97     /  COPD  هب التبم نارامیب هیر رد یردنکوتیم یدرکلمع لالتخا لماوع یسررب

               38. Jia L, Liu Z, Sun L, Miller SS, Ames BN, Cotman   endothelial cell death: a predominant role of histones.
               CW, et al. Acrolein, a toxicant in cigarette smoke,   PLoS   One.     2012;      7(2):e32366.
               causes  oxidative  damage  and  mitochondrial    doi:10.1371/journal.pone.0032366
               dysfunction  in  RPE  cells:  protection  by  (R)-alpha-  52.  Lamond  AI,  Earnshaw  WC.  Structure  and
               lipoic  acid.  Investigative  ophthalmology  &  visual   function in the nucleus. Science. 1998; 280 (5363):
               science.  2007;  48(1):339-48.  doi:10.1167/iovs.06-  547-53. doi:10.1126/science.280.5363.547
               0248                                             53.  Rajendrasozhan  S,  Yao  H,  Rahman  I.  Current
               39. Aravamudan B, Kiel A, Freeman M, Delmotte P,   perspectives on role of chromatin modifications and
               Thompson  M,  Vassallo  R,  et  al.  Cigarette  smoke-  deacetylases in lung inflammation in COPD. COPD.
               induced   mitochondrial   fragmentation   and    2009; 6(4):291-7. doi:10.1080/15412550903049132
               dysfunction in human airway smooth muscle. Am J   54.  Barnes  PJ.  Role  of  HDAC2  in  the
               Physiol Lung Cell Mol Physiol. 2014; 306(9):L840-  pathophysiology of COPD. Annu Rev Physiol. 2009;
               54. doi:10.1152/ajplung.00155.2013               71:                                 451-64.
               40.  Jendrach  M,  Pohl  S,  Voth  M,  Kowald  A,   doi:10.1146/annurev.physiol.010908.163257
               Hammerstein P, Bereiter-Hahn J. Morpho-dynamic   55. Ito K, Charron CE, Adcock IM. Impact of protein
               changes  of  mitochondria  during  ageing  of  human   acetylation   in   inflammatory   lung   diseases.
               endothelial  cells.  Mech  Ageing  Dev.  2005;  126(6-  Pharmacol   Ther.   2007;   116(2):249-65.
               7):813-21. doi:10.1016/j.mad.2005.03.002         doi:10.1016/j.pharmthera.2007.06.009
               41.  Chan  DC.  Mitochondrial  fusion  and  fission  in   56.  Arendt  CS,  Hochstrasser  M.  Eukaryotic  20S
               mammals. Annu Rev Cell Dev Biol. 2006; 22:79-99.   proteasome  catalytic  subunit  propeptides  prevent
               doi:10.1146/annurev.cellbio.22.010305.104638     active site inactivation by N-terminal acetylation and
               42.  Detmer  SA,  Chan  DC.  Complementation     promote  particle  assembly.  EMBO  J.  1999;
               between  mouse  Mfn1  and  Mfn2  protects        18(13):3575-85. doi:10.1093/emboj/18.13.3575
               mitochondrial  fusion  defects  caused  by  CMT2A   57. Li X, Michaeloudes C, Zhang Y, Wiegman CH,
               disease mutations. The Journal of cell biology. 2007;   Adcock IM, Lian Q, et al. Mesenchymal stem cells
               176(4):405-14. doi:10.1083/jcb.200611080         alleviate  oxidative  stress-induced  mitochondrial
               43.  Ashrafi  G,  Schwarz  TL.  The  pathways  of   dysfunction in the airways. Journal of  Allergy and
               mitophagy  for  quality  control  and  clearance  of   Clinical  Immunology.  2018;  141(5):1634-45.  e5.
               mitochondria. Cell Death Differ. 2013; 20(1):31-42.   doi:10.1016/j.jaci.2017.08.017
               doi:10.1038/cdd.2012.81                          58. Bañuls L, Pellicer D, Castillo S, Navarro-García
               44. Bingol B, Tea JS, Phu L, Reichelt M, Bakalarski   MM, Magallón M, González C, et al. Gene Therapy
               CE, Song Q, et al. The mitochondrial deubiquitinase   in  Rare  Respiratory  Diseases:  What  Have  We
               USP30 opposes parkin-mediated mitophagy. Nature.   Learned So Far? Journal of Clinical Medicine. 2020;
               2014; 510(7505):370-5. doi:10.1038/nature13418   9 (8):2577. doi:10.3390/jcm9082577
               45.  Youle  RJ,  Narendra  DP.  Mechanisms  of   59.  Antunes  MA,  e  Silva  JRL,  Rocco  PR.
               mitophagy. Nat Rev Mol Cell Biol. 2011; 12(1):9-14.   Mesenchymal stromal cell therapy  in  COPD:  from
               doi:10.1038/nrm3028                              bench  to  bedside.  International  journal  of  chronic
               46.  Yamano  K,  Fogel  AI,  Wang  C,  van  der  Bliek   obstructive  pulmonary  disease.  2017;  12:3017.
               AM,  Youle  RJ.  Mitochondrial  Rab  GAPs  govern   doi:10.2147/COPD.S146671
               autophagosome biogenesis during mitophagy. Elife.
               2014; 3:e01612. doi:10.7554/eLife.01612
               47.  Osellame  LD,  Duchen  MR.  Defective  quality
               control  mechanisms  and  accumulation  of  damaged
               mitochondria link Gaucher and Parkinson diseases.
               Autophagy.        2013;         9(10):1633-5.
               doi:10.4161/auto.25878
               48. Hoshino A, Mita Y, Okawa Y, Ariyoshi M, Iwai-
               Kanai  E,  Ueyama  T,  et  al.  Cytosolic  p53  inhibits
               Parkin-mediated   mitophagy   and   promotes
               mitochondrial  dysfunction  in  the  mouse  heart.  Nat
               Commun. 2013; 4: 2308. doi:10.1038/ncomms3308
               49. Barnes PJ, Celli BR. Systemic manifestations and
               comorbidities of COPD. Eur Respir J. 2009; 33(5):
               1165-85. doi:10.1183/09031936.00128008
               50. Xu J, Zhang X, Pelayo R, Monestier M, Ammollo
               CT,  Semeraro  F,  et  al.  Extracellular  histones  are
               major mediators of death in sepsis. Nat Med. 2009;
               15 (11):1318-21. doi:10.1038/nm.2053
               51.  Saffarzadeh  M,  Juenemann  C,  Queisser  MA,
               Lochnit G, Barreto G, Galuska SP, et al. Neutrophil
               extracellular  traps  directly  induce  epithelial  and

               J Combat Med                          2020, Vol. 3, No. 2