中性粒细胞脱颗粒

中文名称

中性粒细胞脱颗粒

通路描述

中性粒细胞是最丰富的白细胞（白细胞），在抵御入侵微生物方面不可或缺。在感染时，中性粒细胞离开循环并迁移到炎症焦点。它们包含几种颗粒亚群，这些颗粒被动员并与细胞膜或吞噬体膜融合，导致外泌或暴露膜蛋白。传统上，中性粒细胞颗粒成分被描述为抗菌或蛋白酶，但颗粒还引入膜蛋白到细胞表面，改变了中性粒细胞对其环境反应的方式（Borregaard 等人 2007）。已激活的中性粒细胞主动分泌细胞因子和其他炎症介质，并通过 MHC II 呈递抗原，刺激 T 细胞（Wright 等人 2010）。

颗粒在中性粒细胞分化期间形成。颗粒亚群可根据其内容物区分，但在结构和组成上存在重叠。差异被认为是蛋白质表达变化和颗粒形成时间差异的结果，而非排序（Le Cabec 等人 1996）。

经典颗粒亚群包括嗜天青颗粒（AG，初级颗粒）、颗粒（SG）和溶菌酶颗粒（GG）。中性粒细胞还含有可外泌的储存细胞器，储存囊泡（SV），由内吞形成，它们含有许多细胞表面标记物和细胞外、血浆蛋白（Borregaard 等人 1992）。富含纤维蛋白原的颗粒（FG）像 GG 一样高度可外泌，但溶菌酶含量低（Rorvig 等人 2009）。

英文描述

Neutrophil degranulation Neutrophils are the most abundant leukocytes (white blood cells), indispensable in defending the body against invading microorganisms. In response to infection, neutrophils leave the circulation and migrate towards the inflammatory focus. They contain several subsets of granules that are mobilized to fuse with the cell membrane or phagosomal membrane, resulting in the exocytosis or exposure of membrane proteins. Traditionally, neutrophil granule constituents are described as antimicrobial or proteolytic, but granules also introduce membrane proteins to the cell surface, changing how the neutrophil responds to its environment (Borregaard et al. 2007). Primed neutrophils actively secrete cytokines and other inflammatory mediators and can present antigens via MHC II, stimulating T-cells (Wright et al. 2010).

Granules form during neutrophil differentiation. Granule subtypes can be distinguished by their content but overlap in structure and composition. The differences are believed to be a consequence of changing protein expression and differential timing of granule formation during the terminal processes of neutrophil differentiation, rather than sorting (Le Cabec et al. 1996).

The classical granule subsets are Azurophil or primary granules (AG), secondary granules (SG) and gelatinase granules (GG). Neutrophils also contain exocytosable storage cell organelles, storage vesicles (SV), formed by endocytosis they contain many cell-surface markers and extracellular, plasma proteins (Borregaard et al. 1992). Ficolin-1-rich granules (FG) are like GGs highly exocytosable but gelatinase-poor (Rorvig et al. 2009).

