Immune Mechanism and Progress of Immune-modulating Therapy after Ischemic Stroke

doi:10.3969/j.issn.1673-5765.2017.05.010

Abstract

Abstract:

In recent years, immunity and inflammation in the pathophysiological process of ischemic stroke gradually draw more attention. After ischemic stroke, the natural immune and adaptive immune system will be activated. Stroke will break the balance between the nervous system and immune system, and cause homeostasis unbalance. Immune modulators can be taken as auxiliary medicine, which open a new way for the treatment of stroke.

Key words: Ischemic stroke; Immune mechanism; Immune-modulating drugs

摘要：

近年来，免疫及炎症在缺血性卒中的病理生理过程中的作用逐渐受到重视。缺血性卒中发生后机体会调动固有免疫和适应性免疫系统。卒中会打破神经系统与免疫系统之间的平衡，造成内稳态失衡。免疫调节剂作为辅助用药，为卒中的治疗开辟了一条新思路。

关键词: 缺血性卒中; 免疫机制; 免疫调节剂

ZHAO Bo,WANG Jia-Wei. Immune Mechanism and Progress of Immune-modulating Therapy after Ischemic Stroke[J]. Chinese Journal of Stroke, 2017, 12(05): 426-431.

赵博，王佳伟. 缺血性卒中后免疫机制及免疫调节治疗进展[J]. 中国卒中杂志, 2017, 12(05): 426-431.

References

1 Sacco RL，Chong JY，Prabhakaran S，et al.

Experimental treatments for acute ischemic stroke[J].

Lancet，2007，369：331-341.

2 Matthew D. Hammond，Youxi Ai，et al. Gr1+

macrophages and dendritic cells dominate the

inflammatory infiltrate 12 h after experimental

intracerebral hemorrhage[J]. Transl Stroke Res，2012，

3：125-131.

3 Emsley HC，Hopkins SJ. Post-stroke immunodepression

and infection：an emerging concept[J]. Infect

Disord Drug Targets，2010，10：91-97.

4 Fathali N，Ostrowski RP，Hasegawa Y，et al. Splenic

immune cells in experimental neonatal hypoxiaischemia[

J]. Transl Stroke Res，2013，4：208-219.

5 Picascia A，Grimaldi V，Iannone C，et al. Innate

and adaptive immune response in stroke：Focus on

epigenetic regulation[J]. J Neuroimmunol，2015，289：

111-120.

6 Chaturvedi M，Kaczmarek L. MMP-9 inhibition：a

therapeutic strategy in ischemic stroke[J]. Mol

Neurobiol，2014，49：563-573.

7 Famakin BM，Mou Y，Johnson K，et al. A new

role for downstream Toll-like receptor signaling in

mediating immediate early gene expression during

focal cerebral ischemia[J]. J Cereb Blood Flow Metab，

2014，34：258-267.

8 Fadakar K，Dadkhahfar S，Esmaeili A，et al. The

role of Toll-like receptors (TLRs) in stroke[J]. Rev

Neurosci，2014，25：699-712.

9 Iadecola C，Anrather J. The immunology of stroke：

from mechanisms to translation[J]. Nat Med，2011，17：

796-808.

10 Chamorro A，Meisel A，Planas AM，et al. The

immunology of acute stroke[J]. Nat Rev Neurol，2012，

8：401-410.

11 Yilmaz G，Arumugam TV，Stokes KY，et al. Role

of T lymphocytes and interferon-gamma in ischemic

stroke[J]. Circulation，2006，113：2105-2112.

12 Planas AM，Gomez-Choco M，Urra X，et al. Brainderived

antigens in lymphoid tissue of patients with

acute stroke[J]. J Immunol，2012，188：2156-2163.

13 Kamel H，Iadecola C. Brain-immune interactions and

ischemic stroke：clinical implications[J]. Arch Neurol，

2012，69：576-581.

14 Ziv Y，Ron N，Butovsky O，et al. Immune cells

contribute to the maintenance of neurogenesis

and spatial learning abilities in adulthood[J]. Nat

Neurosci，2006，9：268-275.

