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第43卷第3期                  王惠琳,蔡晨婕,陈宇奕,等. 周细胞在炎症性疾病中的研究进展[J].
                  2023年3月                     南京医科大学学报(自然科学版),2023,43(3):413-420                        ·419 ·


                    cyte diapedesis in inflamed tissues[J]. Mediators In⁃  [20] 胡颖超,杨  硕. 细胞焦亡的研究进展[J]. 南京医科大
                    flamm,2019,2019:4123605                            学学报(自然科学版),2021,41(8):1245-1251
               [7] DESSALLES C A,AVIN B,BARAKAT A I. Pericyte me⁃  [21] FUNA K,SASAHARA M. The roles of PDGF in develop⁃
                    chanics and mechanobiology[J]. J Cell Sci,2021,134  ment and during neurogenesis in the normal and diseased
                    (6):240226                                         nervous system[J]. J Neuroimmune Pharmacol,2014,9
               [8] DOMEV H,MILKOV I,ITSKOVITZ⁃ELDOR J,et al. Im⁃      (2):168-181
                    munoevasive pericytes from human pluripotent stem cells  [22] OGURA S,KURATA K,HATTORI Y,et al. Sustained in⁃
                    preferentially modulate induction of allogeneic regulatory  flammation after pericyte depletion induces irreversible
                    T cells[J]. Stem Cells Transl Med,2014,3(10):1169-1181  blood⁃retina barrier breakdown[J]. JCI Insight,2017,
               [9] PARK D Y,LEE J,KIM J,et al. Plastic roles of pericytes  2(3):90905
                    in the blood⁃retinal barrier[J]. Nat Commun,2017,8:15296  [23] HU X M,DE SILVA T M,CHEN J,et al. Cerebral vascu⁃
               [10] LEAF I A,NAKAGAWA S,JOHNSON B G,et al. Peri⁃       lar disease and neurovascular injury in ischemic stroke
                    cyte MyD88 and IRAK4 control inflammatory and fibrotic  [J]. Circ Res,2017,120(3):449-471
                    responses to tissue injury[J]. J Clin Investig,2017,127  [24] SAHARINEN P,EKLUND L,ALITALO K. Therapeutic
                    (1):321-334                                        targeting of the angiopoietin ⁃ TIE pathway[J]. Nat Rev
               [11] HYUN Y M ,CHOE Y H,PARK S A,et al. LFA ⁃ 1         Drug Discov,2017,16(9):635-661
                    (CD11a/CD18)and Mac⁃1(CD11b/CD18)distinctly regu⁃  [25] KHAN M,AZIZ A A,SHAFI N A,et al. Targeting angio⁃
                    late neutrophil extravasation through hotspots I and Ⅱ  poietin in retinal vascular diseases:a literature review
                    [J]. Exp Mol Med,2019,51(S5):1-13                  and summary of clinical trials involving faricimab[J].
               [12] PROEBSTL D,VOISIN M B,WOODFIN A,et al. Peri⁃       Cells,2020,9(8):1869
                    cytes support neutrophil subendothelial cell crawling and  [26] THOMAS H M,AHANGAR P,HOFMA B R,et al. Attenua⁃
                    breaching of venular walls in vivo[J]. J Exp Med,2012,  tion of flightless I increases human pericyte proliferation,
                    209(6):1219-1234                                   migration and angiogenic functions and improves healing
               [13] GIRBL T,LENN T,PEREZ L,et al. Distinct compartmen⁃  in murine diabetic wounds[J]. Int J Mol Sci,2020,21
                    talization of the chemokines CXCL1 and CXCL2 and the  (16):5599
                    atypical receptor ACKR1 determine discrete stages of  [27] THURGUR H,PINTEAUX E. Microglia in the neurovas⁃
                    neutrophil diapedesis[J]. Immunity,2018,49(6):1062-  cular unit:blood⁃brain barrier⁃microglia interactions after
                    1076                                               central nervous system disorders[J]. Neuroscience,2019,
               [14] PELLOWE A S,SAULER M,HOU Y,et al. Endothelial      405:55-67
                    cell ⁃ secreted MIF reduces pericyte contractility and en⁃  [28] QIU Y M,ZHANG C L,CHEN A Q,et al. Immune cells
                    hances neutrophil extravasation[J]. FASEB J,2019,33  in the BBB disruption after acute ischemic stroke:targets
                    (2):2171-2186                                      for immune therapy?[J]. Front Immunol,2021,12:
               [15] HUANG H. Pericyte⁃endothelial interactions in the reti⁃  678744
                    nal microvasculature[J]. Int J Mol Sci,2020,21(19):7413  [29] PIEPER C,MAREK J J,UNTERBERG M,et al. Brain
               [16] SMYTH L C D,RUSTENHOVEN J,PARK T I H,et al.        capillary pericytes contribute to the immune defense in
                    Unique and shared inflammatory profiles of human brain  response to cytokines or LPS in vitro[J]. Brain Res,
                    endothelia and pericytes[J]. J Neuroinflammation,2018,  2014,1550:1-8
                    15(1):138                                    [30] MATSUMOTO J,TAKATA F,MACHIDA T,et al. Tumor
               [17] ZHANG Z S,ZHOU H N,HE S S,et al. Research advances  necrosis factor ⁃ α ⁃ stimulated brain pericytes possess a
                    in pericyte function and their roles in diseases[J]. Chin J  unique cytokine and chemokine release profile and en⁃
                    Traumatol,2020,23(2):89-95                         hance microglial activation[J]. Neurosci Lett,2014,578:
               [18] LIU C,GE H M,LIU B H,et al. Targeting pericyte⁃endo⁃  133-138
                    thelial cell crosstalk by circular RNA⁃cPWWP2A inhibi⁃  [31] LIU R,LAURIDSEN H M,AMEZQUITA R A,et al. IL⁃17
                    tion aggravates diabetes⁃induced microvascular dysfunc⁃  promotes neutrophil⁃mediated immunity by activating mi⁃
                    tion[J]. PNAS,2019,116(15):7455-7464               crovascular pericytes and not endothelium[J]. J Immu⁃
               [19] MIHÁLY K,ÁDÁM M,ÁDÁM N,et al. Cerebral peri⁃       nol,2016,197(6):2400-2408
                    cytes and endothelial cells communicate through inflam⁃  [32] BHATTACHARYA A,KAUSHIK D K,LOZINSKI B M,
                    masome ⁃ dependent signals[J]. Int J Mol Sci,2021,22  et al. Beyond barrier functions:roles of pericytes in ho⁃
                    (11):6122                                          meostasis and regulation of neuroinflammation[J]. J Neu⁃
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