Page 105 - 南京医科大学自然版
P. 105
第44卷第7期 常心怡,韩 艺. 巨噬细胞极化在脓毒症免疫及器官功能障碍中的作用[J].
2024年7月 南京医科大学学报(自然科学版),2024,44(7):985-991 ·989 ·
剧脓毒症引起的肠道损伤 。 inflammatory and M2 macrophage polarization⁃promoting
[62]
effect of mesenchymal stem cell ⁃ derived exosomes[J].
4 总结与展望
Int Immunopharmacol,2021,97:107823
脓毒症涉及复杂的免疫机制和病理生理过程, [12]VIOLA A,MUNARI F,SÁNCHEZ⁃RODRÍGUEZ R,et al.
The metabolic signature of macrophage responses[J].
其中巨噬细胞 M1/M2 状态的调控与平衡对于维持
Front Immunol,2019,10:1462
脓毒症期间的免疫反应、机体稳态以及减少组织和
[13] SCHULTZE J L,SCHMIDT S V. Molecular features of
器官损伤具有至关重要的作用。因此,针对巨噬细
macrophage activation[J]. Semin Immunol,2015,27(6):
胞极化状态的调控在脓毒症免疫治疗方面具有巨
416-423
大的潜力。目前,已有部分研究致力于探索调控巨 [14]YOUSAF H,KHAN M I U,ALI I,et al. Emerging role of
噬细胞极化的有效手段。然而,脓毒症中巨噬细胞 macrophages in non ⁃ infectious diseases:an update[J].
极化的具体调控机制及其影响因素仍需进行深入 Biomed Pharmacother,2023,161:114426
研究,以期为脓毒症的治疗提供坚实的实验基础和 [15]ZHANG Q,SIOUD M. Tumor⁃associated macrophage sub⁃
理论依据。 sets:shaping polarization and targeting[J]. Int J Mol Sci,
2023,24(8):7493
[参考文献]
[16]SCHLUNDT C,FISCHER H,BUCHER C H,et al. The
[1] RUIZ⁃BACA E,PÉREZ⁃TORRES A,ROMO⁃LOZANO multifaceted roles of macrophages in bone regeneration:a
Y,et al. The role of macrophages in the host’s defense story of polarization,activation and time[J]. Acta Bioma⁃
against Sporothrix schenckii[J]. Pathogens,2021,10(7): ter,2021,133:46-57
905 [17]HOLTHAUS M,SANTHAKUMAR N,WAHLERS T,et al.
[2] MOSSER D M,HAMIDZADEH K,GONCALVES R. Mac⁃ The secretome of preconditioned mesenchymal stem cells
rophages and the maintenance of homeostasis[J]. Cell drives polarization and reprogramming of M2a macro⁃
Mol Immunol,2021,18(3):579-587 phages toward an IL⁃ 10⁃producing phenotype[J]. Int J
[3] LOCATI M,CURTALE G,MANTOVANI A. Diversity, Mol Sci,2022,23(8):4104
mechanisms,and significance of macrophage plasticity[J]. [18] WANG L X,ZHANG S X,WU H J,et al. M2b macro⁃
Annu Rev Pathol,2020,15:123-147 phage polarization and its roles in diseases[J]. J Leukoc
[4] MURRAY P J. Macrophage polarization[J]. Annu Rev Biol,2019,106(2):345-358
Physiol,2017,79:541-566 [19] LEE C,JEONG H,LEE H,et al. Magnolol attenuates
[5] YUNNA C,MENGRU H,LEI W,et al. Macrophage M1/ cisplatin ⁃ induced muscle wasting by M2c macrophage
M2 polarization[J]. Eur J Pharmacol,2020,877:173090 activation[J]. Front Immunol,2020,11:77
[6] WANG Y,SMITH W,HAO D,et al. M1 and M2 macro⁃ [20]WEISS G,SCHAIBLE U E. Macrophage defense mecha⁃
phage polarization and potentially therapeutic naturally nisms against intracellular bacteria[J]. Immunol Rev,2015,
occurring compounds[J]. Int Immunopharmacol,2019, 264(1):182-203
70:459-466 [21]WANG Q,NI H,LAN L,et al. Fra⁃1 protooncogene regu⁃
[7] CHEN S,SAEED A F U H,LIU Q,et al. Macrophages in lates IL ⁃ 6 expression in macrophages and promotes the
immunoregulation and therapeutics[J]. Signal Transduct generation of M2d macrophages[J]. Cell Res,2010,20
Target Ther,2023,8(1):207 (6):701-712
[8] LOUISELLE A E,NIEMIEC S M,ZGHEIB C,et al. Mac⁃ [22]CHEN X,LIU Y,GAO Y,et al. The roles of macrophage
rophage polarization and diabetic wound healing[J]. polarization in the host immune response to sepsis[J]. Int
Transl Res,2021,236:109-116 Immunopharmacol,2021,96:107791
[9] BASHIR S,SHARMA Y,ELAHI A,et al. Macrophage [23] LAWRENCE T,NATOLI G. Transcriptional regulation
polarization:the link between inflammation and related of macrophage polarization:enabling diversity with iden⁃
diseases[J]. Inflamm Res,2016,65(1):1-11 tity[J]. Nat Rev Immunol,2011,11(11):750-761
[10]NI R,JIANG L,ZHANG C,et al. Biologic mechanisms of [24]FU X L,DUAN W,SU C Y,et al. Interleukin 6 induces
macrophage phenotypes responding to infection and the M2 macrophage differentiation by STAT3 activation that
novel therapies to moderate inflammation[J]. Int J Mol correlates with gastric cancer progression[J]. Cancer
Sci,2023,24(9):8358 Immunol Immunother,2017,66(12):1597-1608
[11] ARABPOUR M,SAGHAZADEH A,REZAEI N. Anti⁃ [25] SICA A,MANTOVANI A. Macrophage plasticity and