15 Gelderblom M，Leypoldt F，Steinbach K，et al.

Temporal and spatial dynamics of cerebral immune

cell accumulation in stroke[J]. Stroke，2009，40：

1849-1857.

16 Stubbe T，Ebner F，Richter D，et al. Regulatory T

cells accumulate and proliferate in the ischemic

hemisphere for up to 30 days after MCAO[J]. J Cereb

Blood Flow Metab，2013，33：37-47.

17 Brea D，Agulla J，Rodriguez-Yanez M，et al.

Regulatory T cells modulate inflammation and reduce

infarct volume in experimental brain ischaemia[J]. J

Cell Mol Med，2014，18：1571-1579.

18 Na SY，Mracsko E，Liesz A，et al. Amplification of

regulatory T cells using a CD28 superagonist reduces

brain damage after ischemic stroke in mice[J]. Stroke，

2015，46：212-220.

19 Meisel C，Schwab JM，Prass K，et al. Central

nervous system injury-induced immune deficiency

syndrome[J]. Nat Rev Neurosci，2005，6：775-786.

20 Gill D，Veltkamp R. Dynamics of T cell responses after

stroke[J]. Curr Opin Pharmacol，2016，26：26-32.

21 Famakin BM. The immune response to acute

focal cerebral ischemia and associated post-stroke

immunodepression：a focused review[J]. Aging Dis，

2014，5：307-326.

22 Liesz A，Zhou W，Mracsko E，et al. Inhibition of

lymphocyte trafficking shields the brain against

deleterious neuroinflammation after stroke[J]. Brain，

2011，134：704-720.

23 Zierath D，Thullbery M，Hadwin J，et al. CNS

immune responses following experimental stroke[J].

Neurocrit Care，2010，12：274-284.

24 Vargas M，Horcajada JP，Obach V，et al. Clinical

consequences of infection in patients with acute stroke：

is it prime time for further antibiotic trials?[J]. Stroke，

2006，37：461-465.

25 Weidenfeld J，Leker RR，Gai N，et al. The function of

the adrenocortical axis in permanent middle cerebral

artery occlusion：effect of glucocorticoids on the

neurological outcome[J]. Brain Res，2011，1407：90-96.

26 Marklund N，Peltonen M，Nilsson TK，et al. Low and

high circulating cortisol levels predict mortality and

cognitive dysfunction early after stroke[J]. J Intern

Med，2004，256：15-21.

27 Vogelgesang A，Grunwald U，Langner S，et al.

Analysis of lymphocyte subsets in patients with stroke

and their influence on infection after stroke[J]. Stroke，

2008，39：237-241.

28 Urra X，Cervera A，Villamor N，et al. Harms and

benefits of lymphocyte subpopulations in patients with

acute stroke[J]. Neuroscience，2009，158：1174-1183.

29 Shim R，Wong CH. Ischemia，immunosuppression

and infection--tackling the predicaments of poststroke

complications[J]. Int J Mol Sci，2016，17.

30 Thangada S，Khanna KM，Blaho VA，et al. Cellsurface

residence of sphingosine 1-phosphate receptor

1 on lymphocytes determines lymphocyte egress

kinetics[J]. J Exp Med，2010，207：1475-1483.

31 Hunter SF，Bowen JD，Reder AT. The direct

effects of fingolimod in the central nervous system：

implications for relapsing multiple sclerosis[J]. CNS

Drugs，2016，30：135-147.

32 Kraft P，Göb E，Schuhmann MK，et al. FTY720

ameliorates acute ischemic stroke in mice by

reducing thrombo-inflammation but not by direct

neuroprotection[J]. Stroke，2013，44：3202-3210.

33 Czech B，Pfeilschifter W，Mazaheri-Omrani N，et

al. The immunomodulatory sphingosine 1-phosphate

analog FTY720 reduces lesion size and improves

neurological outcome in a mouse model of cerebral

ischemia[J]. Biochem Biophys Res Commun，2009，

389：251-256.

