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［9］ KRAMANN R ，MENZEL S. Mouse models of kidney ［21］LI H，RUAN Y，ZHANG K，et al. Mic60/Mitofilin deter⁃
fibrosis［J］. Methods Mol Biol，2021，2299：323-338 minesMICOSassemblyessentialformitochondrialdynamics
［10］WU Q F，SUN S R，WEI L，et al. Twist1 regulates macro⁃ and mtDNA nucleoid organization［J］. Cell Death Differ，
phage plasticity to promote renal fibrosis through galectin⁃ 2016，23（3）：380-392
3［J］. Cell Mol Life Sci，2022，79（3）：137 ［22］THAPA D，NICHOLS C E，LEWIS S E，et al. Transgenic
［11］赵丹. 慢性肾脏病患者血清脂联素含量与肾脏纤维 overexpression of mitofilin attenuates diabetes mellitus ⁃
化的相关性研究［D］. 长春：吉林大学，2021 associated cardiac and mitochondria dysfunction［J］. J
ZHAO D. Correlation between serum adiponectin content Mol Cell Cardiol，2015，79：212-223
and renal fibrosisindexes in patients with chronic renal ［23］MA M，LIANG S C，DIAO K Y，et al. Mitofilin mitigates
disease［D］. Changchun：Jilin University，2021 myocardial damage in acute myocardial infarction by
［12］COIMBRA S ，ROCHA S ，VALENTE M J ，et al. New regulating pyroptosis of cardiomyocytes［J］. Front Cardio⁃
insights into adiponectin and leptin roles in chronic kidney vasc Med，2022，9：823591
disease［J］. Biomedicines，2022，10（10）：2642 ［24］FENG Y S，IMAM ALIAGAN A，TOMBO N，et al. Mito⁃
［13］CHEN H H，HUANG Y L，CHEN M C，et al.Chronic kid⁃ filin heterozygote mice display an increase in myocardial
ney disease：interaction of adiponectin gene polymor⁃ injury and inflammation after ischemia/reperfusion［J］.
phisms and diabetes［J］.Int J Mol Sci，2023，24（9）：8128 Antioxidants，2023，12（4）：921
［14］PRZYBYCINSKI J，DZIEDZIEJKO V，PUCHAŁOWICZ ［25］FENG Y S，IMAM ALIAGAN A，TOMBO N，et al. RIP3
K，et al. Adiponectin in chronic kidney disease［J］. Int J translocation into mitochondria promotes mitofilin degra⁃
Mol Sci，2020，21（24）：9375 dation to increase inflammation and kidney injury after
［15］ONODERA T，WANG M Y，RUTKOWSKI J M，et al. En⁃ renal ischemia⁃reperfusion［J］. Cells，2022，11（12）：1894
dogenous renal adiponectin drives gluconeogenesis through ［26］ LACOMBE A，SCORRANO L. The interplay between
enhancing pyruvate and fatty acid utilization［J］. Nat Com⁃ mitochondrial dynamics and autophagy：from a key ho⁃
mun，2023，14（1）：6531 meostatic mechanism to a driver of pathology［J］. Semin
［16］ ZOU Y X，YIU W H，LOKS W Y，et al. Tubular FoxP2 Cell Dev Biol，2024，161：1-19
and kidney fibrosis［J/OL］. J Am Soc Nephrol，2024 ［27］ LUO L，WEI D H，PAN Y H，et al. MFN2 suppresses
［2025⁃01⁃28］. DOI：10.1681/ASN.0000000576 clear cell renal cell carcinoma progression by modulating
［17］ ZHOU S，WU Q Y，LIN X，et al. Cannabinoid receptor mitochondria⁃dependent dephosphorylation of EGFR［J］.
type 2 promotes kidney fibrosis through orchestrating β⁃ Cancer Commun，2023，43（7）：808-833
catenin signaling［J］. Kidney Int，2021，99（2）：364-381 ［28］EBERHARDT E L，LUDLAM A V，TAN Z Y，et al. Miro：
［18］GU M R，JIANG H L，TAN M Z，et al. Palmitoyltransferase a molecular switch at the center of mitochondrial regula⁃
DHHC9 and acyl protein thioesterase APT1 modulate renal tion［J］. Protein Sci，2020，29（6）：1269-1284
fibrosis through regulating β ⁃ catenin palmitoylation［J］. ［29］YUAN Y G，HUANG S M，WANG W Y，et al. Activation
Nat Commun，2023，14（1）：6682 of peroxisome proliferator⁃activated receptor⁃γ coactivator
［19］WANG Y T，LI H Y，JIANG S M，et al. The glycolytic en⁃ 1α ameliorates mitochondrial dysfunction and protects
zyme PFKFB3 drives kidney fibrosis through promoting podocytes from aldosterone ⁃ induced injury［J］. Kidney
histone lactylation⁃mediated NF⁃κB family activation［J］. Int，2012，82（7）：771-789
Kidney Int，2024，106（2）：226-240 ［30］CANDAS D，LI J J. MnSOD in oxidative stress response⁃
［20］CHUNG S D，LAI T Y，CHIEN C T，et al. Activating Nrf⁃2 potential regulation via mitochondrial protein influx［J］.
signaling depresses unilateral ureteral obstruction⁃evoked Antioxid Redox Signal，2014，20（10）：1599-1617
mitochondrial stress ⁃ related autophagy，apoptosis and ［收稿日期］ 2024-09-09
pyroptosis in kidney［J］. PLoS One，2012，7（10）：e47299 （本文编辑：戴王娟）

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