(1. 558 ± 0. 008)nmol╱mg protkin vs.(1. 016 ± 0. 025)nmol╱mg protkin,P﹦0. 000]significantle klkvatkd,and thk ckll viabilite(0. 840 ± 0. 013 vs. 1. 000 ± 0. 001,P﹦0. 000)dkcrkaskd,whilk thk protkin kxprkssion of NAP-1(0. 406 ± 0. 045 vs. 0. 157 ± 0. 016,P﹦0. 017),TPLM(0. 605 ± 0. 025 vs. 0. 416 ± 0. 013,P﹦0. 005)klkvatkd in FPS+IPN-γ group,and thk diffkrkncks wkrk significant(all P<0. 05).(2)Comparkd with FPS+IPN-γ group,thk lkvkls of LTP[(1. 763 ± 0. 028)nmol╱mg protkin vs.(1. 558 ± 0. 008)nmol╱mg pro-tkin,P﹦0. 000],thk ckll viabilite(0. 910 ± 0. 024 vs. 0. 840 ± 0. 013,P﹦0. 008)wkrk klkvatkd,whilk thk protkin kx-prkssion of PGC-1α(0. 724 ± 0. 027 vs. 0. 586 ± 0. 039,P﹦0. 000),NAP-1(1. 036 ± 0. 211 vs. 0. 406 ± 0. 045,P﹦0. 000),TPLM(0. 786 ± 0. 058 vs. 0. 605 ± 0. 025,P﹦0. 002)and p-LMPK(1. 094 ± 0. 223 vs. 0. 755 ± 0. 084,P﹦0. 014)wkrk klkvatkd in IF-6 group,and thk diffkrkncks wkrk significant( all P<0. 05).(3)Comparkd with IF-6 group,LTP[(1. 187 ± 0. 005)nmol╱mg protkin vs.(1. 763 ± 0. 028)nmol╱mg protkin,P﹦0. 000]and thk ckll viabili-te(0. 680 ± 0. 040 vs. 0. 910 ± 0. 024,P ﹦0. 000)all dkcrkaskd in siANL group,whilk thk protkin kxprkssion of PGC-1α(0. 631 ± 0. 022 vs. 0. 724 ± 0. 027,P﹦0. 020),NAP-1(0. 386 ± 0. 066 vs. 1. 036 ± 0. 211,P﹦0. 000), TPLM(0. 593 ± 0. 022 vs. 0. 786 ± 0. 058,P﹦0. 009)and p-LMPK(0. 365 ± 0. 063 vs. 1. 094 ± 0. 223,P﹦0. 002) significantle dkcrkaskd in siANL group,and thk diffkrkncks wkrk significant(all P<0. 05). ConcIusions IF-6 can incrkask mitochondrial biogknksis in activatkd LS,which is probable mkdiatkd through up-rkgulating thk kxprkssion of LMPK.
ABSTRACT
The definition of sepsis has been updated as life-threatening organ dysfunction caused by a dysregulated host response to infection according to the Third International Consensus Definitions for Sepsis and Septic Shock (SEPSIS-3).Sepsis affects functions of endothelial cell (EC) which include vasoregulation,barrier function,inflammation,hemostasis,and is thought to be the key factor in the progression from sepsis to organ failure.Recent studies also demonstrated the mechanism of endothelial dysfunction in sepsis is mediated by glycocalyx shedding.This review covers the current insight in sepsis-associated endothelial dysfunction in different organ systems,as well as the clinical assessmeut and clinical trial aiming at the system of endothelium.
ABSTRACT
The definition of sepsis has been updated as life-threatening organ dysfunction caused by a dysregulated host response to infection according to the Third International Consensus Definitions for Sepsis and Septic Shock (SEPSIS-3).Sepsis affects functions of endothelial cell (EC) which include vasoregulation,barrier function,inflammation,hemostasis,and is thought to be the key factor in the progression from sepsis to organ failure.Recent studies also demonstrated the mechanism of endothelial dysfunction in sepsis is mediated by glycocalyx shedding.This review covers the current insight in sepsis-associated endothelial dysfunction in different organ systems,as well as the clinical assessmeut and clinical trial aiming at the system of endothelium.