第42卷第9期
               ·1330 ·                           南 京    医 科 大 学 学         报                        2022年9月


                   489 e417                                          of mitochondrial calcium revealed by mice lacking the mi⁃
             ［54］ MASTROTOTARO L，SMORODCHENKO A，ASCHEN⁃              tochondrial calcium uniporter［J］. Nat Cell Biol，2013，15
                   BACH J R，et al. Solute carrier 41A3 encodes for a mito⁃  （12）：1464-1472
                   chondrial Mg（2 +）efflux system［J］. Sci Rep，2016，6：  ［68］ DE STEFANI D，RIZZUTO R，POZZAN T. Enjoy the trip：
                   27999                                             calcium in mitochondria back and forth［J］. Annu Rev
             ［55］ CUI Y，ZHAO S，WANG X，et al. A novel Drosophila mi⁃  Biochem，2016，85：161-192
                   tochondrial carrier protein acts as a Mg（2+）exporter in  ［69］ BAUER TM，MURPHY E. Role of mitochondrial calcium
                   fine⁃tuning mitochondrial Mg（2+）homeostasis［J］. Bio⁃  and the permeability transition pore in regulating cell
                   chim Biophys Acta，2016，1863（1）：30-39              death［J］. Circ Res，2020，126（2）：280-293
             ［56］ KOLISEK M，ZSURKA G，SAMAJ J，et al. Mrs2p is an es⁃  ［70］ XU S，WANG P，ZHANG H，et al. CaMKⅡ induces per⁃
                   sential component of the major electrophoretic Mg2+ in⁃  meability transition through DRP1 phosphorylation dur⁃
                   flux system in mitochondria［J］. EMBO J，2003，22（6）：  ing chronic beta⁃AR stimulation［J］. Nat Commun，2016，
                   1235-1244                                         7：13189
             ［57］ JI S G，MEDVEDEVA Y V，WEISS J H. Zn（2+）entry   ［71］ DESPA S，ISLAM M A，WEBER C R，et al. Intracellular
                   through the mitochondrial calcium uniporter is a critical  Na（+）concentration is elevated in heart failure but Na/K
                   contributor to mitochondrial dysfunction and neurodegen⁃  pump function is unchanged［J］. Circulation，2002，105
                   eration［J］. Exp Neurol，2020，325：113161           （21）：2543-2548
                                                                                                          2+
             ［58］ MCDONAGH TA，METRA M，ADAMO M，et al. 2021       ［72］ LIU T，O’ROURKE B. Enhancing mitochondrial Ca up⁃
                   ESC guidelines for the diagnosis and treatment of acute  take in myocytes from failing hearts restores energy sup⁃
                   and chronic heart failure［J］. Eur Heart J，2021，42（36）：  ply and demand matching［J］. Circ Res，2008，103（3）：
                   3599-3726                                         279-288
             ［59］ WU C，ZHANG Z，ZHANG W，et al. Mitochondrial dys⁃  ［73］ AKSENTIJEVIC D，KARLSTAEDT A，BASALAY M V，
                   function and mitochondrial therapies in heart failure［J］.  et al. Intracellular sodium elevation reprograms cardiac
                   Pharmacol Res，2022，175：106038                     metabolism［J］. Nat Commun，2020，11（1）：4337
             ［60］ HAUSENLOY D J，SCHULZ R，GIRAO H，et al. Mito⁃   ［74］ LIU T，TAKIMOTO E，DIMAANO V L，et al. Inhibiting mi⁃
                                                                               +
                                                                                  2+
                   chondrial ion channels as targets for cardioprotection［J］.  tochondrial Na /Ca exchange prevents sudden death in a
                   J Cell Mol Med，2020，24（13）：7102-7114              Guinea pig model of heart failure［J］. Circ Res，2014，115
             ［61］ XU H X，CUI S M，ZHANG Y M，et al. Mitochondrial     （1）：44-54
                   Ca（2+）regulation in the etiology of heart failure：physio⁃  ［75］ TUNCAY E，BITIRIM CV，OLGAR Y，et al. Zn（2 +）⁃
                   logical and pathophysiological implications ［J］. Acta  transporters ZIP7 and ZnT7 play important role in pro⁃
                   Pharmacol Sin，2020，41（10）：1301-1309               gression of cardiac dysfunction via affecting sarco（endo）
             ［62］ BERTERO E，MAACK C. Metabolic remodelling in heart  plasmic reticulum ⁃ mitochondria coupling in hyperglyce⁃
                   failure［J］. Nat Rev Cardiol，2018，15（8）：457-470    mic cardiomyocytes［J］. Mitochondrion，2019，44：41-52
             ［63］ KLAPPER⁃GOLDSTEIN H，VERMA A，ELYAGON S，et      ［76］ MAACK C，LEHRKE M，BACKS J，et al. Heart failure
                   al. VDAC1 in the diseased myocardium and the effect of  and diabetes：metabolic alterations and therapeutic inter⁃
                   VDAC1⁃interacting compound on atrial fibrosis induced  ventions：a state⁃of⁃the⁃art review from the translational
                   by hyperaldosteronism［J］. Sci Rep，2020，10（1）：22101  research committee of the heart failure association⁃europe⁃
             ［64］ WU Y，RASMUSSEN T P，KOVAL O M，et al. The mito⁃      an society of cardiology［J］. Eur Heart J，2018，39（48）：
                   chondrial uniporter controls fight or flight heart rate in⁃  4243-4254
                   creases［J］. Nat Commun，2015，6：6081           ［77］ WESTERMEIER F，RIQUELME J A，PAVEZ M，et al.
             ［65］ LUONGO T S，LAMBERT J P，YUAN A，et al. The mito⁃     New molecular insights of insulin in diabetic cardiomyo⁃
                   chondrial calcium uniporter matches energetic supply  pathy［J］. Front Physiol，2016，7：125
                   with cardiac workload during stress and modulates perme⁃  ［78］ HEGYI B，BERS D M，BOSSUYT J. CaMKⅡ signaling in
                   ability transition［J］. Cell Rep，2015，12（1）：23-34  heart diseases：emerging role in diabetic cardiomyopathy
             ［66］ KWONG J Q，LU X，CORRELL R N，et al. The mitochon⁃   ［J］. J Mol Cell Cardiol，2019，127：246-259
                   drial calcium uniporter selectively matches metabolic out⁃  ［79］ DESPA S. Myocyte［Na（+）］ i dysregulation in heart fail⁃
                   put to acute contractile stress in the heart［J］. Cell Rep，  ure and diabetic cardiomyopathy［J］. Front Physiol，2018，
                   2015，12（1）：15-22                                  9：1303
             ［67］ PAN X，LIU J，NGUYEN T，et al. The physiological role  ［80］ ZHENG H，ZHU H，LIU X，et al. Mitophagy in diabetic