所含基因

470 个基因

A1BG ABCA13 ACAA1 ACLY ACPP ACTR10 ACTR1B ACTR2 ADAM10 ADAM8 AGA AGL AGPAT2 AHSG ALAD ALDH3B1 ALDOA ALDOC ALOX5 AMPD3 ANO6 ANPEP ANXA2 AOC1 AP1M1 AP2A2 APAF1 APEH APRT ARG1 ARHGAP9 ARL8A ARMC8 ARPC5 ARSA ARSB ASAH1 ATAD3B ATG7 ATP11A ATP11B ATP6AP2 ATP6V0A1 ATP6V0C ATP6V1D ATP8A1 ATP8B4 AZU1 B2M B4GALT1 BIN2 BPI BRI3 BST1 BST2 C3AR1 C5AR1 C6ORF120 CAB39 CALML5 CAMP CAND1 CANT1 CAP1 CAPN1 CAT CCT2 CCT8 CD14 CD177 CD300A CD33 CD44 CD47 CD53 CD55 CD58 CD59 CD63 CD68 CD93 CD97 CDA CDK13 CEACAM1 CEACAM3 CEACAM8 CECR1 CEP290 CFD CFP CHI3L1 CHIT1 CHRNB4 CKAP4 CLEC12A CLEC4C CLEC4D CLEC5A CMTM6 CNN2 COMMD3 COMMD9 COPB1 COTL1 CPNE1 CPNE3 CPPED1 CR1 CRACR2A CREG1 CRISP3 CRISPLD2 CSNK2B CST3 CSTB CTSA CTSB CTSC CTSD CTSG CTSH CTSS CTSZ CXCL1 CXCR1 CXCR2 CYB5R3 CYBA CYBB CYFIP1 CYSTM1 DBNL DDOST DDX3X DEFA1 DEFA4 DEGS1 DERA DGAT1 DIAPH1 DNAJC13 DNAJC3 DNAJC5 DNASE1L1 DOCK2 DOK3 DPP7 DSC1 DSG1 DSN1 DSP DYNC1H1 DYNC1LI1 DYNLL1 DYNLT1 EEF1A1 EEF2 ELANE EMR3 ENPP4 EPX ERP44 FABP5 FAF2 FCAR FCER1G FCGR2A FCGR3B FCN1 FGL2 FGR FLG2 FOLR3 FPR1 FPR2 FRK FRMPD3 FTH1 FTL FUCA1 FUCA2 GAA GALNS GCA GDI2 GGH GHDC GLA GLB1 GLIPR1 GM2A GMFG GNS GOLGA7 GPI GPR84 GPR97 GRN GSDMD GSN GSTP1 GUSB GYG1 HBB HEBP2 HEXB HGSNAT HK3 HLA HMGB1 HMHA1 HMOX2 HP HPSE HRNR HSP90AA1 HSP90AB1 HSPA1A HSPA1B HSPA6 HSPA8 HUWE1 HVCN1 IDH1 IGF2R ILF2 IMPDH1 IMPDH2 IQGAP1 IQGAP2 IST1 ITGAL ITGAM ITGAV ITGAX ITGB2 JUP KCMF1 KCNAB2 KPNB1 KRT1 LAIR1 LAMP1 LAMP2 LAMTOR1 LAMTOR2 LAMTOR3 LCN2 LGALS3 LILRA3 LILRB2 LILRB3 LPCAT1 LRG1 LRMP LRRC7 LTA4H LTF LYZ MAGT1 MAN2B1 MANBA MAPK1 MAPK14 MCEMP1 METTL7A MGAM MGST1 MIF MLEC MME MMP25 MMP8 MMP9 MMTAG2 MNDA MOSPD2 MS4A3 MVP NAPRT1 NBEAL2 NCKAP1L NCSTN NDUFC2 NEU1 NFAM1 NFASC NFKB1 NHLRC3 NIT2 NME2 NPC2 NRAS OLFM4 OLR1 ORM1 ORM2 ORMDL3 OSCAR OSTF1 P2RX1 PA2G4 PADI2 PAFAH1B2 PDAP1 PDXK PECAM1 PFKL PGAM1 PGLYRP1 PGM1 PGM2 PGRMC1 PIGR PKM PKP1 PLAC8 PLAU PLAUR PLD1 PLEKHO2 PNP PPBP PPIA PPIE PRCP PRDX4 PRDX6 PRG2 PRG3 PRKCD PRSS2 PRSS3 PRTN3 PSAP PSEN1 PSMA2 PSMA5 PSMB1 PSMB7 PSMC2 PSMC3 PSMD1 PSMD11 PSMD12 PSMD13 PSMD14 PSMD2 PSMD3 PSMD6 PSMD7 PTAFR PTGES2 PTPN6 PTPRB PTPRC PTPRJ PTPRN2 PTX3 PYCARD PYGB PYGL QPCT QSOX1 RAB10 RAB14 RAB18 RAB24 RAB27A RAB31 RAB37 RAB3A RAB3D RAB44 RAB4B RAB5B RAB5C RAB6A RAB7A RAB9B RAC1 RAP1A RAP1B RAP2B RAP2C RETN RHOA RHOF RHOG RNASE2 RNASE3 RNASET2 ROCK1 S100A11 S100A12 S100A7 S100A8 S100A9 S100P SCAMP1 SDCBP SELL SERPINA1 SERPINA3 SERPINB1 SERPINB10 SERPINB12 SERPINB3 SERPINB6 SIGLEC14 SIGLEC5 SIGLEC9 SIRPA SIRPB1 SLC11A1 SLC15A4 SLC27A2 SLC2A3 SLC2A5 SLC44A2 SLCO4C1 SLPI SNAP23 SNAP25 SNAP29 SPTAN1 SRP14 STBD1 STK10 STK11IP STOM SURF4 SVIP SYNGR1 TARM1 TBC1D10C TCIRG1 TCN1 TIMP2 TLR2 TMBIM1 TMC6 TMEM173 TMEM179B TMEM30A TMEM63A TNFAIP6 TNFRSF1B TOLLIP TOM1 TRAPPC1 TRPM2 TSPAN14 TTR TUBB TUBB4B TXNDC5 TYROBP UBR4 UNC13D VAMP8 VAPA VAT1 VCL VCP VNN1 XRCC5 XRCC6 YPEL5