34 Wei Y，Yemisci M，Kim HH，et al. Fingolimod

provides long-term protection in rodent models of

cerebral ischemia[J]. Ann Neurol，2011，69：119-129.

35 Spampinato SF，Obermeier B，Cotleur A，et al.

Sphingosine 1 phosphate at the blood brain barrier：

can the modulation of S1P receptor 1 influence

the response of endothelial cells and astrocytes

to inflammatory stimuli?[J]. PLoS One，2015，10：

e0133392.

36 Kleinschnitz C，Kraft P，Dreykluft A，et al.

Regulatory T cells are strong promoters of acute

ischemic stroke in mice by inducing dysfunction of

the cerebral microvasculature[J]. Blood，2013，121：

679-691.

37 Prager B，Spampinato SF，Ransohoff RM.

Sphingosine 1-phosphate signaling at the blood-brain

barrier[J]. Trends Mol Med，2015，21：354-363.

38 Hasegawa Y，Suzuki H，Sozen T，et al. Activation

of sphingosine 1-phosphate receptor-1 by FTY720

is neuroprotective after ischemic stroke in rats[J].

Stroke，2010，41：368-374.

39 Liu J1，Zhang C，Tao W，Liu M. Systematic review

and meta-analysis of the efficacy of sphingosine-1-

phosphate (S1P) receptor agonist FTY720 (fingolimod)

in animal models of stroke[J]. Int J Neurosci，2013，

123：163-169.

40 Fu Y，Zhang N，Ren L，et al. Impact of an immune

modulator fingolimod on acute ischemic stroke[J].

Proc Natl Acad Sci，2014，111：18 315-18 320.

41 Aoki T，Sumii T，Mori T，et al. Blood-brain barrier

disruption and matrix metalloproteinase-9 expression

during reperfusion injury：mechanical versus embolic

focal ischemia in spontaneously hypertensive rats[J].

Stroke，2002，33：2711-2717.

42 Cai A，Schlunk F，Bohmann F，et al. Coadministration

of FTY720 and rt-PA in an experimental model

of large hemispheric stroke-no influence on functional

outcome and blood-brain barrier disruption[J]. Exp

Transl Stroke Med，2013，5：11.

43 Campos F，Qin T，Castillo J，et al. Fingolimod reduces

hemorrhagic transformation associated with delayed

tissue plasminogen activator treatment in a mouse

thromboembolic model[J]. Stroke，2013，44：505-511.

44 Zhu Z，Fu Y，Tian D，et al. Combination of the

immune modulator fingolimod with alteplase in acute

ischemic stroke：a pilot trial[J]. Circulation，2015，132：

1104-1112.

45 Kawashima S，Yamashita T，Miwa Y，et al. HMGCoA

reductase inhibitor has protective effects

against stroke events in stroke-prone spontaneously

hypertensive rats[J]. Stroke，2003，34：157-163.

46 Chen J，Zhang ZG，Li Y，et al. Statins induce

angiogenesis，neurogenesis，and synaptogenesis after

stroke[J]. Ann Neurol，2003，53：743-751.

47 Szczepanska-Szerej A，Kurzepa J，Wojczal J，et

al. Simvastatin-induced prevention of the increase

in TNF-alpha level in the acute phase of ischemic

stroke[J]. Pharmacol Rep，2007，59：94-97.

48 Baryan HK，Allan SM，Vail A，et al. Systematic

review and meta-analysis of the efficacy of statins in

experimental stroke[J]. Int J Stroke，2012，7：150-156.

49 Smith CJ，Denes A，Tyrrell PJ，et al. Phase II antiinflammatory

and immune-modulating drugs for

acute ischaemic stroke[J]. Expert Opin Investig

Drugs，2015，24：623-643.

50 Ridker PM，Danielson E，Fonseca FA，et al.

Rosuvastatin to prevent vascular events in men and

women with elevated C-reactive protein[J]. N Engl J

Med，2008，359：2195-207.

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