Metabolic inflexibility promotes mitochondrial health during liver regeneration.
Xun WangCameron J MenezesYuemeng JiaYi XiaoSiva Sai Krishna VenigallaFeng CaiMeng-Hsiung HsiehWen Gu LaiLiming DuJessica SudderthDohun KimSpencer D SheltonClaire B LlamasYu-Hsuan LinMin ZhuSalma MerchantDivya BezwadaSherwin KelekarLauren G ZachariasThomas P MathewsGerta HoxhajR Max WynnUttam K TambarRalph J DeBerardinisHao ZhuPrashant MishraPublished in: Science (New York, N.Y.) (2024)
Mitochondria are critical for proper organ function and mechanisms to promote mitochondrial health during regeneration would benefit tissue homeostasis. We report that during liver regeneration, proliferation is suppressed in electron transport chain (ETC)-dysfunctional hepatocytes due to an inability to generate acetyl-CoA from peripheral fatty acids through mitochondrial β-oxidation. Alternative modes for acetyl-CoA production from pyruvate or acetate are suppressed in the setting of ETC dysfunction. This metabolic inflexibility forces a dependence on ETC-functional mitochondria and restoring acetyl-CoA production from pyruvate is sufficient to allow ETC-dysfunctional hepatocytes to proliferate. We propose that metabolic inflexibility within hepatocytes can be advantageous by limiting the expansion of ETC-dysfunctional cells.
Keyphrases
- fatty acid
- oxidative stress
- stem cells
- public health
- healthcare
- induced apoptosis
- cell death
- mental health
- liver injury
- wound healing
- cell cycle arrest
- signaling pathway
- health information
- endoplasmic reticulum
- hydrogen peroxide
- risk assessment
- health promotion
- nitric oxide
- climate change
- electron transfer
- electron microscopy